CN217603983U - Wind-resistant solar street lamp and road lighting system - Google Patents

Abstract

The utility model discloses a wind-resistant solar street lamp and a road lighting system, wherein the street lamp comprises a lamp holder, a first solar cell panel, a second solar cell panel and a wing plate, wherein the lamp holder is of a shell structure; the light-emitting component is fixedly connected with the lower end face of the lamp holder and is used for outputting light rays required by illumination; the first solar cell panel is arranged on the upper end face of the lamp holder and is used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assembly; the wing plates are a pair and are respectively connected with the two sides of the lamp holder in the width direction in a rotating way through the connecting pieces; the second solar cell panels are in a pair, correspond to the wing plates one by one, are fixedly connected to the upper end faces of the wing plates, and are used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assembly; in addition, still be equipped with the elasticity on the connecting piece and restrict the piece, the elasticity is restricted the piece and is connected with the pterygoid lamina, makes the pterygoid lamina when the external force that receives is less than first effort, keeps first gesture, and when the external force that receives the pterygoid lamina was greater than first effort, it was around the connecting piece upset.

Description

Wind-resistant solar street lamp and road lighting system

Technical Field

The utility model relates to a lamps and lanterns technical field especially relates to an anti-wind solar street lamp and road lighting system.

Background

With the increasing depth and the increasing range of solar energy utilization technology, the technology of solar cell panel assisting street lamp power supply is widely applied, however, the street lamp is fixedly arranged outdoors, and the influence of weather of strong wind, rain and snow is required to be considered, therefore, the area of the solar cell panel applied in the street lamp is usually smaller at present, and the installation of part of the solar cell panel with large size is assisted by additionally arranging an installation component so as to avoid the influence of service life and the capability of resisting external force under severe weather, while the overall hardware cost of the street lamp is increased by additionally arranging the installation component, and more time is required to be consumed for assembly in the installation process, and the problems cause that the application and popularization of the solar cell panel are difficult to implement in a large range due to the problems of cost and installation efficiency, therefore, how to improve the structure compactness of the solar cell assembly and the capability of adapting to external passive force are very realistic subjects.

Disclosure of Invention

In view of this, the utility model aims at providing a compact structure, implement reliably and partial subassembly can carry out the anti-wind solar street lamp and the road lighting system of certain range deformation adaptation according to the external condition of exerting pressure.

In order to realize the technical purpose, the utility model adopts the technical scheme that:

a wind resistant solar street light, comprising:

the lamp holder is of a shell structure;

the light-emitting component is fixedly connected with the lower end face of the lamp holder and is used for outputting light rays required by illumination;

the first solar cell panel is arranged on the upper end face of the lamp holder and is used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assembly;

it still includes:

the wing plates are a pair and are respectively connected to two sides of the lamp holder in the width direction in a rotating way through connecting pieces;

the second solar cell panels are in one pair, correspond to the wing plates one by one, are fixedly connected to the upper end faces of the wing plates, and are used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assemblies;

the connecting piece is further provided with an elastic restraining piece, the elastic restraining piece is connected with the wing plate, the wing plate keeps a first posture when the external force exerted on the wing plate is smaller than a first acting force, and when the external force exerted on the wing plate is larger than the first acting force, the wing plate overturns around the connecting piece.

As a possible implementation manner, further, the wing plate is a shell structure with a parallelogram cross section, a profiling installation groove with a profile matched with the second solar cell panel is arranged on the upper end surface of the wing plate, and the wing plate is fixedly connected with the second solar cell panel through the profiling installation groove.

As a preferred optional embodiment, preferably, avoidance grooves for being connected with wing plates in a matched manner are formed in two sides of the lamp holder in the width direction, the connecting piece is a connecting shaft, and one side of each wing plate is rotatably connected in the avoidance groove of the lamp holder through the connecting shaft;

wherein, the part of the connecting shaft matched with the wing plate penetrates into the shell structure of the wing plate;

in addition, the elastic restraint piece is arranged at the part of the connecting shaft penetrating into the shell structure of the wing plate and is connected with the wing plate.

As a preferred alternative, the profile mounting groove preferably penetrates into the shell structure of the wing plate, and the upper end surface of the second solar cell panel is flush with the upper end surface of the wing plate.

As a preferred optional embodiment, preferably, the elastic constraint member is a spring, the elastic constraint member is sleeved on a shaft body of the connecting shaft penetrating into the shell structure of the wing plate, and two ends of the spring extend along a direction away from the lamp holder and are respectively and fixedly connected with the inner wall of the wing plate and the lower end surface of the second solar cell panel through connecting blocks;

and restraint blocks for limiting the spring to rotate around the connecting shaft are arranged between the two ends of the spring and the connecting shaft.

As a preferred alternative, it is preferable that the number of the elastic restraining members is one pair and the elastic restraining members are respectively disposed at two ends of a shaft body of the connecting shaft penetrating into the shell structure of the wing plate.

As a possible embodiment, furthermore, the lower end face of the lamp base is provided with a connecting sleeve for connecting with an external mounting support.

As a possible implementation manner, further, the first solar cell panel is embedded in the upper end surface of the lamp holder, and the upper end surface of the first solar cell panel is flush with the upper end surface of the lamp holder.

Based on the above scheme, the utility model provides a road lighting lamp system is still provided, it includes the aforesaid anti-wind solar street lamp.

By adopting the technical scheme, compared with the prior art, the invention has the beneficial effects that: this scheme ingenious is through setting up the pterygoid lamina on the lamp stand, then install second solar cell panel additional at the pterygoid lamina up end, with the electric energy that improves light-emitting component on the lamp stand acquires source and supply volume, and overturn through connecting piece and elasticity constraining member between pterygoid lamina and the lamp stand and connect and the atress restraint, make the pterygoid lamina when the external force that receives is greater than a definite value, can overturn in order to alleviate its atress by a small margin, avoid pterygoid lamina or lamp stand to appear whole atress too big and lead to damaging the scheduling problem, this scheme improves solar cell panel's whole area through the mode of installing the pterygoid lamina additional, still with the pterygoid lamina simultaneously, the lamp stand is integrated to an overall structure, make it when the field erection, it is more convenient and high-efficient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a three-dimensional view of a simplified structure according to the present invention;

FIG. 2 is a schematic diagram of a three-dimensional view of a simplified embodiment of the present invention;

fig. 3 is a third schematic view of a three-dimensional perspective of a simplified embodiment of the present invention;

fig. 4 is one of the three-dimensional visual angle explosion diagrams of the simple implementation structure of the scheme of the utility model;

fig. 5 is a schematic diagram of the three-dimensional perspective explosion of the embodiment of the present invention;

fig. 6 is a schematic partial schematic view of the wing plate, the lamp holder, the connecting member, and the elastic constraining member according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be noted that the following examples are only for illustrating the present invention, but do not limit the scope of the present invention. Similarly, the following embodiments are only some but not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

As shown in one of fig. 1 to 6, the utility model relates to a wind-resistant solar street lamp, it includes:

the lamp holder 1 is of a shell structure;

the light-emitting component 2 is fixedly connected with the lower end face of the lamp holder 1 and is used for outputting light rays required by illumination;

the first solar cell panel 3 is arranged on the upper end face of the lamp holder 1 and is used for converting solar energy into electric energy and supplying the electric energy to the light-emitting component 2;

in addition, this scheme still includes:

the wing plates 4 are a pair and are respectively connected with the two sides of the lamp holder 1 in the width direction in a rotating way through connecting pieces 6;

the second solar cell panels 5 are a pair, correspond to the wing plates 4 one by one, are fixedly connected to the upper end surfaces of the wing plates 4, and are used for converting solar energy into electric energy and supplying the electric energy to the light-emitting components;

the connecting piece 6 is further provided with an elastic restraint piece 7, the elastic restraint piece 7 is connected with the wing plate 4, the wing plate 4 keeps a first posture when the external force exerted on the wing plate 4 is smaller than a first acting force, and when the external force exerted on the wing plate 4 is larger than the first acting force, the wing plate overturns around the connecting piece 6.

In this scheme, pterygoid lamina 4 is the shell structure of transversal personally submitting parallelogram, and its up end is equipped with profile modeling mounting groove 41 that the profile and second solar cell panel 5 suited, just pterygoid lamina 4 passes through profile modeling mounting groove 41 and second solar cell panel 5 fixed connection, makes second solar cell panel 5 by stable fixation on pterygoid lamina 4.

In order to prevent the turning angle of the wing plate 4 from exceeding the allowable or bearing limit of the lamp holder 1 after the wing plate 4 is mounted on the lamp holder 1, in the present scheme, as a preferred embodiment, preferably, two sides of the lamp holder 1 in the width direction are provided with an avoiding groove 12 for being in fit connection with the wing plate, the connecting member 6 is a connecting shaft, and one side of the wing plate 4 is rotatably connected in the avoiding groove 12 of the lamp holder through the connecting shaft;

wherein, the part of the connecting shaft (i.e. the connecting piece 6) which is matched with the wing plate 4 penetrates into the shell structure of the wing plate 4, and under the structure, the turning amplitude of the wing plate 4 can be limited by avoiding the upper and lower inner walls of the groove 12;

in addition, the elastic restraint 7 is arranged at the part of the connecting shaft penetrating into the shell structure of the wing plate 4 and is connected with the wing plate 4.

In order to avoid the non-benign matching state such as the dead angle of dirt caused by the second solar cell panel 5 protruding out of the upper end surface of the wing plate 4 after being mounted on the upper end surface of the wing plate 4, in this embodiment, as a preferred optional embodiment, it is preferable that the profile modeling mounting groove 41 penetrates into the shell structure of the wing plate 4, the upper end surface of the second solar cell panel 5 is flush with the upper end surface of the wing plate 4, and similarly, the first solar cell panel 3 is embedded in the upper end surface of the lamp holder 1 and the upper end surface thereof is flush with the upper end surface of the lamp holder 1.

As the main function of the elastic restraint member 7 is to make the wing plate 4 be able to restrain the wing plate 4 from turning over when the wing plate 4 is subjected to a certain vertical pressure, in the present scheme, as a preferred embodiment, preferably, the elastic restraint member 7 is a spring, which is sleeved on a shaft body of a connecting shaft (i.e. a connecting member 6) penetrating into the shell structure of the wing plate 4, and both ends of the spring extend along the direction away from the lamp holder 1 and are respectively fixedly connected with the inner wall of the wing plate 4 and the lower end face of the second solar cell panel 5 through a connecting block 8;

the lamp holder is characterized in that a restraining block 9 for limiting the spring to rotate around the connecting shaft is further arranged between the two ends of the spring (namely the elastic restraining piece 7) and the connecting shaft, the restraining block 9 is used for preventing the second solar cell panel 5 or the wing plate 4 from rotating around the connecting shaft in an external acting force or the situation that the wing plate 4 drives the spring (namely the elastic restraining piece 7) to rotate around the connecting shaft due to self weight, the expected effect is that the spring (namely the elastic restraining piece 7) is limited to rotate around the connecting piece 6, so that the wing plate 4 keeps a first posture, when the wing plate 4 or the second solar cell panel 5 is stressed and deformed more than the first acting force, for example, wind force in strong wind weather acts on the wing plate 4 or the second solar cell panel 5, when the stress is greater than the first acting force, the two ends of the spring (particularly the end part where the spring is connected with the wing plate 4 or the second solar cell panel 5 through the connecting piece 8) are stressed and deformed, so that the wing plate 4 overturns in a small range in an up-and down overturning range limited by the avoiding groove 12, and the spring is made of elastic metal, therefore, when the accumulated snow is reduced from the first acting force or the snow plate 5, when the snow acting force is smaller than the first acting force, the wing plate 4, the snow cover device can reduce the snow cover, when the snow cover 4, when the snow cover is released, and the snow cover device can reduce the snow cover, and the snow cover, when the snow cover device in the snow cover, when the snow cover, and the snow cover device, when the snow cover device, and the snow cover device can reduce the snow cover device in the snow cover, and the snow cover, when the snow cover, and the snow cover device, and when the snow cover device can reduce the snow cover device, and when the snow cover device in the snow cover device, and the snow cover device, the snow cover device.

In this scheme, in order to improve the stability in use of pterygoid lamina 4, as a preferred alternative implementation, preferably, the quantity of elasticity about-component 7 is a pair and its setting respectively penetrates the axis body both ends in the pterygoid lamina 4 shell structure at the connecting axle.

In order to improve the installation convenience, as a possible implementation manner in the present embodiment, further, a connection sleeve 11 is further disposed on the lower end surface of the lamp holder 1, the connection sleeve 11 is used for connecting with an external installation supporting member (for example, a lamp post), and as an installation example, when the lamp holder 1 is installed on the lamp post, an included angle between the lamp holder 1 and a virtual horizontal line is about 15%, so that the light emitting component 2 on the lamp holder 1 obliquely irradiates the ground or an area needing illumination assistance.

It should be noted that, the mode of obtaining solar energy and converting solar energy to form electric energy through solar cell panel is current conventional means, and the core of this scheme lies in making to be equipped with the pterygoid lamina 4 of second solar cell panel 5 additional and can adapt to external effort and overturn through setting up parts such as pterygoid lamina 4 and cooperation connecting piece 6, elasticity constraint 7, consequently, the mechanism details that solar cell panel carries out solar energy conversion to electric energy and supplies power no longer has been repeated.

The above only is the partial embodiment of the utility model discloses a not therefore restriction the utility model discloses a protection scope, all utilize the utility model discloses equivalent device or equivalent flow transform that the content of description and drawing was done, or direct or indirect application in other relevant technical field, all the same reason is included in the patent protection scope of the utility model.

Claims (9)

1. A wind resistant solar street light, comprising:

the lamp holder is of a shell structure;

the light-emitting component is fixedly connected with the lower end face of the lamp holder and is used for outputting light rays required by illumination;

the first solar cell panel is arranged on the upper end face of the lamp holder and is used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assembly;

it is characterized in that it also comprises:

the wing plates are a pair and are respectively connected to two sides of the lamp holder in the width direction in a rotating way through connecting pieces;

the second solar cell panels are a pair, correspond to the wing plates one by one, are fixedly connected to the upper end surfaces of the wing plates, and are used for converting solar energy into electric energy and supplying the electric energy to the light-emitting assembly;

the connecting piece is further provided with an elastic restraining piece, the elastic restraining piece is connected with the wing plate, the wing plate keeps a first posture when the external force exerted on the wing plate is smaller than a first acting force, and when the external force exerted on the wing plate is larger than the first acting force, the wing plate overturns around the connecting piece.

2. The wind-resistant solar street lamp according to claim 1, wherein the wing plate is a shell structure with a parallelogram-shaped cross section, a profiling installation groove with a profile matched with the second solar cell panel is arranged on the upper end surface of the wing plate, and the wing plate is fixedly connected with the second solar cell panel through the profiling installation groove.

3. The wind-resistant solar street lamp according to claim 2, wherein avoidance grooves for being connected with wing plates in a matching manner are formed in two sides of the lamp holder in the width direction, the connecting member is a connecting shaft, and one side of each wing plate is rotatably connected in the avoidance groove of the lamp holder through the connecting shaft;

wherein, the part of the connecting shaft matched with the wing plate penetrates into the shell structure of the wing plate;

in addition, the elastic restraint piece is arranged on the part of the connecting shaft penetrating into the shell structure of the wing plate and is connected with the wing plate.

4. The wind resistant solar street light as claimed in claim 3, wherein the profile mounting groove penetrates into the shell structure of the wing plate, and the upper end surface of the second solar cell panel is flush with the upper end surface of the wing plate.

5. The wind-resistant solar street lamp according to claim 4, wherein the elastic restraint member is a spring, the spring is sleeved on a shaft body of the connecting shaft penetrating into the shell structure of the wing plate, and two ends of the spring extend along the direction away from the lamp holder and are respectively fixedly connected with the inner wall of the wing plate and the lower end surface of the second solar cell panel through connecting blocks;

and restraint blocks for limiting the spring to rotate around the connecting shaft are arranged between the two ends of the spring and the connecting shaft.

6. The wind-resistant solar street light as claimed in claim 5, wherein the number of the elastic restraining members is one pair and the elastic restraining members are respectively arranged at two ends of a shaft body of the connecting shaft penetrating into the shell structure of the wing plate.

7. The wind resistant solar street light as claimed in claim 1, wherein the lamp holder is further provided at a lower end surface thereof with a connection sleeve for connection with an external mounting support.

8. The wind-resistant solar street light of claim 1, wherein the first solar panel is embedded in the upper end surface of the lamp holder, and the upper end surface of the first solar panel is flush with the upper end surface of the lamp holder.

9. A road lighting system characterized in that it comprises a wind-resistant solar street light according to one of claims 1 to 8.

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