CN209134348U - Folding photovoltaic component system and the mobile power station for using the photovoltaic component system - Google Patents

Abstract

The utility model discloses a kind of folding photovoltaic component systems, including center photovoltaic module and around the multiple first peripheral photovoltaic modulies of center photovoltaic module setting, multiple described first peripheral photovoltaic modulies are flexibly connected with the center photovoltaic module, described first peripheral photovoltaic module is foldable relative to the center photovoltaic module or is unfolded, the second peripheral photovoltaic module is connected on described first peripheral photovoltaic module, described second peripheral photovoltaic module is foldable relative to the described first peripheral photovoltaic module or is unfolded, the center photovoltaic module, it is located at approximately the same plane after first peripheral photovoltaic module and the second peripheral photovoltaic module expansion.The folding photovoltaic component system, which can be realized effectively, to be folded and unfolded, and the perfect combination for using and transporting is realized, and has not only ensured good result when it is in use state, but also can be realized convenient transport.The invention also discloses a kind of mobile power stations using above-mentioned folding photovoltaic component system.

Description

Folding photovoltaic component system and the mobile power station for using the photovoltaic component system

Technical field

The utility model belongs to technical field of photovoltaic power generation, is specifically related to a kind of folding photovoltaic component system and use The mobile power station of the photovoltaic component system.

Background technique

Photovoltaic plant, refer to it is a kind of using solar energy, using electronic components such as special material crystal silicon plate, inverters The power generation system of composition is connected with power grid and transmits electric power to power grid or directly to the photovoltaic power generation system of power supply for electrical equipment System.Photovoltaic plant is to belong to the maximum green electric power supply exploitation energy project of national encouragement dynamics at present.Wherein, mobile photovoltaic plant More convenient and fast usage mode is provided for electricity consumption, for example can use movement when needing electricity consumption in the place that power grid is not laid with How photovoltaic plant still effectively transports mobile photovoltaic plant, it is urgently to be resolved to become those skilled in the relevant arts The technical issues of, then, develop it is a kind of can portable, convenient transportation mobile photovoltaic plant, just become extremely urgent and need to solve Certainly the problem of.

Utility model content

The purpose of the utility model is to overcome above-mentioned deficiencies in the prior art, provide a kind of folding photovoltaic component system System.The folding photovoltaic component system, which can be realized effectively, to be folded and unfolded, and realizes the perfect combination for using and transporting, both It ensures good result when it is in use state, and can be realized convenient transport.

To achieve the above object, the utility model folding photovoltaic component system the technical solution adopted is that: collapsible light Lie prostrate component system, it is characterised in that: including center photovoltaic module and around multiple first peripheries of center photovoltaic module setting Photovoltaic module, multiple described first peripheral photovoltaic modulies are flexibly connected with the center photovoltaic module, the described first peripheral light Volt component is foldable relative to the center photovoltaic module or is unfolded, and is connected with second on the described first peripheral photovoltaic module Peripheral photovoltaic module, the described second peripheral photovoltaic module is foldable relative to the described first peripheral photovoltaic module or is unfolded, described It is located at approximately the same plane after center photovoltaic module, the first peripheral photovoltaic module and the second peripheral photovoltaic module expansion.

Above-mentioned folding photovoltaic component system, it is characterised in that: the center photovoltaic module, the first peripheral photovoltaic module It is quadrangle with the second peripheral photovoltaic module, the quantity of the center photovoltaic module is one, the described first peripheral photovoltaic group The quantity of part and the second peripheral photovoltaic module is four.

Above-mentioned folding photovoltaic component system, it is characterised in that: the center photovoltaic module, the first peripheral photovoltaic module It is square with the second peripheral photovoltaic module.

Above-mentioned folding photovoltaic component system, it is characterised in that: the described first peripheral photovoltaic module and the center light Member hinges connection is lied prostrate, the bottom of the described first peripheral photovoltaic module is connected with stretches for what is supported in its expansion Contracting strut, the second peripheral photovoltaic module and the first peripheral photovoltaic module corresponding thereto are articulated and connected, outside described second Enclose the resistance being provided between photovoltaic module and the first peripheral photovoltaic module corresponding thereto for its angle to be located in 180 ° Buddhist nun's hinge.

Above-mentioned folding photovoltaic component system, it is characterised in that: the center photovoltaic module, the first peripheral photovoltaic module With form three by three matrix after the second peripheral photovoltaic module expansion, the center photovoltaic module, the first peripheral photovoltaic module and the Two peripheral photovoltaic modulies form a cube structure after folding.

Above-mentioned folding photovoltaic component system, it is characterised in that: be hingedly connected on the described first peripheral photovoltaic module Two second peripheral photovoltaic modulies, two the described second peripheral photovoltaic modulies are foldable relative to the described first peripheral photovoltaic module Or expansion.

Above-mentioned folding photovoltaic component system, it is characterised in that: the center photovoltaic module, the first peripheral photovoltaic module It is quadrangle with the second peripheral photovoltaic module, the quantity of the described first peripheral photovoltaic module is two, the described first peripheral light The quantity for lying prostrate component is four, and two the described first peripheral photovoltaic module one-to-one correspondence are hingedly connected to the center photovoltaic module On two opposite sides, a third periphery photovoltaic is hinged on other two opposite side of the center photovoltaic module Component, third periphery photovoltaic module is foldable relative to the center photovoltaic module or is unfolded.

Above-mentioned folding photovoltaic component system, it is characterised in that: the bottom of the described first peripheral photovoltaic module is connected with Telescopic strut for supporting in its expansion is connected to one described second of the described first peripheral photovoltaic module Peripheral photovoltaic module is dug upwards and constitutes overlap joint with third periphery photovoltaic module adjacent thereto and cooperate, and is connected to described first The peripheral photovoltaic module of another of peripheral photovoltaic module described second is dug downwards and and third periphery photovoltaic adjacent thereto Component overlap joint cooperation.

Above-mentioned folding photovoltaic component system, it is characterised in that: the center photovoltaic module, the first peripheral photovoltaic group Form three by three matrix after part, the second peripheral photovoltaic module and the expansion of third periphery photovoltaic module, the center photovoltaic module, the One peripheral photovoltaic module, the second peripheral photovoltaic module and third periphery photovoltaic module form a cube structure after folding.

In order to easily move to the folding photovoltaic component system, the utility model additionally provides a kind of shifting Dynamic power station.The utility model mobile power station the technical solution adopted is that: a kind of mobile power station, it is characterised in that: including such as above-mentioned Folding photovoltaic component system, further include being used to support the support frame of the folding photovoltaic component system and for driving The mobile locomotive of support frame is stated, is additionally provided on the locomotive for being electrically connected storage with the folding photovoltaic component system Battery and inverter for being electrically connected with the battery.

Compared with the prior art, the utility model has the following advantages:

1, the novel design of the utility model folding photovoltaic component system is reasonable.

2, the utility model folding photovoltaic component system can be unfolded to increase the area for absorbing solar energy, and then can be real It now converts solar energy into electrical energy, when needing to store the folding photovoltaic component system, function can be folded by realizing Can, so that convenient transport the folding photovoltaic component system.

3, the utility model folding photovoltaic component system facilitates it by the way that each photovoltaic module is both designed as quadrangle It is connected with each other, and improves its bonding strength.

4, three by three matrix is formed after the expansion of the utility model folding photovoltaic component system, it is ensured that absorb solar energy Area guarantees the reliability in folding movable power station.A cube is formed after the folding photovoltaic component systems fold, Ensure that shared volume after the folding photovoltaic component systems fold reaches minimum, greatly facilitates transport.

5, the utility model mobile power station can make the folding using above-mentioned folding photovoltaic component system when in use The conversion to realize solar energy to electrical is unfolded in formula photovoltaic component system, while can be to the collapsible photovoltaic when stopping using Component system is transported after folding, easy to use, is improved the convenience used, can be widely applied to various situations Under.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of the utility model or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, drawings discussed below is only that this is practical Novel some embodiments for those skilled in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is the folded state schematic diagram of folding photovoltaic component system in the utility model embodiment 1.

Fig. 2 is the first peripheral photovoltaic module unfolded state of folding photovoltaic component system in the utility model embodiment 1 Schematic diagram.

Fig. 3 is the expansion of the second peripheral photovoltaic module of folding photovoltaic component system in the utility model embodiment 1 Journey schematic diagram.

Fig. 4 is the unfolded state schematic diagram of folding photovoltaic component system in the utility model embodiment 1.

Fig. 5 is the structural schematic diagram of mobile power station in the utility model embodiment 1.

Fig. 6 is the folded state schematic diagram of folding photovoltaic component system in the utility model embodiment 2.

Fig. 7 is outside the first peripheral photovoltaic module and third of folding photovoltaic component system in the utility model embodiment 2 Enclose the expansion process schematic of photovoltaic module.

Fig. 8 is outside the first peripheral photovoltaic module and third of folding photovoltaic component system in the utility model embodiment 2 Enclose the unfolded state schematic diagram of photovoltaic module.

Fig. 9 is the second peripheral photovoltaic module of folding photovoltaic component system in the utility model embodiment 2 relative to the The expansion process schematic of one peripheral photovoltaic module.

Figure 10 is the unfolded state schematic diagram of folding photovoltaic component system in the utility model embodiment 2.

Figure 11 is the structural schematic diagram of mobile power station in the utility model embodiment 2.

Description of symbols:

1-center photovoltaic module；2-the first peripheral photovoltaic module；3-the second peripheral photovoltaic module；

4-support frames；5-moving trolleys；6-third periphery photovoltaic modulies.

Specific embodiment

Below in conjunction with the attached drawing in the utility model, the technical solution in the utility model is carried out clearly and completely Description, it is clear that the described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.It is based on The embodiments of the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all Other embodiments are fallen within the protection scope of the utility model.

Embodiment 1

A kind of folding photovoltaic component system as shown in Figure 1, Figure 2, Figure 3 and Figure 4, including center photovoltaic module 1 and around The multiple first peripheral photovoltaic modulies 2 that the center photovoltaic module 1 is arranged, multiple described first peripheral photovoltaic modulies 2 are and institute State the flexible connection of center photovoltaic module 1, the first peripheral photovoltaic module 2 relative to the center photovoltaic module 1 it is foldable or It is unfolded, the second peripheral photovoltaic module 3, the described second peripheral photovoltaic module 3 is connected on the described first peripheral photovoltaic module 2 Relative to the described first peripheral photovoltaic module 2 is foldable or expansion, 1, the first peripheral photovoltaic module of center photovoltaic module, 2 and Second peripheral photovoltaic module 3 is located at approximately the same plane after being unfolded.

In the present embodiment, the folding photovoltaic component system when in use, that is, when it is in unfolded state, the folding Formula photovoltaic component system can be unfolded to increase the area for absorbing solar energy, and then can be realized and convert solar energy into electrical energy, when It, can be by the second peripheral photovoltaic module 3 relative to the first peripheral light when needing to store the folding photovoltaic component system Volt component 2 is folded up, then the first peripheral photovoltaic module 2 is folded up relative to center photovoltaic module 1, thus convenient to this Folding photovoltaic component system is transported.

In the present embodiment, which, which can effectively realize, is folded and unfolded, and can either be unfolded Shi Zeng great absorbs the area of solar energy to convert the solar into electric energy, and convenient in folded state can transport to it It is defeated, the perfect combination for using and transporting effectively is realized, has not only ensured good result when it is in use state, but also can Realize convenient transport.

As shown in figure 4, the peripheral photovoltaic module 2 of the center photovoltaic module 1, first and the second peripheral photovoltaic module 3 are Quadrangle, the quantity of the center photovoltaic module 1 are one, the described first peripheral photovoltaic module 2 and the second peripheral photovoltaic module 3 Quantity be four.

In the present embodiment, by the way that the peripheral photovoltaic module 2 of center photovoltaic module 1, first and the second peripheral photovoltaic module 3 is equal It is designed as quadrangle, facilitates its interconnection, and improves its bonding strength.By by the first peripheral 2 He of photovoltaic module The quantity of second peripheral photovoltaic module 3 is both designed as four, can be in the convenience for increasing the area and folding that absorb solar energy Between reached reasonable equalization point.

In the present embodiment, the peripheral photovoltaic module 2 of the center photovoltaic module 1, first and the second peripheral photovoltaic module 3 are Square.It is by the way that the peripheral photovoltaic module 2 of center photovoltaic module 1, first and the second peripheral photovoltaic module 3 to be both designed as just Rectangular, the rule after enabling to the folding photovoltaic component system to be unfolded is neat, meanwhile, but also folded, this is collapsible Photovoltaic component system is also regular neat.

In the present embodiment, the described first peripheral photovoltaic module 2 is articulated and connected with the center photovoltaic module 1, and described first The bottom of peripheral photovoltaic module 2 is connected with the telescopic strut for supporting in its expansion, the described second peripheral light Lie prostrate component 3 and the first peripheral photovoltaic module 2 corresponding thereto be articulated and connected, the second periphery photovoltaic module 3 and with its phase The Damping hinge for its angle to be located in 180 ° is provided between corresponding first peripheral photovoltaic module 2.

In the present embodiment, the first peripheral photovoltaic module 2 after expansion is effectively supported by telescopic strut, so that It is maintained at expanded angle, meanwhile, 180 ° of Damping hinge is limited to using rotational angle to ensure the second peripheral photovoltaic module 3 Expanded angle.

In the present embodiment, the telescopic strut can choose Electrohydraulic push rod or hydraulic cylinder, to the second peripheral photovoltaic group The positioning of part 3 can also be cooperated by overlap joint adjacent thereto to realize.

As shown in figure 4, the peripheral photovoltaic module 2 of the center photovoltaic module 1, first and the second peripheral photovoltaic module 3 are unfolded After form three by three matrix, after the peripheral photovoltaic module 2 of the center photovoltaic module 1, first and the second peripheral photovoltaic module 3 fold Form a cube structure.

In the present embodiment, three by three matrix is formed after folding photovoltaic component system expansion, it is ensured that absorb solar energy Area, while making will not have gap between adjacent two photovoltaic module, gap be effectively utilized, the folding photovoltaic component A cube is formed after systems fold, it is ensured that shared volume reaches minimum after the folding photovoltaic component systems fold, pole Big facilitates transport.

In the present embodiment, the expansion process of the folding photovoltaic component system is as follows:

It is formed by cube structure after the folding photovoltaic component systems fold as shown in figure 1, as shown in Fig. 2, its It shows the first peripheral photovoltaic module 2 and rotates 90 ° relative to center photovoltaic module 1, so that the first peripheral photovoltaic module 2 is in Angle between heart photovoltaic module 1 is 180 °, as shown in figure 3, the second peripheral photovoltaic module 3 is relative to the first peripheral photovoltaic module 2 gradually spread out, to form unfolded state as shown in Figure 4.

In the present embodiment, the articulated connection between photovoltaic module is realized by hinge.

A kind of mobile power station as shown in Figure 5, including above-mentioned folding photovoltaic component system, further include be used to support it is described The support frame 4 of folding photovoltaic component system and locomotive 5 for driving support frame as described above 4 mobile, on the locomotive 5 also It is provided with the inversion for being electrically connected battery with the folding photovoltaic component system and for being electrically connected with the battery Device.

In the present embodiment, using the mobile power station of above-mentioned folding photovoltaic component system, the folding can be made when in use The conversion to realize solar energy to electrical is unfolded in formula photovoltaic component system, while can be to the collapsible photovoltaic when stopping using Component system is transported after folding, easy to use, is improved the convenience used, can be widely applied to various situations Under.

Embodiment 2

As shown in Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10, the present embodiment difference from example 1 is that: described first There are two the second peripheral photovoltaic module 3, two the described second peripheral photovoltaic modulies 3 are opposite for articulated connection on peripheral photovoltaic module 2 In the described first peripheral photovoltaic module 2 is foldable or expansion.

In the present embodiment, the folding photovoltaic component system when in use, that is, when it is in unfolded state, the folding Formula photovoltaic component system can be unfolded to increase the area for absorbing solar energy, and then can be realized and convert solar energy into electrical energy, when It, can be opposite respectively by two the described second peripheral photovoltaic modulies 3 when needing to store the folding photovoltaic component system It is folded up in the first peripheral photovoltaic module 2, effectively saves storage volume, thus for the folding photovoltaic component system Transport provides convenience.

As shown in Figure 10, the peripheral photovoltaic module 2 of the center photovoltaic module 1, first and the second peripheral photovoltaic module 3 are Quadrangle, the quantity of the first peripheral photovoltaic module 2 are two, and the quantity of the described first peripheral photovoltaic module 2 is four, two A described first peripheral one-to-one correspondence of photovoltaic module 3 is hingedly connected on two opposite sides of the center photovoltaic module 1, institute It states and is hinged with a third periphery photovoltaic module 6 on other two the opposite side of center photovoltaic module 1, outside the third Enclose photovoltaic module 6 relative to the center photovoltaic module 1 it is foldable or expansion.

In the present embodiment, the bottom of the described first peripheral photovoltaic module 2 is connected with for propping up in its expansion it The telescopic strut of support, a described second peripheral photovoltaic module 3 for being connected to the described first peripheral photovoltaic module 2 are dug simultaneously upwards Overlap joint cooperation is constituted with third periphery photovoltaic module 6 adjacent thereto, is connected to other the one of the described first peripheral photovoltaic module 2 A described second peripheral photovoltaic module 3 is dug downwards and and the overlap joint cooperation of third periphery photovoltaic module 6 adjacent thereto.It is logical The mode for crossing setting telescopic strut can effectively support the first peripheral photovoltaic module 2, by way of overlap joint cooperation It realizes and the second peripheral photovoltaic module 3 is positioned.

In the present embodiment, the peripheral photovoltaic module 3 of peripheral photovoltaic module 2, second of the center photovoltaic module 1, first and the Three peripheral photovoltaic modulies 6 form three by three matrix, the peripheral photovoltaic module 2, second of the center photovoltaic module 1, first after being unfolded Peripheral photovoltaic module 3 and third periphery photovoltaic module 6 form a cube structure after folding.

In the present embodiment, three by three matrix is formed after folding photovoltaic component system expansion, it is ensured that absorb solar energy Area, while making will not have gap between adjacent two photovoltaic module, gap be effectively utilized, the folding photovoltaic component A cube is formed after systems fold, it is ensured that shared volume reaches minimum after the folding photovoltaic component systems fold, pole Big facilitates transport.

In the present embodiment, the expansion process of the folding photovoltaic component system is as follows:

Cube structure is formed by after showing the folding photovoltaic component systems fold such as Fig. 6；Such as Fig. 7 and Fig. 8 institute Show, it illustrates the first peripheral photovoltaic modulies 2 to rotate 90 ° relative to center photovoltaic module 1, so that the first peripheral photovoltaic module 2 Angle between center photovoltaic module 1 is 180 °, and third periphery photovoltaic module 6 rotates 90 ° relative to center photovoltaic module 1, So that the angle between third periphery photovoltaic module 6 and center photovoltaic module 1 is 180 °；As shown in figure 9, outside two described second It encloses photovoltaic module 3 and is respectively relative to the first peripheral rotation of photovoltaic module 2, to form the unfolded state as shown in Figure 10.

A kind of mobile power station as shown in figure 11, including above-mentioned folding photovoltaic component system, further include being used to support institute State the support frame 4 of folding photovoltaic component system and the locomotive 5 for driving support frame as described above 4 mobile, the locomotive 5 On be additionally provided with for being electrically connected battery with the folding photovoltaic component system and for being electrically connected with the battery Inverter.

In the present embodiment, using the mobile power station of above-mentioned folding photovoltaic component system, the folding can be made when in use The conversion to realize solar energy to electrical is unfolded in formula photovoltaic component system, while can be to the collapsible photovoltaic when stopping using Component system is transported after folding, easy to use, is improved the convenience used, can be widely applied to various situations Under.

As shown in figure 11, the bottom of the first peripheral photovoltaic module 2 in the folding photovoltaic component system, which is connected with, to be used for The telescopic strut 7 supported in its expansion, the bottom of the upper end of the telescopic strut 7 and the first peripheral photovoltaic module 2 Portion's connection, the lower end of the telescopic strut 7 is mounted on support frame 4.In the present embodiment, the telescopic strut 7 can use liquid Compressing cylinder or Electrohydraulic push rod.

The above is only the preferred embodiment of the utility model, not imposes any restrictions to the utility model, all According to the utility model technical spirit any simple modification, change and equivalent structure transformation to the above embodiments, still Belong in the protection scope of technical solutions of the utility model.

Claims (10)

1. folding photovoltaic component system, it is characterised in that: including center photovoltaic module (1) and around the center photovoltaic module (1) multiple the first of setting the peripheral photovoltaic modulies (2), multiple described first peripheral photovoltaic modulies (2) with the center photovoltaic Component (1) is flexibly connected, and the described first peripheral photovoltaic module (2) is foldable relative to the center photovoltaic module (1) or is unfolded, The second peripheral photovoltaic module (3), the described second peripheral photovoltaic module are connected on described first peripheral photovoltaic module (2) (3) relative to the described first peripheral photovoltaic module (2) is foldable or expansion, the center photovoltaic module (1), the first peripheral photovoltaic Component (2) and the second peripheral photovoltaic module (3) are located at approximately the same plane after being unfolded.

2. folding photovoltaic component system according to claim 1, it is characterised in that: the center photovoltaic module (1), One peripheral photovoltaic module (2) and the second peripheral photovoltaic module (3) are quadrangle, and the quantity of the center photovoltaic module (1) is One, the quantity of the first peripheral photovoltaic module (2) and the second periphery photovoltaic module (3) is four.

3. folding photovoltaic component system according to claim 2, it is characterised in that: the center photovoltaic module (1), One peripheral photovoltaic module (2) and the second peripheral photovoltaic module (3) are square.

4. folding photovoltaic component system according to claim 2, it is characterised in that: the described first peripheral photovoltaic module (2) it is articulated and connected with the center photovoltaic module (1), the bottom of the described first peripheral photovoltaic module (2) is connected at it The telescopic strut supported when expansion, the second peripheral photovoltaic module (3) and the first periphery light corresponding thereto Lie prostrate component (2) articulated connection, the second peripheral photovoltaic module (3) and the first periphery photovoltaic module (2) corresponding thereto it Between be provided with Damping hinge for its angle to be located in 180 °.

5. folding photovoltaic component system according to claim 3, it is characterised in that: the center photovoltaic module (1), One peripheral photovoltaic module (2) and the second peripheral photovoltaic module (3) form three by three matrix, the center photovoltaic module after being unfolded (1), the first peripheral photovoltaic module (2) and the second peripheral photovoltaic module (3) form a cube structure after folding.

6. folding photovoltaic component system according to claim 1, it is characterised in that: the described first peripheral photovoltaic module (2) there are two the second peripheral photovoltaic modulies (3) for articulated connection on, and two the described second peripheral photovoltaic modulies (3) are relative to described First peripheral photovoltaic module (2) is foldable or is unfolded.

7. folding photovoltaic component system according to claim 6, it is characterised in that: the center photovoltaic module (1), One peripheral photovoltaic module (2) and the second peripheral photovoltaic module (3) are quadrangle, the number of the described first peripheral photovoltaic module (2) Amount is two, and the quantity of the described first peripheral photovoltaic module (2) is four, and two the described first peripheral photovoltaic modulies (2) are one by one Correspondence be hingedly connected on two opposite sides of the center photovoltaic module (1), the center photovoltaic module (1) other two A third periphery photovoltaic module (6) is hinged on opposite side, third periphery photovoltaic module (6) is relative to described Center photovoltaic module (1) is foldable or is unfolded.

8. folding photovoltaic component system according to claim 7, it is characterised in that: the described first peripheral photovoltaic module (2) bottom is connected with the telescopic strut for supporting in its expansion, is connected to the described first peripheral photovoltaic group The peripheral photovoltaic module (3) of one of part (2) described second is dug upwards and and third periphery photovoltaic module (6) structure adjacent thereto Cooperate at overlap joint, another the described second peripheral photovoltaic module (3) for being connected to the described first peripheral photovoltaic module (2) is downward It digs and cooperates with third periphery photovoltaic module (6) overlap joint adjacent thereto.

9. folding photovoltaic component system according to claim 7, it is characterised in that: the center photovoltaic module (1), Three, which are formed, after one peripheral photovoltaic module (2), the second peripheral photovoltaic module (3) and third periphery photovoltaic module (6) expansion multiplies three squares Battle array, the center photovoltaic module (1), the first peripheral photovoltaic module (2), the second peripheral photovoltaic module (3) and third periphery photovoltaic Component (6) forms a cube structure after folding.

10. a kind of mobile power station, it is characterised in that: including the collapsible photovoltaic as described in claim 1 to 9 any claim Component system further includes being used to support the support frame (4) of the folding photovoltaic component system and for driving support frame as described above (4) mobile locomotive (5) is additionally provided with for being electrically connected with the folding photovoltaic component system on the locomotive (5) Battery and inverter for being electrically connected with the battery.