CN208939887U - A kind of solar protection devices and power supply system - Google Patents

Abstract

The utility model relates to technical field of photovoltaic power generation more particularly to a kind of solar protection devices and power supply systems.The solar protection devices is convenient for collecting and places, and leads to the vitiable probability of photovoltaic electrification component function because colliding with storing and can reduce in placement process.The utility model embodiment provides a kind of solar protection devices, comprising: folding rack and the first foldable photovoltaic electrification component；The first foldable photovoltaic electrification component is set to the folding rack top, forms the top surface of the solar protection devices, and is suitable for being unfolded under the drive of the folding rack or collapsing and is in unfolded state or folded state.The utility model embodiment is used for photovoltaic power generation.

Description

A kind of solar protection devices and power supply system

Technical field

The utility model relates to technical field of photovoltaic power generation more particularly to a kind of solar protection devices and power supply systems.

Background technique

Currently, photovoltaic module be widely used to building roof, building curtain wall, road, vehicle, shared bicycle, unmanned plane, In the outer technical fields such as charging equipment and special equipment of satellite, household portable.

For example, sunshade tool in the prior art mostly uses greatly the tarpaulin of integrated formed structure to be made, and cannot Power generation；Sunshade tool with generating function is that the photovoltaic electrification component of integrated formed structure is fixed on ceiling mostly, one The photovoltaic electrification component of forming structure is extremely inconvenient in storage, placement process；Or the photovoltaic module of multiple separate structures It is separately fixed at ceiling, although each photovoltaic electrification component small volume needs repeatedly storage and places, and compares zero It dissipates, placing, fixation procedure is relatively complicated, there is also storage and places inconvenient defect.In the prior art, whether integrally The photovoltaic electrification component of molding or separate structure usually leads to photovoltaic electrification component because colliding in storage or placement process Function damage.

Utility model content

It is convenient for collecting and place the main purpose of the utility model is that provide a kind of solar protection devices and power supply system, and And lead to the vitiable probability of photovoltaic electrification component function because colliding with storing and can reduce in placement process.

In order to achieve the above objectives, the utility model adopts the following technical solution:

In a first aspect, the utility model embodiment provides a kind of solar protection devices, comprising: folding rack and the first foldable light Lie prostrate electrification component；The first foldable photovoltaic electrification component is set to the folding rack top, forms the solar protection devices Top surface, and be suitable under the drive of the folding rack be unfolded or collapse and be in unfolded state or folded state.

Optionally, the solar protection devices further includes the second foldable photovoltaic electrification component；The second foldable photovoltaic hair Electrical component is set to the side that the folding rack side forms the solar protection devices, and is suitable for the drive in the folding rack Lower expansion collapses and is in folded state or unfolded state；The first foldable photovoltaic electrification component can be rolled over described second Crossover region is equipped between folded photovoltaic electrification component, in a folded configuration, the first foldable photovoltaic electrification component and described the It is realized and is folded by the crossover region between two foldable photovoltaic electrification components.

Optionally, the described first foldable photovoltaic electrification component is formed by connecting by multiple first photovoltaic generation units, wherein Two neighboring first photovoltaic generation unit can be foldably connected along the first default broken line；The second foldable photovoltaic power generation group Part is formed by connecting by multiple second photovoltaic generation units, wherein two neighboring second photovoltaic generation unit can be along the second default broken line It is foldably connected；The the first photovoltaic generation unit group of the first photovoltaic generation unit formation of adjacent two, adjacent two Second photovoltaic generation unit forms the second photovoltaic generation unit group, adjacent the first photovoltaic generation unit group with it is described Second photovoltaic generation unit group is corresponding, and the crossover region is set to adjacent the first photovoltaic generation unit group and described second Between photovoltaic power generation group；The multiple first photovoltaic generation unit and the multiple second photovoltaic generation unit are in folding branch The floding at boundary of first default broken line, the second default broken line and the crossover region described in the drive lower edge of frame, which is realized, to be collapsed, To be in folded state.

Optionally, multiple first photovoltaic generation units are arranged in parallel along first direction, the first default broken line packet The the first paddy broken line and first peak broken line perpendicular to the first direction are included, the multiple first photovoltaic generation unit can be along described First direction successively realizes folding in such a way that paddy folding and peak folding are alternate；The second default broken line includes rolling over first paddy The second paddy broken line that line is in the same plane and the second peak broken line being in the same plane with the first peak broken line, it is described Multiple second photovoltaic generation units successively can realize folding in such a way that paddy folding and peak folding are alternate along the first direction.

Optionally, the second photovoltaic generation unit group is between two adjacent second peak broken lines；Described Two foldable photovoltaic electrification components include the second flexible substrate, and it is soft that the multiple second photovoltaic generation unit is set to described second On property substrate；The crossover region is set in second flexible substrate, and is located at by the first photovoltaic generation unit group Two first peak broken lines are close to the endpoint of second flexible substrate side and the second paddy broken line close to the top surface one Region defined by the endpoint line at end.

Optionally, second photovoltaic generation unit be arranged in second flexible substrate by the second paddy broken line, In the region that second peak broken line and the crossover region edge line limit, and two in the second photovoltaic generation unit group The shape of second photovoltaic generation unit and the shape of the crossover region are complementarily shaped to rectangular configuration.

Optionally, second photovoltaic generation unit is ladder structure of right angle, and the crossover region is to be set to described second Isosceles triangular structure in flexible substrate, the second photovoltaic of two ladder structure of right angle in the second photovoltaic generation unit group The rectangular configuration is formed after generator unit is complementary with the crossover region in structure.

Optionally, the first photovoltaic generation unit group is between two adjacent first peak broken lines；Described One foldable photovoltaic electrification component includes the first flexible substrate, and it is soft that the multiple first photovoltaic generation unit is set to described first On property substrate；The crossover region is set in first flexible substrate, and is located at by the first photovoltaic generation unit group Two the first paddy broken lines are sent out close to the endpoint of the described second foldable photovoltaic electrification component side and second photovoltaic Region defined by endpoint line of two the second peak broken lines close to solar protection devices top surface side in electric unit group.

Optionally, first photovoltaic generation unit be arranged in first flexible substrate by the first paddy broken line, In the region that first peak broken line and the crossover region edge line limit, and two in the first photovoltaic generation unit group The shape of first photovoltaic generation unit and the shape of the crossover region are complementarily shaped to rectangular configuration.

Optionally, first photovoltaic generation unit is ladder structure of right angle, and the crossover region is to be set to described first Isosceles triangular structure in flexible substrate, the first photovoltaic of two ladder structure of right angle in the first photovoltaic generation unit group The rectangular configuration is formed after generator unit is complementary with the crossover region in structure.

Optionally, the folding rack includes the multiple columns being arranged successively along first direction, and the column is located at second Peak position of broken line, and top is connect with the position of the first peak broken line.

Optionally, the bottom for the column that the position of at least one first peak broken line is correspondingly connected be provided with sliding part or Rolling member.

It optionally, further include two sliding rails extended along the first direction, the sliding part or the rolling member and institute State sliding rail match sliding or roll connection.

It optionally, further include driving device；

The driving device is connect with the sliding part or rolling member, for driving the sliding part or rolling member along first Direction sliding rolls；

The first foldable photovoltaic electrification component and/or the second foldable photovoltaic electrification component and the driving fill Connection is set, for powering for the driving device.

Second aspect, the utility model embodiment provide a kind of power supply system, comprising: solar protection devices as described above；Institute It states the first foldable photovoltaic electrification component to be set as being electrically connected with power device, power for the power device.

The third aspect, the utility model embodiment provide a kind of power supply system, comprising: solar protection devices as described above；Institute It states the first foldable photovoltaic electrification component and/or the second foldable photovoltaic electrification component is set as being electrically connected with power device It connects, powers for the power device.

The utility model embodiment provides a kind of solar protection devices and power supply system, since multiple photovoltaic module has by phase The foldable connection component that adjacent two photovoltaic modulies are constituted, and the sunshade can be realized by the foldable connection component fold and Therefore expansion when not in use, foldable connection component can be folded to fold the sunshade, can reduce occupied area, When in use, then the foldable connection component is opened the sunshade is unfolded, to realize photovoltaic power generation while sunshade.With The sunshade of the prior art is compared, convenient for collecting and placement, and is caused storing and can reduce in placement process because colliding with The vitiable probability of photovoltaic electrification component function.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram that a kind of solar protection devices provided by the embodiment of the utility model is in unfolded state；

Fig. 2 is the structural schematic diagram that the solar protection devices provided by the embodiment of the utility model based on Fig. 1 is in folded state；

Fig. 3 is the structural schematic diagram that another solar protection devices provided by the embodiment of the utility model is in unfolded state；

Fig. 4 is the structural schematic diagram that the solar protection devices provided by the embodiment of the utility model based on Fig. 3 is in folded state；

Fig. 5 is the structural schematic diagram that another solar protection devices provided by the embodiment of the utility model is in unfolded state；

Fig. 6 is the structural schematic diagram that the solar protection devices provided by the embodiment of the utility model based on Fig. 5 is in folded state；

Fig. 7 is the structural schematic diagram of another solar protection devices provided by the embodiment of the utility model；

Fig. 8 is a kind of structural schematic diagram of power supply system provided by the embodiment of the utility model；

Fig. 9 is the structural schematic diagram of another power supply system provided by the embodiment of the utility model.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " center ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion is signified Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this is practical Novel limitation.In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.

In a first aspect, the utility model embodiment provides a kind of solar protection devices, referring to Fig. 1 and Fig. 2, comprising: folding rack 1 With the first foldable photovoltaic electrification component 2；The first foldable photovoltaic electrification component 2 is set to the top of the folding rack 1, shape At the top surface of the solar protection devices, and it is suitable for being unfolded under the drive of the folding rack 1 or collapsing and is in unfolded state (such as Fig. 1 It is shown) or folded state (as shown in Figure 2).

In order to which the folding mode of the first foldable photovoltaic electrification component 2 is explicitly described, the utility model embodiment is mentioned Represented folded state is not the folded state in complete meaning in each figure supplied, but unfolded state and completely folding Semi-collapsed condition between state.

The utility model embodiment provides a kind of solar protection devices, by the way that the first foldable photovoltaic electrification component 2 to be set to The top surface of the solar protection devices is formed at the top of the folding rack 1, since the first foldable photovoltaic electrification component 2 is in the folding It can be at unfolded state or folded state under the drive of bracket 1, therefore, in use, the first foldable photovoltaic electrification component 2 can It is unfolded under the drive of folding rack 1, is able to carry out photovoltaic power generation while realizing sunshade, when not in use, this first can Folding photovoltaic electrification component 2 can fold under the drive of folding rack 1, convenient for collecting and placement, and is storing and placing Can reduce in journey leads to the vitiable probability of photovoltaic electrification component function because colliding with.

Illustratively, which can be parasols, which is set to umbrella frame The umbrella cover of the parasols is formed at top, and folding rack includes umbrella frame, mutually folds and realizes between the drive sub-umbrella of umbrella frame It collapses.

In one embodiment of the utility model, referring to Fig. 3-Fig. 6, which further includes the second foldable photovoltaic power generation Component 3；The side that the second foldable photovoltaic electrification component 3 is set to the folding rack 1 forms the side of the solar protection devices, and Folded state or unfolded state are in suitable for being unfolded under the drive of the folding rack 1 or collapsing；The first foldable photovoltaic Crossover region A is equipped between electrification component 2 and the second foldable photovoltaic electrification component 3, in a folded configuration, this is first foldable It is realized and is folded by crossover region A between photovoltaic electrification component 2 and the second foldable photovoltaic electrification component 3.

Crossover region A refers in a folded configuration, the first foldable photovoltaic electrification component 2 and the second foldable photovoltaic power generation group It can be overlapped and be overlapped to conplane region between part 3.Such as crossover region A can be by stacking, overlapping, be overlapped or hollow out Mode is folded to same plane.

Wherein, without limitation to the specific structure of the first foldable photovoltaic electrification component 2, as long as can adapt to sunshade dress The folding mode set.

In one embodiment of the utility model, with continued reference to Fig. 3-Fig. 6, the first foldable photovoltaic electrification component 2 is by more A first photovoltaic generation unit 211 is formed by connecting, wherein two neighboring first photovoltaic generation unit 211 can be along the first default broken line 22 are foldably connected；The second foldable photovoltaic electrification component 3 is formed by connecting by multiple second photovoltaic generation units 311, In two neighboring second photovoltaic generation unit 311 can be foldably connected along the second default broken line 32；Adjacent two this first Photovoltaic generation unit 211 forms the first photovoltaic generation unit group 21, and adjacent two second photovoltaic generation units 311 form the Two photovoltaic generation unit groups 31, adjacent the first photovoltaic generation unit group 21 is corresponding with the second photovoltaic generation unit group 31, Crossover region A is set between adjacent the first photovoltaic generation unit group 21 and the second photovoltaic power generation group 31；Multiple This is first default in the drive lower edge of the folding rack 1 for one photovoltaic generation unit 211 and multiple second photovoltaic generation unit 311 The floding at boundary of broken line 22, the second default broken line 32 and crossover region A, which is realized, to be collapsed, to be in folded state.

Adjacent the first photovoltaic generation unit group 21 is corresponding with the second photovoltaic generation unit group 31 to refer to the first photovoltaic Generating unit groups 21 are corresponded in the position of top surface and the second photovoltaic generation unit group 31 in the position of side.

Illustratively, referring to Fig. 5, when the first photovoltaic generation unit group 21 is rectangle, corresponding second photovoltaic Generating unit groups 31, which are arranged in side and the rectangle, to be parallel at position corresponding to the edge of first direction.

Wherein, to the specific arrangement side of multiple first photovoltaic generation unit 211 and multiple second photovoltaic generation units 311 Formula is without limitation.

In one embodiment of the utility model, multiple first photovoltaic generation units 211 are along first direction (such as Fig. 3 and Fig. 5 Direction shown in middle arrow a) it is arranged in parallel, which includes the first paddy broken line 221 perpendicular to the first direction With first peak broken line 222, multiple first photovoltaic generation unit 211 can be successively alternate with paddy folding and peak folding along the first direction Mode realizes folding (as shown in Figure 4 and Figure 6)；The second default broken line 32 includes being located at same put down with the first paddy broken line 221 The second paddy broken line 321 in face and the second peak broken line 322 being in the same plane with the first peak broken line 222, multiple Two photovoltaic generation units 211 successively can realize folding (such as Fig. 4 and Fig. 6 in such a way that paddy folding and peak folding are alternate along the first direction It is shown).

In the utility model embodiment, which can be hood, for example, according to standard vehicle bit width (top The length that face extends along the direction vertical with first direction) it is 2.5 meters, the long (length that the top surface extends in a first direction when being unfolded Degree) it is 5 meters, fluffy a height of 2 meters.

It should be noted that here, when the solar protection devices is hood, on the hood side vertical with first direction also Can be equipped with lock, so, the parking stall on the hood can receive reservation, can just open when authorized lock with Facilitate parking or it is authorized when, vehicle just available the first foldable photovoltaic electrification component and/or second foldable of coming from The electric energy of photovoltaic electrification component.

Wherein, without limitation to the specific connection type of first photovoltaic generation unit 211, the first adjacent photovoltaic power generation Unit 211 can be foldably connected by rotating member or flexible connecting member, each first photovoltaic generation unit 211 can also be set It sets on flexible substrates, is foldably connected by flexible substrate.The setting position of crossover region A is also not specifically limited, only Will crossover region A be located between the first photovoltaic generation unit group 21 and the second photovoltaic generation unit group 31.

In the possible implementation of the first of the utility model, referring to Fig. 3 and Fig. 4, the first photovoltaic generation unit group 21 are located between the adjacent two first peak broken lines 222；The first foldable photovoltaic electrification component 2 includes the first flexible substrate I, multiple first photovoltaic generation unit 211 are set on first flexible substrate I；Crossover region A is set to first flexibility On substrate I, and it is located at and is sent out by the first paddy broken line 221 in the first photovoltaic generation unit group 21 close to the second foldable photovoltaic Two the second peak broken lines 322 are filled close to the sunshade in the endpoint O of 3 side of electrical component and the second photovoltaic generation unit group 31 Region defined by endpoint (P and P ') line of top set face side.

In this possible implementation, by by crossover region A with it is close in the second photovoltaic generation unit group 31 The region of crossover region A is overlapping, and the first photovoltaic generation unit 211 can be along first direction successively in such a way that paddy folding and peak folding are alternate It realizes and folds, and the second photovoltaic generation unit 311 successively can also realize folding in such a way that paddy folding and peak folding are alternate along first direction Folded, this folding mode is similar to the folding mode of accordion bellows, can fold to the full extent to the solar protection devices, Reduce occupied area.

Wherein, which can be flexible thin-film solar cell plate, or the crystal silicon sun It can solar panel.

Optionally, which is flexible thin-film solar cell plate.Flexible thin-film solar cell Plate is more light, the production suitable for solar protection devices.

Wherein, which can sew on the surface of first flexible substrate I.

Optionally, which is waterproof cloth, alternatively, the surface of first flexible substrate I is equipped with waterproof Film.It can be improved effect of keeping off the rain.

Further, first flexible substrate I can be memory face fabric.Memory face fabric refers to the face with memory function Material, the fabric of the type is handled grab after have fine wrinkle, folding line can be reserved on it in advance, can be direct when needing to fold Along there are folding line fold.

In the another embodiment of the utility model, with continued reference to Fig. 3 and Fig. 4, first photovoltaic generation unit 211 setting exists On first flexible substrate I by the first paddy broken line 221, first peak broken line 222 and crossover region A edge line (OP and OP ') in the region that limits, and the shape of two the first photovoltaic generation units 211 in the first photovoltaic generation unit group 21 Rectangular configuration is complementarily shaped to the shape of crossover region A.

In the utility model embodiment, the paved surface of first photovoltaic generation unit 211 can be increased to the full extent Product.

Wherein, without limitation to the specific structure of first photovoltaic generation unit 211, first photovoltaic generation unit 211 It can be any shape complementary with the shape of crossover region A.

In one alternative embodiment of the utility model, with continued reference to Fig. 3 and Fig. 4, which is straight Angle trapezium structure, crossover region A are the isosceles triangular structure being set on first flexible substrate I, first photovoltaic power generation It is formed after first photovoltaic generation unit 211 of two ladder structure of right angle is complementary with crossover region A in structure in unit group 21 The rectangular configuration.

So, the area that can reduce crossover region A to the full extent, further increases the first photovoltaic generation unit 211 laying area, and occupied area of second photovoltaic generation unit 311 under solar protection devices top surface when can reduce folding.

In the second possible implementation, referring to figs. 5 and 6, which is located at adjacent Two the second peak broken lines 322 between；The second foldable photovoltaic electrification component 3 includes the second flexible substrate II, multiple Second photovoltaic generation unit 311 is set on second flexible substrate II；Crossover region A is set to second flexible substrate II On, and be located at by two first peak broken lines 222 in the first photovoltaic generation unit group 21 close to the side the second flexible substrate II Endpoint (O ') line close to the top surface one end of endpoint (P and P ') and the second paddy broken line 321 defined by region.

In this possible implementation, by by crossover region A with it is close in the first photovoltaic generation unit group 21 The region of crossover region A is overlapping, and the second photovoltaic generation unit 311 can be along first direction (direction as shown in arrow a in Fig. 5) successively Folding is realized in such a way that paddy folding and peak folding are alternate, and the first photovoltaic generation unit 311 can also successively be rolled over along first direction with paddy Alternate mode is rolled over peak and realizes folding, and this folding mode is similar to the folding mode of accordion bellows, can be utmostly On the solar protection devices is folded, reduce occupied area.

Wherein, which can be flexible thin-film solar cell plate, or the crystal silicon sun It can solar panel.

Optionally, which is flexible thin-film solar cell plate.Flexible thin-film solar cell Plate is more light, the production suitable for solar protection devices.

Wherein, which can sew on the surface of second flexible substrate II.

Optionally, the second flexible substrate II be waterproof cloth, alternatively, the surface of second flexible substrate II be equipped with it is anti- Moisture film.It can be improved effect of keeping off the rain.

Further, second flexible substrate II can be memory face fabric.Memory face fabric refers to the face with memory function Material, the fabric of the type is handled grab after have fine wrinkle, folding line can be reserved on it in advance, can be direct when needing to fold Along there are folding line fold.

In the another embodiment of the utility model, with continued reference to Fig. 5 and Fig. 6, the second photovoltaic generation unit 311 is arranged at this By edge line (O ' P and O ' of the second paddy broken line 321, the second peak broken line 322 and crossover region A on second flexible substrate II P ') limit region in, and the shape of two the second photovoltaic generation units 311 in the second photovoltaic generation unit group 31 with The shape of crossover region A is complementarily shaped to rectangular configuration.

In the utility model embodiment, the paved surface of second photovoltaic generation unit 311 can be increased to the full extent Product.

In one alternative embodiment of the utility model, with continued reference to Fig. 5 and Fig. 6, which is straight Angle trapezium structure, crossover region A are the isosceles triangular structure being set on second flexible substrate II, second photovoltaic power generation It is formed after second photovoltaic generation unit 311 of two ladder structure of right angle is complementary with crossover region A in structure in unit group 31 The rectangular configuration.

So, the area that can reduce crossover region A to the full extent, further increases the second photovoltaic generation unit 311 laying area, and occupied area of second photovoltaic generation unit 311 under sunshade top surface when can reduce folding.

It should also be noted that, the side formed by the second foldable photovoltaic electrification component 3 can be two, and phase To setting, so, situation as shown in Figure 3, crossover region A is two, and when being arranged on the top surface, first photovoltaic Generator unit 211 can be right-angled trapezium.Situation as shown in Figure 5, when crossover region A is arranged on side, second photovoltaic Generator unit 311 can be right-angled trapezium.And when setting one of in two crossover region A is in top surface, another setting At side, which can be right-angled trapezium, the second photovoltaic on the side of not set crossover region A Generator unit 311 can be rectangle, and the second photovoltaic generation unit 311 on the side of another setting crossover region A can be straight Angle is trapezoidal.

When the solar protection devices is hood, and (prolong along the direction vertical with first direction the top surface according to standard vehicle bit width The length stretched) it is 2.5 meters, when long (length that the top surface extends in a first direction when being unfolded) is 5 meters, fluffy a height of 2 meters.The hood Maximum can obtain the photovoltaic power generation area of 27.5 square meters, and daily generation is up to 13.75kWh or more.

Wherein, without limitation to the specific structure of the folding rack 1.

In above-described embodiment, crossover region A can stack, overlap, be overlapped or hollow out by way of to be set to first soft On property substrate I and/or on the second flexible substrate II.

In some embodiments of the utility model, referring to Fig. 7, which includes being arranged successively along first direction Multiple columns 11, the column 11 is located at 322 position of the second peak broken line, and the position on top and the first peak broken line 222 Connection.

It is close to each other by the mobile column 11 or be located remotely from each other, it is able to drive the first foldable photovoltaic electrification component 2 and second foldable photovoltaic electrification component 3 collapse or expansion.

In order to save strength, storage or expansion are further facilitated, optionally, the position of at least one first peak broken line is corresponding The bottom of the column 11 of connection is provided with sliding part or rolling member 12.It is that each column ground is equipped with sliding part shown in Fig. 7 Or rolling member 12.

Optionally, solar protection devices includes movable end and fixing end along first direction, and the column of fixing end can be fixed on The column of face (such as face to be installed can be ground) to be installed, movable end is equipped with sliding part or rolling member 12, is located at movable end Column between fixing end can be vacantly arranged, and in storage or expansion, push the column of movable end.

Optionally, the column of solar protection devices intermediate region is fixed on ground, and the column at both ends is provided with sliding part or rolling Part 12, the column being fixed between the column on ground and the column equipped with sliding part or rolling member 12 can be vacantly arranged, specifically Embodiment can be configured according to practical operation.In the another embodiment of the utility model, with continued reference to Fig. 7, the sunshade Device further includes two sliding rails 4 extended along the first direction, and the sliding part or rolling member and the sliding rail 4 match sliding or rolling Dynamic connection.

Further, with continued reference to Fig. 7, which further includes driving device 5；The driving device 5 and the sliding part Or rolling member 12 connects, for driving the sliding part or rolling member 12 to slide along first direction or rolling；The first foldable light Volt electrification component 2 and/or the second foldable photovoltaic electrification component 3 are connect with the driving device 5, for being the driving device 5 Power supply.It can be real under the power supply function of the first foldable photovoltaic electrification component 2 and/or the second foldable photovoltaic electrification component 3 Existing automation control.

When solar protection devices includes above-mentioned fixing end and movable end, the driving of driving device 5 is connect with the column of movable end Sliding part or rolling member 12.Optionally, with continued reference to Fig. 7, which further includes controller 6, which is also used to pair The opening and closing of the driving device 5 are controlled.Wherein the controller 6 can be remote controler.

Wherein, identification code can also be set on the solar protection devices, the identification code is carried out by terminal device such as mobile phone Scanning can carry out shared charging pile service and reserve parking service, and can it is whether idle by network inquiry parking stall, pay Take the Self-Services such as charging.

Optionally, in some embodiments, the top of above-mentioned folding rack is equipped with folding first auxiliary stand, and first is auxiliary Bracket is helped to be used to support the first foldable photovoltaic electrification component.First auxiliary stand can further avoid the first foldable photovoltaic Electrification component is impaired, plays the role of protecting the first foldable photovoltaic electrification component.

Optionally, in some embodiments, the side of above-mentioned folding rack is equipped with folding second auxiliary stand, and second is auxiliary Bracket is helped to be used to support the second foldable photovoltaic electrification component.Second auxiliary stand can further avoid the second foldable photovoltaic Electrification component is impaired, plays the role of protecting the second foldable photovoltaic electrification component.

Second aspect, the utility model embodiment provides a kind of power supply system, referring to Fig. 8, comprising: sunshade as described above Device 01；The solar protection devices 01 includes the first foldable photovoltaic electrification component 2, which is arranged To be electrically connected with power device 02, for the power device 02 power supply.

Solar protection devices in power supply system provided by the embodiment of the utility model can supply for the device of any required electricity consumption Electricity.

Wherein, which can be charging pile, electric car, battery-operated motor cycle, and electric bicycle etc. can also be with For the various power consumption daily necessities such as mobile phone, charger baby.

In the another embodiment of the utility model, the controller 6 respectively with the power device 02 and the first foldable photovoltaic Electrification component 2 connects, for distributing electric energy for power device 01.

In the another embodiment of the utility model, which further includes the external interface for connecting with terminal device. By the way that the controller 6 to be wirelessly connected or be electrically connected with the terminal device, handed over by the terminal device and the controller 6 Mutually.

Illustratively, the finger for opening or closing the driving device 5 can also be sent to the controller 6 by the terminal device It enables, the open and close of the driving device 5 is controlled.

The third aspect, the utility model embodiment provides a kind of power supply system, referring to Fig. 9, comprising: sunshade as described above Device 01；The solar protection devices 01 includes the first foldable photovoltaic electrification component 2 and the second foldable photovoltaic electrification component 3, this One foldable photovoltaic electrification component 2 and/or the second foldable photovoltaic electrification component 3 are set as being electrically connected with power device 02, are The power device 02 power supply.

The utility model embodiment provides a kind of power supply system, which can supply for the device of any required electricity consumption Electricity.

Wherein, which can be charging pile, electric car, battery-operated motor cycle, and electric bicycle etc. can also be with For the various power consumption daily necessities such as mobile phone, charger baby.

In the another embodiment of the utility model, the controller 6 respectively with the power device 02 and the first foldable light It lies prostrate electrification component 2 and/or the second foldable photovoltaic electrification component 3 connects, for distributing electric energy for power device 01.

In the another embodiment of the utility model, which further includes the external interface for connecting with terminal device. By the way that the controller 6 to be wirelessly connected or be electrically connected with the terminal device, handed over by the terminal device and the controller 6 Mutually.

Illustratively, the finger for opening or closing the driving device 5 can be sent to the controller 6 by the terminal device It enables, the open and close of the driving device 5 is controlled.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with the power Subject to the protection scope that benefit requires.

Claims (16)

1. a kind of solar protection devices characterized by comprising folding rack and the first foldable photovoltaic electrification component；

The first foldable photovoltaic electrification component is set to the folding rack top, forms the top surface of the solar protection devices, And it is suitable for being unfolded under the drive of the folding rack or collapsing and is in unfolded state or folded state.

2. solar protection devices according to claim 1, which is characterized in that further include the second foldable photovoltaic electrification component；

The second foldable photovoltaic electrification component is set to the side that the folding rack side forms the solar protection devices, and Folded state or unfolded state are in suitable for being unfolded under the drive of the folding rack or collapsing；

It is equipped with crossover region between the first foldable photovoltaic electrification component and the second foldable photovoltaic electrification component, is rolling over Under overlapping state, pass through the friendship between the first foldable photovoltaic electrification component and the second foldable photovoltaic electrification component Folded area, which realizes, to be folded.

3. solar protection devices according to claim 2, which is characterized in that the first foldable photovoltaic electrification component is by multiple First photovoltaic generation unit is formed by connecting, wherein two neighboring first photovoltaic generation unit can be along the first default broken line collapsibly Connection；

The second foldable photovoltaic electrification component is formed by connecting by multiple second photovoltaic generation units, wherein two neighboring second Photovoltaic generation unit can be foldably connected along the second default broken line；

First photovoltaic generation unit of adjacent two forms the first photovoltaic generation unit group, second light of adjacent two It lies prostrate generator unit and forms the second photovoltaic generation unit group, adjacent the first photovoltaic generation unit group and second photovoltaic are sent out Electric unit group is corresponding, and the crossover region is set to adjacent the first photovoltaic generation unit group and the second photovoltaic power generation group Between；

The multiple first photovoltaic generation unit and the multiple second photovoltaic generation unit are under the drive of the folding rack It realizes and collapses along the floding at boundary of the described first default broken line, the second default broken line and the crossover region, thus in folding Overlapping state.

4. solar protection devices according to claim 3, which is characterized in that multiple first photovoltaic generation units are along first party To arranged in parallel, the first default broken line includes the first paddy broken line and first peak broken line perpendicular to the first direction, institute Stating multiple first photovoltaic generation units successively can realize folding in such a way that paddy folding and peak folding are alternate along the first direction；

The second default broken line includes the second paddy broken line being in the same plane with the first paddy broken line and with described The second peak broken line that one peak broken line is in the same plane, the multiple second photovoltaic generation unit can along the first direction according to It is secondary to realize folding in such a way that paddy folding and peak folding are alternate.

5. solar protection devices according to claim 4, which is characterized in that the second photovoltaic generation unit group is located at adjacent Between two second peak broken lines；

The second foldable photovoltaic electrification component includes the second flexible substrate, and the multiple second photovoltaic generation unit is set to In second flexible substrate；

The crossover region is set in second flexible substrate, and is located at by two in the first photovoltaic generation unit group the One peak broken line close to second flexible substrate side endpoint and the second paddy broken line close to described top surface one end end Region defined by point line.

6. solar protection devices according to claim 5, which is characterized in that second photovoltaic generation unit setting is described the In the region limited in two flexible substrates by the second paddy broken line, the second peak broken line and the crossover region edge line, and The shape of two the second photovoltaic generation units in second photovoltaic generation unit group shape complementary with the shape of the crossover region Rectangular structure.

7. solar protection devices according to claim 6, which is characterized in that

Second photovoltaic generation unit is ladder structure of right angle, and the crossover region is to be set in second flexible substrate Isosceles triangular structure, the second photovoltaic generation unit of two ladder structure of right angle is being tied in the second photovoltaic generation unit group On structure it is complementary with the crossover region after form the rectangular configuration.

8. solar protection devices according to claim 4, which is characterized in that the first photovoltaic generation unit group is located at adjacent Between two first peak broken lines；

The first foldable photovoltaic electrification component includes the first flexible substrate, and the multiple first photovoltaic generation unit is set to In first flexible substrate；

The crossover region is set in first flexible substrate, and is located at by two institutes in the first photovoltaic generation unit group State endpoint and second photovoltaic generation unit of the first paddy broken line close to the described second foldable photovoltaic electrification component side Region defined by endpoint line of two the second peak broken lines close to solar protection devices top surface side in group.

9. solar protection devices according to claim 8, which is characterized in that first photovoltaic generation unit setting is described the In the region limited in one flexible substrate by the first paddy broken line, first peak broken line and the crossover region edge line, and The shape of two the first photovoltaic generation units in first photovoltaic generation unit group shape complementary with the shape of the crossover region Rectangular structure.

10. solar protection devices according to claim 9, which is characterized in that first photovoltaic generation unit is right-angled trapezium Structure, the crossover region are the isosceles triangular structure being set in first flexible substrate, the first photovoltaic power generation list The square is formed after the first photovoltaic generation unit of two ladder structure of right angle is complementary with the crossover region in structure in tuple Shape structure.

11. according to the described in any item solar protection devices of claim 4-10, which is characterized in that the folding rack includes along first Multiple columns that direction is arranged successively, the column are located at the second peak position of broken line, and top and the first peak broken line Position connection.

12. solar protection devices according to claim 11, which is characterized in that the position of at least one first peak broken line is corresponding to be connected The bottom of the column connect is provided with sliding part or rolling member.

13. solar protection devices according to claim 12, which is characterized in that further include two extended along the first direction The match sliding or roll of sliding rail, the sliding part or the rolling member and the sliding rail connects.

14. solar protection devices according to claim 12 or 13, which is characterized in that further include driving device；

The driving device is connect with the sliding part or rolling member, for driving the sliding part or rolling member along first direction Sliding rolls；

The first foldable photovoltaic electrification component and/or the second foldable photovoltaic electrification component and the driving device connect It connects, for powering for the driving device.

15. a kind of power supply system characterized by comprising

Solar protection devices as described in claim 1；

The first foldable photovoltaic electrification component is set as being electrically connected with power device, powers for the power device.

16. a kind of power supply system characterized by comprising such as the described in any item solar protection devices of claim 2-14；

The first foldable photovoltaic electrification component and/or second foldable photovoltaic electrification component is set as and power device Electrical connection is powered for the power device.