CN209001878U - A kind of removable off-network electrification energy storage power supply system - Google Patents

Abstract

The utility model discloses a kind of removable off-network electrification energy storage power supply systems, including towed vehicle, solar photovoltaic assembly, power-supply system and control system, towed vehicle includes the vehicle frame for pulling, the wheel for driving vehicle frame mobile and the carriage body being arranged on vehicle frame；Solar photovoltaic assembly includes multiple photovoltaic panels being successively rotatablely connected, and solar photovoltaic assembly has folded state and unfolded state, and in a folded configuration, solar photovoltaic assembly is placed in inside carriage body, and photovoltaic panel is holded up and close to adjacent photovoltaic panel；In the deployed state, solar photovoltaic assembly completely or partially removes carriage body；The power output of control system control solar photovoltaic assembly and the electric energy of power-supply system are output and input.The electrification energy storage system of the utility model is independent off-network electrification energy storage power supply system, during transportation collapses photovoltaic panel in carriage body vertically, damage caused by reduction is jolted；Photovoltaic panel is put on display from carriage body in power generation process, it is convenient to operate.

Description

A kind of removable off-network electrification energy storage power supply system

Technical field

The utility model relates to field of solar energy, in particular to a kind of removable off-network electrification energy storage power supply system.

Background technique

With the raising and popularization of the government to new-energy automobile of environmental consciousness, more and more new-energy automobiles enter people Life, still, charging pile is not also too perfect at present, and charge condition is also immature；

In the herdsman there are many scarcely populated areas such as Tibet, Xinjiang, Inner Mongol, the life migrated is lived for a long time, is lived Place be not also powered, food cannot be kept for a long time, bring puzzlement to life；

With the improvement of living standards, more and more people like driving to remote districts tourism, field is camped overnight in, night does not have There is power supply, reduces the experience enjoyment of self-driving travelling.

Some people in remote areas without electricity also have purchased photovoltaic product, still, before existing photovoltaic products Plate uses glass material, causes entire photovoltaic products weight also frangible greatly, is not suitable for the people for being frequently necessary to resettlement；Photovoltaic products Generated energy is few, and inadequate electricity consumption in one day is not enough to substantially improve quality of life.

To sum up, off-network electricity generation system existing defects in terms of portability, energy-storage property are moved.

Utility model content

Worldwide still has very a high proportion of area and country to be not carried out comprehensive energization, in order to solve existing skill The problem of art, the utility model provide it is a kind of for life and/or electric car the removable off-network electrification energy storage of the energy is provided Power supply system, technical solution are as follows:

The utility model provides a kind of removable off-network electrification energy storage power supply system, including towed vehicle, photovoltaic Component, power-supply system and control system, the towed vehicle include vehicle frame for pulling, the wheel for driving vehicle frame mobile and Carriage body on the vehicle frame is set；

The solar photovoltaic assembly includes multiple photovoltaic panels being successively rotatablely connected, the solar photovoltaic assembly tool There are folded state and unfolded state, in a folded configuration, the solar photovoltaic assembly is placed in inside the carriage body, the light Lie prostrate panels rise and close to adjacent photovoltaic panel；In the deployed state, the solar photovoltaic assembly completely or partially removes The carriage body；

The control system control the solar photovoltaic assembly power output and power-supply system electric energy input and it is defeated Out.

Further, the vehicle frame includes towing mechanism, and the towing mechanism is used to cooperate with automobile tail, described to pull Mechanism includes brake gear, and the brake gear is connect with automobile brake system, and is cooperated with the axle of the wheel, the brake Vehicle device is used for while braking automobile, is braked to the towed vehicle；Alternatively,

The towed vehicle is equipped with the driving mechanism for driving it to move.

Further, rotation door is provided on rear side of the carriage body, the lower edge of the rotation door can occur along carriage body Rotation；Before solar photovoltaic assembly expansion, the rotation door forms slope to rotation outside carriage body, for solar energy Photovoltaic module removes along the slope or enters the carriage body.

Further, the rotation door is doubling slope door, and the lower edge of the doubling slope door and the lower part of carriage body are logical Hinge connection is crossed, after the doubling slope door is opened, the upper edge of the doubling slope door and ground face contact.

Further, the upper surface of the carriage body be equipped with the first photovoltaic plate, the first photovoltaic plate by cable with The control system connection.

Further, at least provided with a second photovoltaic plate, the second photovoltaic plate on the side surface of the carriage body It can rotate relative to the side surface and be maintained at certain angle, the second photovoltaic plate passes through cable and the control System connection processed.

Further, the vehicle frame further includes damping and vehicle frame frame, the intermediate position of the damping with The axle of the wheel cooperates, and the two sides position of the damping and vehicle frame frame cooperate.

Further, the vehicle frame rear portion is equipped with turn signal and/or brake warning lamp, the turn signal and/or brake police Show that the lamp controller of lamp and automobile connects, the turn signal and/or brake alarming of the turn signal and/or brake warning lamp and automobile Lamp simultaneous display.

Further, the surface of the carriage body is equipped with one or more heat release holes；And/or

The surface of the carriage body be equipped with display, electric-controlled switch, emergency stop switch, insert row and protective cover, the display with Control system connection, the display for show the power generation information of solar photovoltaic assembly, the storage information of power-supply system and The power information for directly filling load of control system；The electric-controlled switch is for controlling power supply output；The emergency stop switch is for sending out All power supply disengaging are closed when raw dangerous；The insert row is for drawing power supply；The protective cover be used for the electric-controlled switch, Emergency stop switch, insert row carry out waterproof and insulate protection.

Further, removable off-network electrification energy storage power supply system provided by the utility model further includes wind-power electricity generation group Part, the wind-power electricity generation component include flabellum and generator, and the wind generator system is arranged inside or outside the carriage body, The power output of the control system control wind-power electricity generation component.

Further, the photovoltaic panel of the solar photovoltaic assembly is made of PC, PET, ETFE or FEP material, described The density of photovoltaic panel is less than or equal to 1.8g/cm³。

Further, the periphery of the photovoltaic panel is equipped with frame, passes through hinge between the frame of adjacent photovoltaic panel Or flexible material connection；

Support wheel is additionally provided on the frame of the photovoltaic panel, in a folded configuration, the support wheel supports the photovoltaic Panel and its frame；In the deployed state, the photovoltaic panel is moved to outside the carriage body, and is in a horizontal state and is successively arranged Column.

Technical solution bring provided by the utility model has the beneficial effect that:

1) folding multiple photovoltaic panels can be accommodated by pulling compartment, and generated energy is big, sufficiently meets electric car and day The power demands often lived；

2) convenient transportation can be fixed and pull in vehicle back or be placed in pick up, transport on lorry；

3) photovoltaic module expansion and the mode collapsed are simple, easy to operate；

4) energy storage for power supply system is provided with multiple extraction ports, facilitates the various electric appliance connections of user；

5) the photovoltaic panel for using light material, can mitigate the weight of panel, while can mitigate and drag significantly The complete vehicle weight of trailer systems；

6) photovoltaic panel in interior rounding state at vertical, can greatly reduce during transportation due to Damage caused by jolting (if photovoltaic panel is laid flat, the cell piece that is easy to cause during pitching inside photovoltaic panel Rupture)

7) wind generator system is combined, relatively quiet power supply is provided for user, substitutes conventional gasoline diesel generation Machine is especially suitable for needing peace and quiet, the environmental demand of low noise；

It 8) can whenever and wherever possible be battery electric power storage in the photovoltaic module of top setting, it is ensured that battery will not be died of hunger.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is the front perspective view of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model；

Fig. 2 is the rear perspective view of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model；

Fig. 3 is that removable off-network electrification energy storage power supply system provided by the embodiment of the utility model has external wind power generation The front perspective view of component；

Fig. 4 is removable off-network electrification energy storage power supply system provided by the embodiment of the utility model with internal wind energy hair The front perspective view of electrical component；

Fig. 5 is the photovoltaic module of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model in carriage body Interior status diagram；

Fig. 6 is the photovoltaic module expansion shape of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model State schematic diagram；

Fig. 7 is the outside photovoltaic plate support of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model Open preceding status diagram；

Fig. 8 is the outside photovoltaic plate support of removable off-network electrification energy storage power supply system provided by the embodiment of the utility model Open rear status diagram.

Wherein, appended drawing reference are as follows: 1- solar photovoltaic assembly, 11- photovoltaic panel, 12- big roller, 13- trundle, 14- Hinge, 2- vehicle frame, 21- towing mechanism, 211- brake gear, 22- damping, 23- turn signal and/or brake warning lamp, 31- Wheel, 32- carriage body, 321- heat release hole, 322- display, 41- rotate door, clamshell doors after 42-, 51- the first photovoltaic plate, 52- Second photovoltaic plate, 53- support rod, 6- wind-power electricity generation component, 61- flabellum, 62- generator, 63- telescopic rod, 64- wind-force component Cover board, 71- hanging beam, 72- ball, 73- suspension springs, 74- guide rail, 75- cable ring.

Specific embodiment

In order to make those skilled in the art better understand the scheme of the utility model, below in conjunction with the utility model reality The attached drawing in example is applied, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of the utility model a part, instead of all the embodiments.Based on the reality in the utility model Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts is all answered When the range for belonging to the utility model protection.

It should be noted that the specification and claims of the utility model and term " first " in above-mentioned attached drawing, " second " etc. is to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that in this way The data used are interchangeable under appropriate circumstances, so that the embodiments of the present invention described herein can be in addition at this In illustrate or description those of other than sequence implement.In addition, term " includes " and " having " and their any deformation, meaning Figure be to cover it is non-exclusive include, for example, containing the process, method of a series of steps or units, device, product or equipment Those of be not necessarily limited to be clearly listed step or unit, but may include be not clearly listed or for these processes, The intrinsic other step or units of method, product or equipment.

Embodiment 1

In one embodiment of the utility model, a kind of removable off-network electrification energy storage power supply system is provided, referring to Fig. 1, including towed vehicle, solar photovoltaic assembly 1, power-supply system and control system, the towed vehicle include the vehicle for pulling Frame 2, the wheel 31 for driving vehicle frame 2 mobile and the carriage body 32 being arranged on the vehicle frame 2, the side setting of the carriage body 32 There is electric controlled door, electric controlled door is additionally provided with display 322 and heat release hole 321, and the display 322 is connect with control system, described Display 322 is used to show directly filling for the power generation information of solar photovoltaic assembly 1, the storage information of power-supply system and control system The power information of load.In a preferred embodiment, the surface of the carriage body 32 is additionally provided with electric-controlled switch, emergency stop switch, insert row And protective cover；The electric-controlled switch is for controlling power supply output；The emergency stop switch is for closing all power supplys when causing danger Disengaging；The insert row is for drawing power supply；The protective cover is for preventing the electric-controlled switch, emergency stop switch, insert row Water and insulation protection.

The vehicle frame 2 includes towing mechanism 21, and the towing mechanism 21 is used to cooperate with automobile tail, the towing mechanism 21 include brake gear 211, and the brake gear 211 is connect with automobile brake system, and is cooperated with the axle of the wheel 31, The brake gear 211 is used for while braking automobile, is braked to the towed vehicle；The vehicle frame 2 further includes damping The axle of mechanism 22 and vehicle frame frame, the intermediate position of the damping 22 and the wheel 31 cooperates, the damping machine The two sides position of structure 22 and vehicle frame frame cooperate.It is highly preferred that 2 rear portion of vehicle frame is equipped with turn signal and/or brake warning lamp, The connection of the lamp controller of the turn signal and/or brake warning lamp and automobile, the turn signal and/or brake warning lamp and automobile Turn signal and/or brake warning lamp simultaneous display.The control system uses controller and inverter, more preferably, described Control system using control integrated machine for reverse conversion, it is possible to reduce the weight and volume of controller, it is easy for installation, fast.

The control system control the solar photovoltaic assembly 1 power output and power-supply system electric energy input and it is defeated Out, it is preferable that the energy storage for power supply system is provided with multiple multiple voltages and draws port, facilitates the various electric appliances of user while connecting It connects.

The present invention does not limit the driving method of the towed vehicle, for example above-mentioned drives its movement by automobile；Alternatively, institute State towed vehicle itself be equipped with for drive its move driving mechanism, alternatively, the towed vehicle do not have driving mechanism, but It is placed in the compartment of truck or lorry.

Referring to figs. 5 and 6, the solar photovoltaic assembly 1 includes multiple photovoltaic panels 11 being successively rotatablely connected, institute Solar photovoltaic assembly 1 is stated with folded state and unfolded state, in a folded configuration, the solar photovoltaic assembly 1 accommodates Inside the carriage body 32, the photovoltaic panel 11 is holded up and close to adjacent photovoltaic panel 11 (see Fig. 5)；In unfolded state Under, the photovoltaic panel 11 turns to plane, and then all or part of removal carriage body 32 of the solar photovoltaic assembly 1 (see Fig. 6)；The surrounding of the photovoltaic panel 11 has frame encirclement, is connected between adjacent frame using hinge 14, frame two sides It is provided with big roller 12, photovoltaic frame is provided with trundle 13 every a panel, and the setting of trundle 13 exists On the frame or rotary shaft, after solar photovoltaic assembly 1, which folds, to be collapsed, the trundle 13 is located at folded side Frame bottom, the trundle 13 support the photovoltaic panel 11 and its frame, and the big roller 12 is located at the solar energy Photovoltaic frame side, after the solar photovoltaic assembly 1 is unfolded, the big roller 12 supports the photovoltaic panel 11 and its side Frame, 12 top of big roller without departing from the photovoltaic panel 11 upper surface, in the deployed state, the photovoltaic face Plate 11 is moved to outside the carriage body 32, and is in a horizontal state and is arranged successively.

Using the photovoltaic panel of light material, the weight of panel can be mitigated significantly, while can mitigate and pull The complete vehicle weight of vehicle system, in the alternative embodiment of the utility model, the photovoltaic panel 11 of the solar photovoltaic assembly 1 by PC, PET, ETFE or FEP material are made, and the density of the photovoltaic panel 11 is less than or equal to 1.8g/cm³。

In a preferred embodiment of the utility model, the towed vehicle is provided with mobile system, the mobile system The back-and-forth motion for controlling towed vehicle, when photovoltaic module expansion, the mobile system pushes the vehicle wheel rotation, whole system The direction being unfolded to photovoltaic module is mobile；When photovoltaic module collapses, the mobile system pushes the wheel direction rotation, The direction that whole system is collapsed to photovoltaic module is mobile, and further, the mobile system can be set inside towed vehicle, It can be pushed using external tractor.

In order to the solar photovoltaic assembly 1 is unfolded from carriage body 32 in an orderly manner, or withdrawn into carriage body 32, it is described Photovoltaic component frame be additionally provided with suspension springs 73 and cable ring 75, as shown in figure 5, being provided on the inner sidewall of the carriage body 32 Hanging beam 71 and guide rail 74, the hanging beam 71 are used to hang the suspension springs 73 on the photovoltaic component frame, twine on cable disk Around cable sequentially pass through multiple photovoltaic panels 11 frame on cable ring: it is when releasing the cable line on cable disk, then described Suspension springs are slided along guide rail 74, and each photovoltaic panel 11 is slided by trundle 13 under vertical state is changed into the big rolling of horizontality Wheel 12 slides；The inverse process of the above process is the shape for putting the cable line (cable line is entangled to cable disk) on tightening cable disk State.In order to reduce the friction between suspension springs 73 and hanging beam 71, in a preferred embodiment, the hanging beam 71 with Ball 72 is set on the contact surface of suspension springs 73, is conducive to improve in this way during solar photovoltaic assembly 1 unfolds and folds User's operation convenient degree.Briquetting is additionally provided with above hanging beam 71 on the inner sidewall of the carriage body 32, the suspension springs 73 are arranged Between the hanging beam 71 and briquetting, under the pressure position-limiting action of the briquetting, the photovoltaic panel 11 is effectively prevent to exist Towed vehicle walking moves up and down when jolting, it is preferable that the position of the briquetting can up and down adjustment, when solar photovoltaic assembly 1 When folding, is lifted on the briquetting, suspension springs 73 is facilitated to move in hanging beam 71, after completing to collapse folding, the briquetting It moves down to compress the suspension springs 73.

In a preferred embodiment, rotation door 41 is provided on rear side of the carriage body 32, it is described to rotate the following of door 41 Edge can rotate along carriage body 32；Before the solar photovoltaic assembly 1 expansion, the rotation door 41 is to outside carriage body 32 Portion rotates to form slope, so that solar photovoltaic assembly 1 removes along the slope or enter the carriage body 32.It is highly preferred that The rotation door 41 is slope door, and the lower edge of the slope door and the lower part of carriage body 32 are connected by a hinge, the slope door After opening, the upper edge of slope door and ground face contact, it is preferred to use slope door have elongated structure, the elongated structure Including doubling and stretching structure, the length on the slope formed between carriage body 32 and ground is longer, so that the gradient on slope is smaller, has It is passed in and out more stablely conducive to the solar photovoltaic assembly 1 along the slope.

In one embodiment of the utility model, the inside front of the doubling slope door is provided with rear clamshell doors 42, As shown in Fig. 2, the carriage body 32 is formed for solar energy in the state that the doubling slope door and rear clamshell doors 42 are opened It lies prostrate the removal of component 1 or enters the opening of the carriage body 32, in actual use, first open doubling slope door, make to be formed for solar energy Behind the slope that photovoltaic module 1 slides, then clamshell doors 42 after opening, then the solar photovoltaic assembly 1 is unfolded；Conversely, will After the folding of solar photovoltaic assembly 1 collapses in carriage body 32, the rear clamshell doors 42 are closed, doubling slope is then turned off Door.

In another alternative embodiment, the removable off-network electrification energy storage power supply system further includes wind-power electricity generation group Part, the wind-power electricity generation component 6 include flabellum 61 and generator 62, the electric energy of the control system control wind-power electricity generation component 6 Output, the wind-power electricity generation component 6 are arranged inside or outside the carriage body 32, as shown in Figures 3 and 4 respectively:

As shown in figure 3, the outside of carriage body 32 is arranged in the wind-power electricity generation component 6, the wind-power electricity generation component 6 further includes The top of telescopic rod 63 is arranged in telescopic rod 63, the flabellum 61, when needing using wind-power electricity generation, rises the telescopic rod 63, the on the contrary then telescopic rod 63 that lands.

Alternatively, 32 surface of carriage body is also as shown in figure 4, the inboard of carriage body 32 is arranged in the wind-power electricity generation component 6 Equipped with wind-force component cover board 64, after opening wind-force component cover board 64, the flabellum 61 of the wind-power electricity generation component can be visited The carriage body 32 out.

Other than storing the solar photovoltaic assembly 1 of folded state inside carriage body, in another of the utility model In embodiment, as shown in fig. 7, the upper surface of the carriage body 32 is equipped with the first photovoltaic plate 51, on the side surface of the carriage body 32 At least provided with a second photovoltaic plate 52, the first photovoltaic plate 51 and the second photovoltaic plate 52 pass through cable and the control System connection processed, the second photovoltaic plate 52 can rotate relative to the side surface and be maintained at certain angle, join See Fig. 8, it is preferred to use support rod 53 props up the second photovoltaic plate 52, makes the upper surface of the second photovoltaic plate 52 be in Horizontality is connected using damp hinge between the second photovoltaic plate 52 and carriage body 32 certainly, can equally make the second light Lying prostrate plate 52 is in softened state, and therefore, the support setting of support rod 53 is only preferably provided with, and not as unique embodiment.

Obviously, it is practical new without departing from this can to carry out various modification and variations to utility model by those skilled in the art The spirit and scope of type.If in this way, these modifications and variations of the present invention belong to the utility model claims and its Within the scope of equivalent technologies, then the utility model is also intended to including these modification and variations.

The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

Claims (12)

1. a kind of removable off-network electrification energy storage power supply system, which is characterized in that including towed vehicle, solar photovoltaic assembly (1), Power-supply system and control system, the towed vehicle include the vehicle frame (2) for pulling, the wheel for driving vehicle frame (2) mobile (31) and carriage body (32) on the vehicle frame (2) is set；

The solar photovoltaic assembly (1) includes multiple photovoltaic panels (11) being successively rotatablely connected, the photovoltaic group Part (1) has folded state and unfolded state, and in a folded configuration, the solar photovoltaic assembly (1) is placed in the carriage body (32) internal, the photovoltaic panel (11) holds up and close to adjacent photovoltaic panel (11)；In the deployed state, the solar energy Photovoltaic module (1) completely or partially removes the carriage body (32)；

The control system controls the electric energy input of the power output and power-supply system of the solar photovoltaic assembly (1) and defeated Out.

2. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that vehicle frame (2) packet It includes towing mechanism (21), the towing mechanism (21) is used to cooperate with automobile tail, and the towing mechanism (21) includes brake dress It sets (211), the brake gear (211) connect with automobile brake system, and cooperates with the axle of the wheel (31), the brake Vehicle device (211) is used for while braking automobile, is braked to the towed vehicle；Alternatively,

The towed vehicle is equipped with the driving mechanism for driving it to move.

3. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that after the carriage body (32) Side is provided with rotation door (41), and the lower edge of rotation door (41) can rotate along carriage body (32)；In the sun Before energy photovoltaic module (1) is unfolded, the rotation door (41) forms slope to rotation outside carriage body (32), for photovoltaic Component (1) removes along the slope or enters the carriage body (32).

4. removable off-network electrification energy storage power supply system according to claim 3, which is characterized in that the rotation door (41) For doubling slope door, the lower edge of the doubling slope door and the lower part of carriage body (32) are connected by a hinge, the doubling slope After door is opened, the upper edge of the doubling slope door and ground face contact.

5. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that the carriage body (32) Upper surface is equipped with the first photovoltaic plate (51), and the first photovoltaic plate (51) is connect by cable with the control system.

6. removable off-network electrification energy storage power supply system according to claim 5, which is characterized in that the carriage body (32) At least provided with a second photovoltaic plate (52) on side surface, the second photovoltaic plate (52) can be relative to the side surface It rotates and is maintained at certain angle, the second photovoltaic plate (52) is connect by cable with the control system.

7. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that the vehicle frame (2) is also Including damping (22) and vehicle frame frame, the intermediate position of the damping (22) and the axle of the wheel (31) are matched It closes, the two sides position of the damping (22) and vehicle frame frame cooperate.

8. removable off-network electrification energy storage power supply system according to claim 2, which is characterized in that after the vehicle frame (2) Portion is equipped with turn signal and/or brake warning lamp, the lamp controller connection of the turn signal and/or brake warning lamp and automobile, institute State the turn signal and/or brake warning lamp simultaneous display of turn signal and/or brake warning lamp and automobile.

9. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that the carriage body (32) Surface is equipped with one or more heat release holes (321)；And/or

The surface of the carriage body (32) is equipped with display (322), electric-controlled switch, emergency stop switch, insert row and protective cover, the display Device (322) is connect with control system, and the display (322) is used to show power generation information, the power supply of solar photovoltaic assembly (1) The storage information of system and the power information for directly filling load of control system；The electric-controlled switch is for controlling power supply output；Institute Emergency stop switch is stated for closing all power supply disengaging when causing danger；The insert row is for drawing power supply；The protective cover is used In to the electric-controlled switch, emergency stop switch, insert row progress waterproof and insulate protection.

10. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that further include wind-force hair Electrical component (6), the wind-power electricity generation component include flabellum (61) and generator (62), and the wind generator system is arranged described Carriage body (32) is internal or external, the power output of the control system control wind-power electricity generation component.

11. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that the solar energy The photovoltaic panel (11) of volt component (1) is made of PC, PET, ETFE or FEP material, and the density of the photovoltaic panel (11) is less than Equal to 1.8g/cm³。

12. removable off-network electrification energy storage power supply system according to claim 1, which is characterized in that the photovoltaic panel (11) periphery is equipped with frame, is connected between the frame of adjacent photovoltaic panel (11) by hinge or flexible material；

It is additionally provided with support wheel on the frame of the photovoltaic panel (11), in a folded configuration, the support wheel supports the photovoltaic Panel (11) and its frame；In the deployed state, it is external to be moved to the carriage body (32) for the photovoltaic panel (11), and in level State is arranged successively.