CN108859786A - Photovoltaic module power generator and photovoltaic vehicle - Google Patents

Abstract

The invention discloses a kind of photovoltaic module power generator and photovoltaic vehicles, and wherein the power generator includes the link assembly for the setting quantity connecting with the vehicles；The first photovoltaic module on link assembly is set；The driving mechanism for making the first photovoltaic module just collapse or be unfolded on a vehicle by drive link component.Photovoltaic module power generator provided by the invention, pass through the rotation of link assembly, realize the expansion and gathering of the first photovoltaic module, to can both expand the generating area of photovoltaic module on the vehicles, improve generated energy, the space occupied on the vehicles can be reduced again, avoid the interference with vehicles ambient enviroment facility.

Description

Photovoltaic module power generator and photovoltaic vehicle

Technical field

The present invention relates to technical field of solar batteries more particularly to a kind of photovoltaic module power generator and photovoltaic vehicles.

Background technique

For New-energy electric vehicle because charging rate is slow, power consumption is fast, usage experience is poor.For this technical problem, in vehicle It is common practice that top, which installs solar battery additional,.Solution in the prior art is to be designed to glass sunroof to generate electricity too Positive energy battery, such as the integrated solar cell chip in skylight, but this mode can make solar battery be limited to skylight The barrier of area and watch crystal, generated energy are lower.

Summary of the invention

The object of the present invention is to provide a kind of photovoltaic module power generator and photovoltaic vehicle, with solve it is above-mentioned in the prior art The problem of, expand solar energy skylight generating area, promotes generated energy.

The present invention provides a kind of photovoltaic module power generator, wherein including：

The link assembly for the setting quantity being connect with the vehicles；

The first photovoltaic module on the link assembly is set；

Pass through the driving for driving the link assembly that first photovoltaic module is made just to collapse or be unfolded on a vehicle Mechanism.

Photovoltaic module power generator as described above, wherein further include pedestal preferably, the pedestal setting is being handed over On logical tool, the driving mechanism is arranged on the pedestal.

Photovoltaic module power generator as described above, wherein preferably, the pedestal is used to be arranged in the ceiling of vehicle On.

Photovoltaic module power generator as described above, wherein it further include the second photovoltaic module preferably, described second Photovoltaic module is arranged on the pedestal.

Photovoltaic module power generator as described above, wherein preferably, the quantity of the link assembly is two groups, two The both ends of the pedestal are arranged in the group link assembly.

Photovoltaic module power generator as described above, wherein further include third photovoltaic module, the third preferably Photovoltaic module is used to be set up directly on the ceiling of the vehicles.

Photovoltaic module power generator as described above, wherein it further include bracket preferably, first photovoltaic module It is set on the link assembly by the bracket.

Photovoltaic module power generator as described above, wherein preferably, first photovoltaic module and the bracket are sliding Dynamic connection.

Photovoltaic module power generator as described above, wherein preferably, the link assembly includes first connecting rod and the Two connecting rods, the bracket include the first bracket and the second bracket；

One end of the first connecting rod is connect with the output end of the driving mechanism, the other end difference of the first connecting rod It is rotatablely connected with one end of first bracket and the second connecting rod, the other end of the second connecting rod and second bracket Rotation connection, first photovoltaic module are separately positioned on first bracket and second bracket.

Photovoltaic module power generator as described above, wherein further include the first motor and the second motor, institute preferably It states first connecting rod and first bracket to be rotatablely connected by first motor, the second connecting rod and second bracket are logical Cross the second motor rotation connection.

Photovoltaic module power generator as described above, wherein further include third motor, the first connecting rod preferably It is rotatablely connected with the second connecting rod by the third motor.

Photovoltaic module power generator as described above, wherein preferably, be provided on the bracket and worn for sliding The through-hole of first photovoltaic module is provided with the opening for receiving illumination above the bracket.

Photovoltaic module power generator as described above, wherein preferably, it is provided with motor and rack gear on the bracket, Gear is fixedly installed on the output shaft of the motor, the gear is engaged with the rack gear, the first photovoltaic module setting On the rack gear.

The present invention also provides a kind of photovoltaic vehicles, including vehicle body, wherein further includes photovoltaic group provided by the invention Part power generator, the driving mechanism are fixed on the vehicle body.

Photovoltaic vehicle as described above, wherein preferably, the driving mechanism is fixed on the vehicle of the vehicle body On ceiling.

Photovoltaic module power generator provided by the invention and photovoltaic vehicle realize first by the rotation of link assembly The expansion and gathering of photovoltaic module improve generated energy to can both expand the generating area of photovoltaic module on the vehicles, The space occupied on the vehicles can be reduced again, avoid the interference with vehicles ambient enviroment facility.

Detailed description of the invention

Specific embodiments of the present invention will be described in further detail with reference to the accompanying drawing.

Fig. 1 is the state diagram of the photovoltaic module power generator that provides of an embodiment of the present invention upon deployment；

Fig. 2 is state diagram of the photovoltaic module power generator that provides of an embodiment of the present invention when collapsing；

Fig. 3 is state diagram of the photovoltaic module power generator that provides of another embodiment of the present invention when collapsing；

Fig. 4 is state diagram of first photovoltaic module in the first bracket；

Fig. 5 is the state diagram of the photovoltaic module power generator that provides of another embodiment of the present invention upon deployment.

Description of symbols：

100- pedestal 200- first connecting rod the first bracket of 300-

310- through-hole 320- opening 400- second connecting rod

500- the second bracket 600- driving mechanism the first photovoltaic module of 700-

The 5th solar battery chip of the 4th solar battery chip 900- of 800-

10- link assembly

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not construed as limiting the claims.

As depicted in figs. 1 and 2, the embodiment of the invention provides a kind of photovoltaic module power generator (hereinafter referred to as to generate electricity Device) comprising the first photovoltaic group on link assembly is arranged in the link assembly for the setting quantity connecting with the vehicles Part, and the driving mechanism 600 for making the first photovoltaic module just collapse or be unfolded on a vehicle by drive link component.

In motion, 600 drive link component of driving mechanism rotates clockwise (visual angle as shown in Figure 1, to scheme to the vehicles It is illustrated for left part link assembly in 1), it is possible thereby to make to set the first photovoltaic module on the link assembly of quantity The longitudinal lamination of formation is collapsed to avoid and interfere with road side facility to effectively save the space above roof of the vehicle.It needs It is noted that the first photovoltaic module positioned at upper layer can receive the direct of sunlight under the power generator rounding state Irradiation, to carry out efficient photoelectric conversion, meets the power demand of the vehicles in the process of moving.

When the vehicles are static, 600 drive link component of driving mechanism rotates counterclockwise (visual angle as shown in Figure 1, to scheme It is illustrated for left part link assembly in 1), it is possible thereby to make to set the first photovoltaic module on the link assembly of quantity Horizontal spreading makes the first photovoltaic module of each layer that can carry out efficient photoelectricity so as to expand the area for receiving illumination Conversion, makes to carry out Power Reserve rapidly and efficiently under vehicle stationary state, to guarantee the vehicles every function in the process of moving The normal work of energy.

It is understood that for the ease of by power generator setting, on a vehicle, which can also be wrapped Pedestal 100 is included, pedestal 100 is arranged on a vehicle, and driving mechanism 600 is arranged on pedestal 100.These, it is preferred to base Seat 100 can be used for being arranged on the ceiling of the vehicles.

Further, which can also include the second photovoltaic module, and the second photovoltaic module can be set in pedestal On 100, when power generator expansion, the second photovoltaic module and the first photovoltaic module can receive the direct photograph of sunlight It penetrates, improves photoelectric conversion efficiency.

Certainly, which can also include third photovoltaic module, and third photovoltaic module can be used for being set up directly on On the ceiling of the vehicles.

It should be noted that the first photovoltaic module and the second photovoltaic module may each comprise copper indium gallium selenide cell chip, arsenic Change one or both of gallium battery chip, monocrystalline silicon battery chip, polycrystal silicon cell chip or sensitizing dyestuff battery chip with On combination, it is preferred that the first photovoltaic module and the second photovoltaic module are copper indium gallium selenide cell chip, in low light environment Under can obtain efficient photoelectric conversion.

It is understood that the vehicles can be for automobile, steamer etc., in the present embodiment, preferably automobile.

In order to can make full use of roof of the vehicle upper space in the state of vehicle stationary, the quantity of link assembly can be with Be two groups, two groups of link assemblies are arranged in the both ends of pedestal 100, driving mechanism 600 can drive simultaneously two groups of link assemblies to Opposite direction rotation improves photoelectric conversion efficiency to effectively expand generating area.

As a specific implementation manner, driving mechanism 600 can be driving motor, and link assembly can pass through driving Rotation is realized in the driving of motor.

Preferably, which further includes bracket, and the first photovoltaic module is set on link assembly by bracket.Wherein It is further preferably that the first photovoltaic module is slidably connected with bracket, it is possible thereby to through the first photovoltaic module on bracket Sliding avoids the blocking in the longitudinal direction between each the first photovoltaic module of layer.First photovoltaic module and being slidably connected for bracket can To implement in the following manner：Be provided on bracket for sliding the through-hole 310 for wearing the first photovoltaic module, bracket it is upper Side is provided with the opening 320 for receiving illumination, so as to so that the first photovoltaic module has biggish photoelectric conversion area. Specifically, the first photovoltaic module is worn for sliding as shown in figure 4, being provided on the first bracket 300 and the second bracket 500 The top of 700 through-hole 310, the first bracket 300 and the second bracket 500 is provided with the opening 320 for receiving illumination, In, the first bracket 300 and the second bracket 500 can have identical structure.

Specifically, in the present embodiment, link assembly may include first connecting rod 200 and second connecting rod 400, and bracket includes First bracket 300 and the second bracket 500；One end of first connecting rod 200 is connect with the output end of driving mechanism 600, first connecting rod 200 other end respectively with one end of the first bracket 300 and second connecting rod 400 be rotatablely connected, the other end of second connecting rod 400 with The rotation connection of second bracket 500, the first photovoltaic module are separately positioned on the first bracket 300 and the second bracket 500.From there through First connecting rod 200 and second connecting rod 400 are set, it can be respectively to the first photovoltaic group on the first bracket 300 and the second bracket 500 Part expansion is collapsed.

Wherein, for the ease of the rotation control to the first bracket 300 and the second bracket 500, convenient for shining sunlight vertically The first photovoltaic module is penetrated, which can also include the first motor and the second motor, first connecting rod 200 and the first bracket 300 are rotatablely connected by the first motor, and second connecting rod 400 and the second bracket 500 are rotatablely connected by the second motor.

It is understood that in order to realize the control respectively to first connecting rod 200 and second connecting rod 400, the power generator It can also include third motor, first connecting rod 200 and second connecting rod 400 are rotatablely connected by third motor.

Wherein, the first photovoltaic module may include the first solar battery chip and the second solar battery chip, and first Solar battery chip is arranged on the first bracket 300, and the second solar battery chip is arranged on the second bracket 500, and second Photovoltaic module may include third solar battery chip, and third solar battery chip is arranged on pedestal 100.

In one embodiment, as depicted in figs. 1 and 2, the first solar battery chip, the second solar battery chip and The size dimension of third solar battery chip can be identical, when the power generator collapses, left side (visual angle as shown in Figure 2) First connecting rod 200, which rotates clockwise, is laid on first solar battery chip in left side on third solar battery chip, right The first connecting rod 200 of side rotates counterclockwise the first solar battery for making first solar battery chip on right side be laid on left side On chip, then, the second connecting rod 400 in left side is rotated counterclockwise relative to the first connecting rod 200 in left side, so that the second of left side Solar battery chip is laid on first solar battery chip on right side, and the second connecting rod 400 on last right side is relative to the right side The first connecting rod 200 of side rotates clockwise so that second solar battery chip on right side be equally laid on right side first too On positive energy battery chip；Wherein, point hinged with each connecting rod on each solar battery chip all can be each solar battery The midpoint of chip, as a result, after the power generator collapses, the second solar battery chip of the left and right sides can be by remaining too Positive energy battery chip blocks completely, leads to photoelectric conversion not so as to avoid because some solar battery chip is by partial occlusion Uniformly, the battery chip service life is reduced.

In another embodiment, as shown in figures 1 and 3, the first solar battery chip and the second solar battery core The size dimension of piece can be identical, meanwhile, the size after two the second solar battery chip splits is equal to third solar-electricity The size of chamber chip；When the power generator collapses, the first connecting rod 200 at left side (visual angle as shown in Figure 3), which rotates clockwise, to be made First solar battery chip in left side is laid on third solar battery chip, and the first connecting rod 200 on right side turns counterclockwise Dynamic the first solar battery chip for making right side is also laid on third solar battery chip, two the first solar battery cores Piece can block third solar battery chip completely, then, first connecting rod of the second connecting rod 400 in left side relative to left side 200 rotate counterclockwise, so that second solar battery chip in left side is laid on first solar battery chip in left side, and The second connecting rod 400 on right side is rotated clockwise relative to the first connecting rod 200 on right side, so that the second solar battery core on right side Piece is laid on first solar cell module on right side, wherein all has part area on two the first solar battery chips Domain is not blocked by the second solar battery chip, as a result, under rounding state, is not hidden on two the first solar battery chips The region of gear can carry out photoelectric conversion in conjunction with two the second solar battery chips jointly.The power generator under the embodiment The investment of solar battery chip can be reduced while guaranteeing normal power generation, save roof of the vehicle upper space, Ke Yiying For requiring the roof of the vehicle of lower generated energy.

It should be noted that as shown in figure 5, a layer solar cell chip can be provided only on link assembly 10 (i.e. 4th solar battery chip 800 shown in Fig. 5), another layer solar cell chip can be set (i.e. on pedestal 100 5th solar battery chip 900 shown in Fig. 5), it is rotated by driving mechanism drive link component 10, to realize connecting rod The 4th solar battery chip 800 on component 10 relative to the 5th solar battery chip 900 expansion on pedestal 100 or is received Hold together.

Further, motor and rack gear are provided on the first bracket 300 and the second bracket 500, on the output shaft of motor It is fixedly installed gear, wheel and rack engagement, the first solar battery chip is arranged on the rack gear on the first bracket 300, Second solar battery chip is arranged on the rack gear on the second bracket 500；So as to realize rack gear by the driving of motor Translational motion, and then realize solar battery chip sliding.

The embodiment of the invention also provides a kind of photovoltaic vehicles comprising vehicle body, wherein the photovoltaic vehicle further includes The photovoltaic module power generator that any embodiment of that present invention provides, the driving mechanism in photovoltaic module power generator are fixed on vehicle On ontology.

It will be appreciated by persons skilled in the art that driving mechanism, which can be set, can receive light in any of vehicle body The positions such as the position of line irradiation, such as hair hatchcover.Preferably, driving mechanism can be fixed on the vehicle ceiling of vehicle body.

The embodiment of the invention also provides a kind of photovoltaic ships comprising ship ontology, wherein the photovoltaic ship further includes the present invention The photovoltaic module power generator that any embodiment provides, the driving mechanism in photovoltaic module power generator are fixed on ship ontology.

It will be appreciated by persons skilled in the art that driving mechanism, which can be set, can receive light in any of ship ontology The position of irradiation.Preferably, driving mechanism can be fixed on the ship ceiling of ship ontology.

Photovoltaic module power generator provided in an embodiment of the present invention and photovoltaic vehicle are realized by the rotation of link assembly The expansion and gathering of first photovoltaic module, to can both expand the electric surface of solar battery sheet on vehicles ceiling Product promotes generated energy, and can reduce the space occupied on vehicles ceiling, avoids and vehicles ambient enviroment facility Interference.

Structure, feature and effect of the invention, the above institute are described in detail based on the embodiments shown in the drawings Only presently preferred embodiments of the present invention is stated, but the present invention does not limit the scope of implementation as shown in the drawings, it is all according to structure of the invention Think made change or equivalent example modified to equivalent change, when not going beyond the spirit of the description and the drawings, It should all be within the scope of the present invention.

Claims (15)

1. a kind of photovoltaic module power generator, which is characterized in that including：

The link assembly for the setting quantity being connect with the vehicles；

The first photovoltaic module on the link assembly is set；

Pass through the driving mechanism for driving the link assembly that first photovoltaic module is made just to collapse or be unfolded on a vehicle.

2. photovoltaic module power generator according to claim 1, which is characterized in that it further include pedestal, the pedestal setting On a vehicle, the driving mechanism is arranged on the pedestal.

3. photovoltaic module power generator according to claim 2, which is characterized in that the pedestal is for being arranged in vehicle On ceiling.

4. photovoltaic module power generator according to claim 2, which is characterized in that it further include the second photovoltaic module, it is described Second photovoltaic module is arranged on the pedestal.

5. photovoltaic module power generator according to claim 2, which is characterized in that the quantity of the link assembly is two The both ends of the pedestal are arranged in group, link assembly described in two groups.

6. photovoltaic module power generator according to claim 1, which is characterized in that it further include third photovoltaic module, it is described Third photovoltaic module is used to be set up directly on the ceiling of the vehicles.

7. photovoltaic module power generator according to claim 1-6, which is characterized in that it further include bracket, it is described First photovoltaic module is set on the link assembly by the bracket.

8. photovoltaic module power generator according to claim 7, which is characterized in that first photovoltaic module and the support Frame is slidably connected.

9. photovoltaic module power generator according to claim 7, which is characterized in that the link assembly includes first connecting rod And second connecting rod, the bracket include the first bracket and the second bracket；

One end of the first connecting rod is connect with the output end of the driving mechanism, the other end of the first connecting rod respectively with institute State one end rotation connection of the first bracket and the second connecting rod, the other end of the second connecting rod and second carriage turns Connection, first photovoltaic module are separately positioned on first bracket and second bracket.

10. photovoltaic module power generator according to claim 9, which is characterized in that further include the first motor and the second horse It reaches, the first connecting rod and first bracket are rotatablely connected by first motor, the second connecting rod and described second Bracket is rotatablely connected by second motor.

11. photovoltaic module power generator according to claim 9, which is characterized in that it further include third motor, described first Connecting rod and the second connecting rod are rotatablely connected by the third motor.

12. photovoltaic module power generator according to claim 7, which is characterized in that be provided on the bracket for sliding The through-hole for wearing the first photovoltaic module is moved, the opening for receiving illumination is provided with above the bracket.

13. photovoltaic module power generator according to claim 7, which is characterized in that be provided on the bracket motor and Rack gear is fixedly installed gear on the output shaft of the motor, and the gear is engaged with the rack gear, first photovoltaic module It is arranged on the rack gear.

14. a kind of photovoltaic vehicle, including vehicle body, which is characterized in that further include described in claim 1-13 any one Photovoltaic module power generator, the driving mechanism are fixed on the vehicle body.

15. photovoltaic vehicle according to claim 15, which is characterized in that the driving mechanism is fixed on the vehicle body Vehicle ceiling on.