CN213205073U

CN213205073U - Bus stop powered through solar energy

Info

Publication number: CN213205073U
Application number: CN202021374601.6U
Authority: CN
Inventors: 窦瑶
Original assignee: Chengdu Polytechnic
Current assignee: Chengdu Polytechnic
Priority date: 2020-07-14
Filing date: 2020-07-14
Publication date: 2021-05-14
Anticipated expiration: 2030-07-14

Abstract

A bus stop powered by solar energy comprises a gravel layer, a platform concrete layer, a platform plaque and passenger seats, wherein bricks are arranged on the upper surfaces of the left end and the right end of the gravel layer, aluminum alloy supporting plates with charging piles are vertically and bilaterally symmetrically arranged on the gravel layer, a steel top plate is fixed between the tops of the aluminum alloy supporting plates, a horizontal storage box is fixed in the aluminum alloy supporting plates attached to the lower surfaces of the steel top plates through a screw assembly, and a storage box connected with the charging piles is arranged in the storage box; a sunshade mounting board is arranged on the upper surface of the steel top plate, and a photovoltaic plate connected with a storage battery box is laid on the upper surface of the sunshade mounting board; the platform board is also provided with a seat socket connected with the storage battery box in parallel. The utility model discloses set up photovoltaic board installing support on bus stop's platform indication plaque, enclose on its surface and close the installation and lay photovoltaic board, inside and set up the electricity storage box, set up bus charging socket and seat socket on platform indication plaque, solar energy passes through the photovoltaic board and turns into environmental protection electric energy, and it is convenient to provide the power consumption for traffic stop and passenger.

Description

Bus stop powered through solar energy

Technical Field

The utility model relates to a photovoltaic power generation application technology field, concretely relates to be a bus stop that supplies power through solar energy.

Background

Photovoltaic power generation is a technology of directly converting light energy into electric energy by using the photovoltaic effect of a semiconductor interface. Solar cells are connected in series and then are packaged and protected to form a large-area solar cell module, and then are matched with components such as a power controller and the like to form a photovoltaic power generation device, namely a photovoltaic panel which is widely applied at present. The photovoltaic panel mainly comprises three major parts, namely a solar panel, a controller and an inverter, the major components comprise electronic components, and the photovoltaic panel is widely applied to various industries and fields at home and abroad at present, including the traffic field.

In terms of the solar power supply situation in China, the mode of arranging the photovoltaic panel on the bus stop to perform solar power generation is not mature at present, and the bus stop with the photovoltaic panel for power generation cannot be basically seen in all big and small cities. The bus station is provided with the station indicating plaque, adopts a sun-shading plaque structure built by an aluminum alloy steel frame structure, and does not fully utilize the plaque to collect sunlight for power generation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bus stop of supplying power through solar energy solves above-mentioned bus stop and instructs the plaque to collect the problem that the sunlight generated electricity not fully utilized the plaque.

In order to achieve the above object, the utility model adopts the following technical scheme:

a bus stop powered by solar energy comprises a gravel layer, a platform concrete layer arranged on the upper surface of the gravel layer, a platform plaque arranged on the upper surface of the platform concrete layer and passenger seats, wherein bricks are arranged on the upper surfaces of the left end and the right end of the gravel layer, aluminum alloy supporting plates with charging piles are vertically, bilaterally and symmetrically arranged on the gravel layer, a steel top plate is fixed between the tops of the aluminum alloy supporting plates, a horizontal fixed containing box attached to the inside of the aluminum alloy supporting plate attached to the lower surface of the steel top plate through a screw assembly is arranged in the aluminum alloy supporting plate, and a; a sunshade mounting board is arranged on the upper surface of the steel top plate, and a photovoltaic plate connected with a storage battery box is laid on the upper surface of the sunshade mounting board; the platform board is also provided with a seat socket connected with the storage battery box in parallel.

The utility model discloses set up photovoltaic board installing support on bus stop's platform indication plaque, enclose on its surface and close the installation and lay photovoltaic board, inside and set up the electricity storage box, set up bus charging socket and seat socket on platform indication plaque, solar energy passes through the photovoltaic board and turns into environmental protection electric energy, and it is convenient to provide the power consumption for traffic stop and passenger. The bus station comprises a crushed stone layer, a platform concrete layer arranged on the upper surface of the crushed stone layer, a platform plaque and passenger seats, wherein the platform plaque is arranged on the platform concrete layer, the passenger seats provide a passenger rest place and are arranged by being attached to the platform plaque, brick structures are arranged on the upper surfaces of the left end and the right end of the crushed stone layer and are used as mounting supports of aluminum alloy supporting plates, steel seat covers are mounted on the brick structures, feet of the aluminum alloy supporting plates are inserted into the brick structures and are stably stood, the aluminum alloy supporting plates 7 are vertically, bilaterally and symmetrically paired, and a pair of charging piles are arranged on the outer side surfaces of the brick structures and are used for charging buses or other tools; welding an inherent steel top plate between the tops of the aluminum alloy supporting plates to serve as an installation supporting plate surface of an upper photovoltaic plate, horizontally and inherently arranging storage boxes on the inner side surfaces, attached to the lower surface of the steel top plate, of the aluminum alloy supporting plates through screw assemblies, as shown in the attached drawing 2, two pairs of screw assemblies are arranged, the bottoms of the storage boxes are located on a platform plaque ceiling, the storage boxes are provided with storage battery boxes connected with charging piles, after the upper photovoltaic plate generates electricity, the electricity is collected and gathered to the storage battery boxes, and the storage battery boxes respectively supply power to the following electric equipment; the solar protection device is characterized in that a sun-shading installation board is riveted on the upper surface of a steel top plate, the left end and the right end of the steel top plate are arranged in a protruding mode and are in arch crown shape, the inclined glass protection plate can be conveniently installed, a photovoltaic plate connected with a storage battery box is laid on the sun-shading installation board, the photovoltaic plate is installed in a clearance mode and is laid on the upper surface of the sun-shading installation board in an array mode to carry out photovoltaic power generation, and electric energy is transmitted through; in order to facilitate passengers to use the electric energy stored by photovoltaic power generation, a seat socket connected with the storage battery box in parallel is further arranged on the platform plaque and is installed close to the passenger seats.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses set up photovoltaic board installing support on bus stop's platform indication plaque, enclose on its surface and close the installation and lay photovoltaic board, inside and set up the electricity storage box, set up bus charging socket and seat socket on platform indication plaque, solar energy passes through the photovoltaic board and turns into environmental protection electric energy, and it is convenient to provide the power consumption for traffic stop and passenger.

Drawings

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

FIG. 2 is a side view of FIG. 1;

FIG. 3 is an enlarged view of a portion of portion A of FIG. 1;

wherein, the names corresponding to the reference numbers are:

1. passenger seat, 2, platform concrete layer, 3, rubble layer, 4, the brick, 5, steel seat cover, 6, fill electric pile, 7, aluminum alloy support plate, 8, platform tablet, 9, light, 10, aluminum alloy supporting shoe, 11, screw rod component, 12, inclined plane glass guard plate, 13, sunshade installation plank, 14, accumulator box, 15, steel roof, 16, containing box, 17, photovoltaic board, 18, transparent protective glass board, 19, the bracing piece, 20, the stiffening rib, 21, the socket mounting panel, 22, the seat socket.

Detailed Description

The present invention will be further described with reference to the following description and examples, which include but are not limited to the following examples.

As shown in the attached

drawings

1, 2 and 3, the bus station powered by solar energy comprises a gravel layer 3, a platform concrete layer 2 arranged on the upper surface of the gravel layer 3, a platform plaque 8 arranged on the upper surface of the platform concrete layer 2 and passenger seats 1, wherein brick blocks 4 are arranged on the upper surfaces of the left end and the right end of the gravel layer 3, aluminum alloy supporting plates 7 with charging piles 6 are vertically and bilaterally symmetrically arranged on the brick layer 3, a steel top plate 15 is fixed between the tops of the aluminum alloy supporting plates 7, a horizontally fixed containing box 16 attached to the inside of the aluminum alloy supporting plate 7 attached to the lower surface of the steel top plate 15 through a screw assembly 11 is arranged in the aluminum alloy supporting plate; a sunshade mounting wood plate 13 is arranged on the upper surface of the steel top plate 15, and a photovoltaic plate 17 connected with a storage battery box 14 is laid on the upper surface of the sunshade mounting wood plate 13; the platform board 8 is also provided with a seat socket 22 connected in parallel to the storage battery box 14.

The utility model discloses set up photovoltaic board installing support on bus stop's platform indication plaque, enclose on its surface and close the installation and lay photovoltaic board, inside and set up the electricity storage box, set up bus charging socket and seat socket on platform indication plaque, solar energy passes through the photovoltaic board and turns into environmental protection electric energy, and it is convenient to provide the power consumption for traffic stop and passenger. The bus station comprises a crushed stone layer 3, a platform concrete layer 2 arranged on the upper surface of the crushed stone layer 3, a platform plaque 8 and passenger seats 1 arranged on the upper surface of the platform concrete layer 2, wherein the platform plaque 8 is arranged on the platform concrete layer 2, the passenger seats 1 provide a passenger rest place and are arranged by being attached to the platform plaque 8, brick structures 4 are arranged on the upper surfaces of the left end and the right end of the crushed stone layer 3 and are used as mounting supports of an aluminum alloy supporting plate 7, a steel seat cover 5 is mounted on the brick structures, feet of the aluminum alloy supporting plate 7 are inserted into the brick structures and are stably stood, the aluminum alloy supporting plate 7 is vertically and bilaterally symmetrical, and a pair of charging piles 6 are arranged on the outer side surface of the aluminum alloy supporting plate and are used for charging buses or; welding an inherent steel top plate 15 between the tops of the aluminum alloy support plates 7 to serve as an installation support plate surface of an upper photovoltaic plate 17, horizontally and inherently arranging two pairs of screw components 11 on the inner side surface of the aluminum alloy support plate 7 attached to the lower surface of the steel top plate 15 to form an accommodating box 16, as shown in the attached drawing 2, arranging two pairs of screw components 11, enabling the bottom of the accommodating box 16 to be located on the ceiling of a platform plaque 8, arranging a storage battery box 14 connected with a charging pile 6 on the accommodating box 16, collecting and accumulating electric energy to the storage battery box 14 after the upper photovoltaic plate 17 generates electricity, and supplying power to following electric equipment by the storage battery box 14; a sun-shading installation wood plate 13 is riveted on the upper surface of a steel top plate 15, the left end and the right end of the steel top plate are arranged in a protruding mode and are in a vault shape, so that the following inclined glass protection plate 12 can be conveniently installed, a photovoltaic plate 17 connected with a storage battery box 14 is laid on the upper surface of the sun-shading installation wood plate 13, the photovoltaic plate 17 is installed in a clearance mode and is laid on the upper surface of the sun-shading installation wood plate 13 in an array mode to carry out photovoltaic power generation, and electric energy is transmitted; in order to facilitate passengers to use the electric energy stored by photovoltaic power generation, a seat socket 22 connected in parallel with the storage battery box 14 is further arranged on the platform plaque 8 and is installed close to the passenger seat 1.

Further, a socket mounting plate 21 is arranged on the inner side surface of the platform board 8, and the seat socket 22 is plugged on the socket mounting plate 21. As shown in fig. 3, the platform board 8 is hollow, has a parallel connection line connected to the storage battery box 14, and is connected to the socket mounting plate 21 mounted on the inner side surface of the platform board 8 to serve as a socket plate for a plug, and the seat socket 22 is plugged to the socket mounting plate 21 when in use.

Furthermore, the top of the inner side of the platform plaque 8 is also provided with an illuminating lamp 9 which is connected with the storage battery box 14 in parallel. In this embodiment, in order to further utilize solar energy to generate electricity, an illuminating lamp 9 connected in parallel to a storage battery box 14 is further arranged on the top of the inner side of the platform plaque 8 to provide illumination, thereby facilitating platform traffic.

Furthermore, the upper surface of the left end and the right end of the platform board 8 are also provided with aluminum alloy supporting blocks 10, and the containing box 16 is fixedly located on the aluminum alloy supporting blocks 10. The upper surface of the left end and the right end of the platform board 8 are provided with shoulder-raising structures, aluminum alloy supporting blocks 10 are welded on the shoulder-raising structures and used as supports of storage boxes 16, and the storage boxes 16 are fixedly located on the aluminum alloy supporting blocks 10.

Further, a gap is reserved between the photovoltaic panels 17, a support rod 19 is vertically arranged on the sunshade mounting wood plate 13 between the gaps, and a transparent protective glass plate 18 is horizontally arranged at the top of the support rod 19. In order to avoid damage of the photovoltaic panels 17 caused by rain, ash layer accumulation and foreign object damage, gaps are reserved among the photovoltaic panels 17, supporting rods 19 are vertically screwed on the sunshade mounting wood boards 13 among the gaps, the supporting rods 19 are arranged in an array mode and are arranged at equal heights, transparent protective glass plates 18 are horizontally mounted on the tops of the supporting rods 19 and fixed through bolt assemblies.

Further, a reinforcing rib 20 is provided between the support rod 19 and the transparent cover glass plate 18. The reinforcing rib 20 is a plastic clip and is connected between the support rod 19 and the transparent cover glass plate 18, so that the load resistance and the stability of the transparent cover glass plate 18 are improved.

Furthermore, the left end and the right end of the transparent protective glass plate 18 are also provided with inclined glass protective plates 12. The inclined plane glass protection plate 12 is transparent glass, provides the guard action, utilizes triangle angle steel to fix at the left and right ends of transparent protection glass board 18, and the shaping vault is modelled simultaneously, corresponds with below photovoltaic board 17 parallel.

Obviously, the utility model discloses set up photovoltaic board installing support on bus stop's platform indication plaque, enclose on its surface and close the installation and lay photovoltaic board, inside and set up the electricity storage box, set up bus charging socket and seat socket on platform indication plaque, solar energy passes through the photovoltaic board and turns into environmental protection electric energy, and it is convenient for traffic stop and passenger to provide the power consumption.

The above embodiment is only one of the preferred embodiments of the present invention, and should not be used to limit the protection scope of the present invention, but all the insubstantial changes or modifications made in the spirit and the idea of the main design of the present invention, the technical problems solved by the embodiment are still consistent with the present invention, and all should be included in the protection scope of the present invention.

Claims

1. The utility model provides a bus stop who supplies power through solar energy, includes rubble layer (3), locates platform concrete layer (2) that rubble layer (3) were gone up, locates platform concrete layer (2) and go up platform plaque (8) and passenger seat (1), its characterized in that of table: bricks (4) are arranged on the upper surfaces of the left end and the right end of the gravel layer (3), aluminum alloy supporting plates (7) with charging piles (6) are vertically and bilaterally symmetrically arranged on the bricks, a steel top plate (15) is fixed between the tops of the aluminum alloy supporting plates (7), a screw component (11) is horizontally fixed in the aluminum alloy supporting plates (7) attached to the lower surface of the steel top plate (15) to form a containing box (16), and an electric storage box (14) connected with the charging piles (6) is arranged in the containing box; a sunshade mounting wood plate (13) is arranged on the upper surface of the steel top plate (15), and a photovoltaic plate (17) connected with a storage battery box (14) is laid on the upper surface of the sunshade mounting wood plate (13); the platform board (8) is also provided with a seat socket (22) which is connected with the storage battery box (14) in parallel.

2. A bus stop powered by solar energy as claimed in claim 1, wherein: the inner side surface of the platform board (8) is provided with a socket mounting plate (21), and the seat socket (22) is plugged on the socket mounting plate (21).

3. A bus stop powered by solar energy as claimed in claim 1 or 2, wherein: the top of the inner side of the platform plaque (8) is also provided with a lighting lamp (9) which is connected in parallel with the storage battery box (14).

4. A bus stop powered by solar energy as claimed in claim 3, wherein: the upper surface of the left end and the right end of the platform board (8) are also provided with aluminum alloy supporting blocks (10), and the containing box (16) is fixedly located on the aluminum alloy supporting blocks (10).

5. A bus stop powered by solar energy as claimed in claim 1, 2 or 4, wherein: a gap is reserved between the photovoltaic panels (17), supporting rods (19) are vertically arranged on the sunshade mounting wood boards (13) between the gaps, and transparent protective glass plates (18) are horizontally arranged at the tops of the supporting rods (19).

6. A bus stop powered by solar energy as claimed in claim 5, wherein: reinforcing ribs (20) are arranged between the supporting rods (19) and the transparent protective glass plate (18).

7. A bus stop powered by solar energy as claimed in claim 6, wherein: the left end and the right end of the transparent protective glass plate (18) are also provided with inclined glass protective plates (12).