CN111002838A

CN111002838A - Distributed photovoltaic new energy sightseeing vehicle

Info

Publication number: CN111002838A
Application number: CN201911377638.6A
Authority: CN
Inventors: 刘香峰; 幸彩勤; 徐腾林; 周烜能; 刘迅
Original assignee: Guangdong Namkoo Electric Power Co ltd
Current assignee: Guangdong Namkoo Electric Power Co ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-04-14

Abstract

The invention discloses a distributed photovoltaic new energy sightseeing vehicle which comprises a vehicle main body and a ceiling, wherein the top surface of the ceiling is formed by splicing a plurality of solar cell panels, the solar cell panels are symmetrically distributed and arranged on the left side and the right side of the top surface of the ceiling, the ceiling is provided with a sliding mechanism for the solar cell panels to slide towards the left outer side and the right outer side of the ceiling, the whole solar cell panel is arranged in the sliding mechanism through a connecting rod sliding frame, the two ends of the connecting rod and the sliding mechanism are provided with downwards-turning rotating mechanisms, and the bottom surface of the solar cell panel is arranged on the wall of the connecting rod through a guide rail mechanism of which the direction is; the adjustable sliding and turning adjustment of the solar cell panel can realize the function of a panoramic skylight at the top of the vehicle body and the safety effect of shielding and protecting the two sides of the vehicle body, thereby greatly improving the use efficiency of the solar cell panel and the overall practicability of the vehicle body.

Description

Distributed photovoltaic new energy sightseeing vehicle

Technical Field

The invention particularly relates to a sightseeing new energy vehicle, in particular to a distributed photovoltaic new energy sightseeing vehicle.

Background

New energy vehicles generally adopt electric drive, general new energy vehicles rely on rechargeable battery to drive as main power, this kind of new energy vehicles is widely used in the sightseeing field, the sightseeing vehicle need not long distance and goes, can conveniently charge, therefore new energy sightseeing vehicle is more and more popularized, general sightseeing vehicle adopts the mode of fixed point charging to charge the battery of vehicle, along with the popularization of distributed photovoltaic technology, solar cell panel and supporting photovoltaic module have been installed at the roof to the sightseeing vehicle very much, solar cell panel can charge to the battery, the distance of traveling of battery has been improved greatly, reduce the number of times of charging.

However, for a panoramic skylight type sightseeing vehicle, the ceiling is generally set to be a light-transmitting type, visitors can conveniently see the landscape when the vehicle passes through the landscape, and the ceiling is covered and shielded by the ceiling-type solar cell panel, so that the non-adjustable ceiling solar cell panel is set to influence the sightseeing effect of the sightseeing vehicle to a certain extent.

General sightseeing bus both sides door all sets up to development formula design, and mainly make things convenient for visitor to get on or off the bus from both sides, but meets the condition that side sunshine is strong, crosswind is great or rainwater side invasion, and sightseeing bus both sides lack to shelter from, cause the influence to the visitor on the sightseeing bus.

Therefore, in order to solve the problems, a new energy sightseeing vehicle with a side surface capable of being protected and a ceiling solar panel capable of being adjusted is needed.

Disclosure of Invention

The invention aims to provide a distributed photovoltaic new energy sightseeing vehicle to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a distributed photovoltaic new energy sightseeing vehicle comprises a vehicle main body, wherein the vehicle main body is fixedly supported with a ceiling through a plurality of support rods, a solar cell panel is installed at the top of the ceiling, the output end of the solar cell panel is electrically connected with the charging end of a storage battery in the vehicle main body through a controller, the output end of the storage battery is connected with the wheel transmission of the vehicle main body through a direct current motor and a gear connecting rod mechanism, the top surface of the ceiling is formed by splicing a plurality of solar cell panels, the solar cell panels are symmetrically distributed and arranged at the left side and the right side of the top surface of the ceiling, the ceiling is provided with a sliding mechanism for the solar cell panel to slide towards the left side and the right side of the ceiling, the whole solar cell panel is arranged in the sliding mechanism through a connecting rod sliding frame, the two ends of the connecting rod and the sliding mechanism are provided with rotating mechanisms turning downwards, the bottom surface of the solar cell, the output end of the solar cell panel is electrically connected with a controller inside the vehicle main body through the wiring mechanism.

Further scheme: the sliding mechanism comprises a plurality of frame plates which are longitudinally arranged on the ceiling at intervals, plate grooves are formed in the opposite surfaces of the adjacent frame plates, sliding blocks are arranged in the plate grooves in a sliding clamping mode, and the two ends of the connecting rod penetrate into the plate grooves and are fixed on the side walls of the sliding blocks.

Further scheme: the rotating mechanism comprises rotating grooves which are formed in the left end and the right end of the sliding block and communicated with the sliding block, rotating blocks are fixed in the rotating grooves in a rotating mode in the vertical direction, and bayonets used for being clamped into the sliding block are formed in the side walls of the rotating blocks.

Further scheme: and a volute spiral spring is arranged between the rotating shaft of the bayonet and the inner wall of the rotating groove, and the bayonet is kept facing the openings at the left end and the right end of the plate groove in a normal elastic state of the volute spiral spring.

Further scheme: the guide rail mechanism is longitudinally fixed on a plurality of guide rails on the bottom surface of the solar cell panel, guide rail blocks are slidably clamped in the guide rails, and the guide rail blocks are fixed on the top rod wall of the connecting rod.

Further scheme: and a pull ring is fixed on the outer side wall of the solar cell panel.

Further scheme: and a layer of light-transmitting plate is fixed on the ceiling.

Compared with the prior art, the invention has the beneficial effects that: the adjustable sliding and turning adjustment of the solar cell panel can realize the function of a panoramic skylight at the top of the vehicle body and the safety effect of shielding and protecting the two sides of the vehicle body, thereby greatly improving the use efficiency of the solar cell panel and the overall practicability of the vehicle body.

Drawings

Fig. 1 is a schematic structural diagram of a distributed photovoltaic new energy sightseeing vehicle.

Fig. 2 is a schematic structural diagram of a top view of a ceiling in a distributed photovoltaic new energy sightseeing vehicle (without a solar panel).

Fig. 3 is a schematic structural diagram of a top view of a ceiling in a distributed photovoltaic new energy sightseeing vehicle (including a solar panel).

Fig. 4 is a schematic structural diagram of a longitudinal section of a ceiling in a distributed photovoltaic new energy sightseeing vehicle.

Fig. 5 is a schematic structural diagram of the bottom surface of the solar panel and the connecting rod in the distributed photovoltaic new energy sightseeing vehicle.

Fig. 6 is a schematic structural diagram of a wiring mechanism in the distributed photovoltaic new energy sightseeing vehicle.

Fig. 7 is a schematic structural diagram of a plate groove and a strut cavity in the distributed photovoltaic new energy sightseeing vehicle.

In the figure: the solar energy vehicle comprises a vehicle body 1, a support rod 11, a support rod cavity 110, a ceiling 2, a frame plate 20, a plate groove 21, a threading groove 210, a groove hole 211, a sliding block 22, a block hole 220, a connecting rod 23, a connecting rod cavity 230, a rod hole 231, a light-transmitting plate 24, a rotating groove 25, a rotating block 26, a bayonet 27, a solar cell panel 3, a guide rail 30, a guide rail block 31, a pull ring 32 and an elastic output line 33.

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.

Example 1

Referring to fig. 1 to 5, in the embodiment of the invention, a distributed photovoltaic new energy sightseeing vehicle comprises a vehicle main body 1, the vehicle main body 1 fixedly supports a ceiling 2 through a plurality of support rods 11, a solar cell panel 3 is installed on the top of the ceiling 2, the output end of the solar cell panel 3 is electrically connected with the charging end of a storage battery inside the vehicle main body 1 through a controller, the output end of the storage battery is in transmission connection with wheels of the vehicle main body 1 through a direct current motor and a gear link mechanism, the top surface of the ceiling 2 is formed by splicing a plurality of solar cell panels 3, the solar cell panels 3 are symmetrically distributed on the left side and the right side of the top surface of the ceiling 2, a sliding mechanism for the solar cell panel 3 to slide towards the left side and the right side of the ceiling 2 is arranged on the ceiling 2, the whole solar cell panel 3 is arranged in the sliding mechanism, the two ends of the connecting rod 23 and the sliding mechanism are provided with rotating mechanisms which turn downwards, the bottom surface of the solar cell panel 3 is arranged on the rod wall of the connecting rod 23 in a sliding manner through a guide rail mechanism of the sliding mechanism in a direction parallel to the direction, and the output end of the solar cell panel 3 is electrically connected with a controller inside the vehicle main body 1 through a wiring mechanism.

The sliding mechanism comprises a plurality of frame plates 20 longitudinally arranged on the ceiling 2 at intervals, plate grooves 21 are formed in opposite surfaces of the adjacent frame plates 20, sliding blocks 22 are arranged in the plate grooves 21 in a sliding clamping mode, two ends of each connecting rod 23 penetrate into the plate grooves 21 and are fixed on the side walls of the corresponding sliding blocks 22, and the connecting rods 23 can longitudinally slide in the plate grooves 21, so that the solar cell panels 3 are driven to slide towards the left side and the right side of the ceiling 2.

The rotating mechanism comprises rotating grooves 25 which are formed in the left end and the right end of a sliding block 22 and communicated with the sliding block 22, a rotating block 26 is fixed in the rotating grooves 25 in a rotating mode in the vertical direction, bayonets 27 used for clamping the sliding block 22 are formed in the side wall of the rotating block 26, when the sliding block 22 slides towards the left side and the right side of the ceiling 2, when the sliding block 22 slides out of a plate groove 21 and enters the rotating grooves 25 and is clamped into the bayonets 27 of the rotating block 26, the rotating block 26 can integrally drive the sliding block 22 to rotate, so that the solar cell panel 3 is integrally turned over through a connecting rod 23, namely, when the solar cell panel 3 moves to the outermost horizontal side of the ceiling 2, the solar cell panel 3 can be turned over downwards, the solar cell panel 3 is turned over from the horizontal state to the vertical state, the shielding effect can be achieved on the left side and the.

Be equipped with the spiral spring between bayonet 27's the axis of rotation and the inner wall of rotating groove 25, the normal elastic state of spiral spring is keeping bayonet 27 and is just facing the opening at both ends about board groove 21, and the spiral spring that sets up mainly is used for changeing the position of piece 26 and resets, guarantees when slider 22 is established to the card not in bayonet 27, and bayonet 27 can reply just to the state of board groove 21, guarantees that slider 22 can conveniently be gone into in bayonet 27 next time.

The guide rail mechanism is longitudinally fixed on a plurality of guide rails 30 on the bottom surface of the solar cell panel 3, guide rail blocks 31 are arranged on the guide rails 30 in a sliding clamping mode, the guide rail blocks 31 are fixed on the top rod wall of the connecting rod 23, the arranged guide rails 30 can realize the connection mode of sliding support of the solar cell panel 3 and the connecting rod 23, and the solar cell panel 3 can integrally slide back and forth on the connecting rod 23, so that when the solar cell panel 3 turns downwards to be in a vertical state, the solar cell panel 3 can integrally slide up and down on the connecting rod 23, and the shielding height of the solar cell panel 3 on two sides of the vehicle main body 1 can also be adjusted.

The lateral wall of solar cell panel 3 is fixed with pull ring 32, and the pull ring 32 of setting conveniently carries out the pull action to solar cell panel 3.

A layer of light-transmitting plate 24 is fixed on the ceiling 2, and when the solar cell panel 3 is pulled open towards two sides, the light-transmitting plate 24 can be used for preventing rain and wind to a certain degree at the top of the car main body 1, so that passengers on the car main body 1 can be protected while viewing is not influenced.

The working principle of the invention is as follows: when in normal use, the solar cell panel 3 is wholly covered on the top of the ceiling 2, when the sun-shading and rain-proof are needed to be carried out on the two sides of the vehicle body 1, the solar cell panel 3 can be pulled to the left and the right and pulled to the most side edge of the ceiling 2, namely, when the sliding blocks 22 at the two ends of the connecting rod 23 of the solar cell panel 3 are inserted into the bayonets 27, the rotating block 26 drives the sliding blocks 22 to rotate, the operation that solar cell panel 3 can realize turning downwards promptly blocks the car main part 1 left and right sides, solar cell panel 3's height can improve solar cell panel 3 and connecting rod 23's guide rail mechanism and carry out the lift adjustment, the adjustable slip of solar cell panel 3 is adjusted with stirring, not only can realize the panorama skylight function at car main part 1 top, also can realize sheltering from the safety action of protection to car main part 1 both sides, solar cell panel 3's availability factor and the holistic practicality of car main part 1 have been improved greatly.

Example 2

Referring to fig. 6 and 7, the difference between the present embodiment and embodiment 1 is:

the routing mechanism comprises a connecting rod cavity 230 which is arranged inside a connecting rod 23, a block hole 220 which is arranged inside a sliding block 22, a threading groove 210 which is arranged on the inner wall of a plate groove 21, a supporting rod cavity 110 which is vertically arranged inside a supporting rod 11 and an elastic output line 33, wherein the output end of the solar cell panel 3 is converged at the central position of the bottom surface of the solar cell panel 3 through the elastic output line 33, the elastic output line 33 penetrates into the connecting rod cavity 230 through a rod hole 231 which is arranged in the middle of the rod wall of the connecting rod 23, the elastic output line 33 sequentially penetrates into the plate groove 21 and the threading groove 210 through the block hole 220, a slotted hole 211 which is communicated with the supporting rod cavity 110 is arranged in the threading groove 210, the elastic output line 33 penetrates into the supporting rod cavity 110 along the slotted hole 211 and is electrically connected with a controller inside the vehicle body 1 through routing at the bottom of the vehicle body 1, the 220 is a bending type through hole with the opening facing to the side wall of the 21, the wiring output of the solar cell panel 3 does not affect the action of the solar cell panel 3, and the normal wiring and output of the solar cell panel 3 can be ensured when the solar cell panel slides or is turned over.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A distributed photovoltaic new energy sightseeing vehicle comprises a vehicle main body (1), wherein a ceiling (2) is fixedly supported by the vehicle main body (1) through a plurality of supporting rods (11), a solar cell panel (3) is installed at the top of the ceiling (2), the output end of the solar cell panel (3) is electrically connected with the charging end of a storage battery in the vehicle main body (1) through a controller, and the output end of the storage battery is in transmission connection with wheels of the vehicle main body (1) through a direct current motor and a gear connecting rod mechanism;

the novel solar car roof is characterized in that the top surface of the roof (2) is formed by splicing a plurality of solar panels (3), the solar panels (3) are symmetrically arranged on the left side and the right side of the top surface of the roof (2), a sliding mechanism used for enabling the solar panels (3) to slide towards the left side and the right side of the roof (2) is arranged on the roof (2), the solar panels (3) are integrally arranged in the sliding mechanism through a connecting rod (23) in a sliding mode, two ends of the connecting rod (23) and the sliding mechanism are provided with rotating mechanisms turning downwards, the bottom surfaces of the solar panels (3) are arranged on the rod wall of the connecting rod (23) through guide rail mechanism sliding clamps of the sliding mechanism in parallel in the direction, and the output ends of the solar panels (3) are electrically connected with a controller inside the car main body (1) through wiring mechanisms.

2. The distributed photovoltaic new energy sightseeing vehicle as claimed in claim 1, wherein the sliding mechanism comprises a plurality of frame plates (20) arranged on the ceiling (2) at intervals longitudinally, plate grooves (21) are formed on opposite surfaces of the adjacent frame plates (20), sliding blocks (22) are clamped in the plate grooves (21) in a sliding manner, and two ends of the connecting rod (23) penetrate into the plate grooves (21) and are fixed on the side walls of the sliding blocks (22).

3. The distributed photovoltaic new energy sightseeing vehicle as claimed in claim 2, wherein the rotating mechanism comprises rotating grooves (25) which are formed in the left end and the right end of the sliding block (22) and communicated with the sliding block (22), rotating blocks (26) are fixed in the rotating grooves (25) in a rotating mode in the vertical direction, and bayonets (27) used for being clamped into the sliding block (22) are formed in the side walls of the rotating blocks (26).

4. The distributed photovoltaic new energy sightseeing vehicle as claimed in claim 3, wherein a spiral spring is arranged between the rotating shaft of the bayonet (27) and the inner wall of the rotating groove (25), and the normal elastic state of the spiral spring keeps the bayonet (27) facing the openings at the left and right ends of the plate groove (21).

5. The distributed photovoltaic new energy sightseeing vehicle as claimed in claim 1, wherein the guide rail mechanism is longitudinally fixed on a plurality of guide rails (30) on the bottom surface of the solar panel (3), guide rail blocks (31) are slidably clamped in the guide rails (30), and the guide rail blocks (31) are fixed on the top rod wall of the connecting rod (23).

6. The distributed photovoltaic new energy sightseeing vehicle of claim 5, characterized in that a pull ring (32) is fixed on the outer side wall of the solar panel (3).

7. The distributed photovoltaic new energy sightseeing vehicle of claim 1, characterized in that a layer of light-transmitting plate (24) is fixed on the ceiling (2).