CN212243617U - Solar power generation vehicle - Google Patents

Abstract

The utility model provides a solar power generation car, solar power generation car includes: a vehicle body having a mobile structure; the supporting frame is arranged on the vehicle body and has a folding state and an extending state; the solar component is arranged on the support frame and is folded and extended along with the support frame. The embodiment of the utility model provides a can solve the poor problem of current solar equipment mobility.

Description

Solar power generation vehicle

Technical Field

The utility model relates to a solar energy power generation technical field, in particular to solar power generation car.

Background

The existing solar power generation equipment cannot be moved generally, and is difficult to function under the emergency condition of lacking commercial power outdoors, so that the application of the solar power generation equipment is limited.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a solar power generation car has solved the relatively poor problem of current solar power system mobility.

In order to achieve the above object, the embodiment of the utility model provides a solar electric vehicle, solar electric vehicle includes:

a vehicle body having a mobile structure;

the supporting frame is arranged on the vehicle body and has a folding state and an extending state;

the solar component is arranged on the support frame and is folded and extended along with the support frame.

Optionally, the support frame includes a first support portion and a second support portion, and the first support portion and the second support portion are rotatably connected; and the first supporting part and the second supporting part are respectively provided with a solar component.

Optionally, the support frame includes support and first telescopic link, first supporting part sets up on the support, the one end of first telescopic link with leg joint, the other end with the second supporting part is connected.

Optionally, the support frame includes a third support portion, and the third support portion and the second support portion are disposed on opposite sides of the first support portion;

the third supporting part is rotatably connected with the first supporting part.

Optionally, the support frame includes support and second telescopic link, first supporting part sets up on the support, the one end of second telescopic link with leg joint, the other end with the third supporting part is connected.

Optionally, the bracket includes a vertical column and a second supporting rod, the first supporting portion is mounted on the vertical column, one end of the second supporting rod is fixedly connected to the first supporting portion, and the other end of the second supporting rod extends in a direction away from the solar module;

one end of the second telescopic rod is connected with the second support rod, and the other end of the second telescopic rod is connected with the second support part.

Optionally, the bracket includes a vertical column and a first support rod, the first support rod is mounted on the vertical column, one end of the first support rod is fixedly connected to the first support part, and the other end of the first support rod extends in a direction away from the solar module;

one end of the first telescopic rod is connected with the first support rod, and the other end of the first telescopic rod is connected with the second support part.

Optionally, the support includes a pillar, the pillar includes an upper pillar and a lower pillar, one end of the lower pillar is connected to the vehicle body, and the other end of the lower pillar is rotatably connected to the upper pillar;

the first support portion is provided on the upper pillar, and is rotatable with respect to the vehicle body along with rotation of the upper pillar.

Optionally, the support includes a third support rod and a third telescopic rod, one end of the third support rod is fixedly connected to the upper column, and the other end of the third support rod extends in a direction away from the upper column;

one end of the third telescopic rod is connected with the third support rod, and the other end of the third telescopic rod is connected with the first support part.

Optionally, the solar power generation vehicle comprises an anemoscope, the anemoscope is arranged on the support frame, and the anemoscope is electrically connected with a controller component of the solar power generation vehicle; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises a photosensitive sensor, the photosensitive sensor is arranged on the support frame, and the photosensitive sensor is electrically connected with a controller component of the solar power generation vehicle; and/or the presence of a gas in the gas,

the moving structure comprises a wheel; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises retractable and/or foldable fixed supporting legs, and the fixed supporting legs are arranged on one side of the vehicle body, back to the supporting frame; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises a traction frame, and the traction frame is arranged on the vehicle body; and/or the presence of a gas in the gas,

the solar assembly comprises a solar electric plate, and the solar electric plate is detachably mounted on the support frame.

One of the above technical solutions has the following advantages or beneficial effects:

in the embodiment of the utility model, through setting up the mobile structure on the automobile body, make the automobile body itself or under the traction of external structure, can move to the position that needs fast, provide the electric energy for the consumer, especially under the circumstances that does not have the commercial power, can be regarded as the emergency equipment, improved the use scene of solar power system, improved the suitability of solar power system, help the popularization of solar power system; simultaneously, because the installing support can be folded and extend for solar module that sets up above that also can fold thereupon and extend, under the state of extending, can increase solar module by a wide margin and improve the energy conversion volume in the effective area of predetermineeing the direction, under fold condition, can be by a wide margin reduce solar module in the area of predetermineeing the direction, when reducing the resistance of marcing, avoid solar module and external object to collide, be favorable to solar power generation car stable, quick marcing.

Drawings

Fig. 1 is a structural diagram of a solar power generation vehicle according to an embodiment of the present invention;

fig. 2 is a structural diagram of a solar power generation vehicle according to another embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 4 is a structural diagram of the folded solar power generation vehicle provided by the embodiment of the present invention;

fig. 5 is a structural diagram of the extended solar power generation car provided by the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-5, an embodiment of the present invention provides a solar power generation vehicle, which includes: a vehicle body 100, the vehicle body 100 having a moving structure;

a support frame 200, wherein the support frame 200 is arranged on the vehicle body 100, and the support frame 200 has a folded state and an extended state;

a solar module 300, wherein the solar module 300 is mounted on the support frame 200 and folded and extended along with the support frame 200.

Specifically, in the present embodiment, the vehicle body 100 includes a vehicle body 110 and a moving structure provided at a bottom of the vehicle body 110, and the moving structure is used for movement of the vehicle body 100. The moving structure may include wheels 120, and the wheels 120 may be driven by a driving mechanism carried by the vehicle body 100 itself or may be externally driven and towed. Of course, in some embodiments, the moving structure may also be other structures, such as a magnetic moving structure, and the like. Through the arrangement of the moving structure, the vehicle body 100 can be moved outdoors according to requirements. The solar module 300 is used for converting solar energy into electric energy, and can be stored or directly output to electric equipment. Taking the solar module 300 including a solar panel, a capacitor, a transformer, etc., as an example, the solar panel stores the converted electric energy in the capacitor, and outputs rated electric energy through the transformer. The solar panels can comprise a plurality of solar panels, and adjacent solar panels are separated from each other by gaps.

The form of the stand 200 can be various, such as flip folding, deflection folding, etc., that is, the connection position of the two folding parts can be a pivot joint or a point hinge joint. In the folded state, the effective area of the supporting frame 200 in the preset direction is reduced, and in the extended state, the effective area of the supporting frame 200 in the preset direction is increased. Since the solar module 300 is disposed on the supporting frame 200 and is folded along with the folding of the supporting frame 200, and is extended along with the extension of the supporting frame 200, the effective area of the solar module 300 in the predetermined direction is also reduced or enlarged.

In this embodiment, the moving structure is arranged on the vehicle body 100, so that the vehicle body 100 itself or under the traction of an external structure can be quickly moved to a required position to provide electric energy for the electric equipment, and particularly can be used as emergency equipment under the condition of no commercial power, thereby improving the use scene of the solar power generation equipment, improving the applicability of the solar power generation equipment, and being beneficial to the popularization of the solar power generation equipment; meanwhile, because the mounting bracket can be folded and extended, the solar module 300 arranged on the mounting bracket can also be folded and extended along with the mounting bracket, under the extension state, the effective area of the solar module 300 in the preset direction can be greatly increased, the energy conversion amount is increased, under the folding state, the area of the solar module 300 in the preset direction can be greatly reduced, the running resistance is reduced, meanwhile, the collision between the solar module 300 and an external object is avoided, and the solar power generation vehicle is favorable for stable and quick running.

In some embodiments, the solar power generation vehicle further comprises a driving structure 290 capable of controlling the folding and the extending of the supporting frame 200, and different driving structures, such as a cylinder drive, a hydraulic cylinder drive, etc., can be provided according to the specific folding and extending structure.

In some embodiments, in order to improve the folding convenience of the support stand 200, the support stand 200 includes a first support part 210 and a second support part 220, and the first support part 210 and the second support part 220 are rotatably connected; be provided with solar energy component 300 on first supporting part 210 and the second supporting part 220 respectively, the contained angle between first supporting part 210 and the second supporting part 220 is 0 ~ 180 degree. For example, in the extended state, the first supporting portion 210 and the second supporting portion 220 are disposed in parallel, and the included angle between the two is 0 degree, and the panel surface of the solar panel is upward. In the folded state, the first supporting portion 210 and the second supporting portion 220 are perpendicular to each other, and an included angle between the two is 90 degrees, and of course, an included angle between the solar modules 300 on the first supporting portion 210 and the second supporting portion 220 may also be 90 degrees; in the folded state, the first supporting portion 210 and the second supporting portion 220 may also be disposed in parallel, and an included angle between the two is 180 degrees, at this time, the solar module 300 on the first supporting portion 210 faces upward, and the solar module 300 on the second supporting portion 220 faces downward. The rotational connection between the first supporting portion 210 and the second supporting portion 220 can be in many forms, such as a pivot connection. The second supporting portion 220 is rotatably connected to the second supporting portion 220, so that the supporting frame 200 can be smoothly and conveniently rotated and folded by using a pivot shaft at the joint of the first supporting portion 210 and the second supporting portion 220 as a rotating shaft.

In some embodiments, in order to improve flexibility of adjusting an included angle between the first supporting portion 210 and the second supporting portion 220, the supporting frame 200 includes a bracket and a first telescopic rod 221, the first supporting portion 210 is disposed on the bracket, one end of the first telescopic rod 221 is connected to the bracket, and the other end of the first telescopic rod is connected to the second supporting portion 220. The length of the first telescopic rod 221 can be adjusted in many ways, for example, there are a plurality of matching positions between the two, and taking the telescopic rod comprising a loop bar and a loop bar as an example, the stepped adjustment is realized, and the two can also be adjusted by a hydraulic rod or a pneumatic rod, so that the stepless adjustment is realized. When the first telescopic rod 221 is contracted, the first supporting part 210 is fixed, and the second supporting part 220 is rotated and folded relative to the first supporting part 210; when the first extension rod 221 extends, the second support part 220 rotates relative to the first support part 210 to realize the unfolding. Through the regulation of first telescopic link 221, the contained angle between second supporting part 220 and the first supporting part 210 can be adjusted to make solar power generation car reliably travel and the generating efficiency can have multiple balanced relation at the in-process of marcing, with the generating efficiency of improvement solar power generation car at the in-process of marcing.

In some embodiments, in order to improve the power generation efficiency of the solar power generation vehicle and simultaneously improve the space utilization rate of the solar power generation vehicle, the support frame 200 includes a third support part 230, and the third support part 230 and the second support part 220 are disposed at two opposite sides of the first support part 210; the third support part 230 is rotatably coupled to the first support part 210.

The included angle between the first supporting portion 210 and the third supporting portion 230 is 0-180 degrees. For example, in the extended state, the first supporting portion 210 and the third supporting portion 230 are disposed in parallel, and the included angle between the first supporting portion and the third supporting portion is 0 degree, and the panel surface of the solar panel is upward. In the folded state, the first supporting portion 210 and the third supporting portion 230 are perpendicular to each other, and an included angle between the first supporting portion 210 and the third supporting portion 230 is 90 degrees, and of course, an included angle between the solar modules 300 on the first supporting portion 210 and the third supporting portion 230 may also be 90 degrees; in the folded state, the first support part 210 and the third support part 230 may also be disposed in parallel, and an included angle between the two is 180 degrees, at this time, the solar module 300 on the first support part 210 faces upward, and the solar module 300 on the third support part 230 faces downward. The rotational connection between the first supporting portion 210 and the third supporting portion 230 can be in many forms, such as a pivot connection. The third supporting portion 230 and the third supporting portion 230 are rotatably connected, so that the supporting frame 200 can be smoothly and conveniently rotated and folded by using a pivot shaft at the connection position of the first supporting portion 210 and the third supporting portion 230 as a rotating shaft.

In some embodiments, in order to improve flexibility of adjusting an included angle between the first supporting portion 210 and the third supporting portion 230, the supporting frame 200 includes a bracket and a second telescopic rod 231, the first supporting portion 210 is disposed on the bracket, one end of the second telescopic rod 231 is connected to the bracket, and the other end is connected to the third supporting portion 230. The length adjustment mode of the second telescopic rod 231 can be various, for example, a plurality of matching positions are arranged between the two, so that stepped adjustment is realized, and the two can also be adjusted through a hydraulic rod or a pneumatic rod, so that stepless adjustment is realized. When the second telescopic rod 231 is contracted, the first support part 210 is fixed, and the third support part 230 is rotatably folded relative to the first support part 210; when the second telescopic rod 231 is extended, the third supporting part 230 is rotated relative to the first supporting part 210 to be unfolded. Through the regulation of second telescopic link 231, the contained angle between third supporting part 230 and the first supporting part 210 can be adjusted to make solar power generation car reliably travel and the generating efficiency can have multiple balanced relation at the in-process of marcing, with the generating efficiency of improvement solar power generation car at the in-process of marcing.

In some embodiments, in order to provide a better expansion angle for the first expansion link 221 and the second expansion link 231, the reliability of the first expansion link 221 and the second expansion link 231 during the working process is improved, and the load during the working process is reduced. The bracket comprises a vertical column and a first support rod 222, the first support part 210 is mounted on the vertical column, one end of the first support rod 222 is fixedly connected with the first support part 210, and the other end extends in the direction far away from the solar module 300; one end of the first extension rod 221 is connected to the first support rod 222, and the other end is connected to the second support portion 220. The bracket comprises a vertical column and a second support rod 232, the first support part 210 is mounted on the vertical column, one end of the second support rod 232 is fixedly connected with the first support part 210, and the other end extends in the direction far away from the solar module 300; one end of the second telescopic rod 231 is connected to the second support rod 232, and the other end is connected to the second support part 220.

In this embodiment, one end of the first support rod 222 is fixedly connected to the first support portion 210, and the other end extends in a direction away from the first support portion 210, and one end of the first expansion link 221 is disposed on the first support rod 222, for example, the end of the first expansion link 222 away from the first support portion 210 is connected to the first support rod 222, so that the support position of the first expansion link 221 can be set as required. That is, the connection position of the first expansion link 221 to the first support rod 222 can be selected according to the requirement, so that the first expansion link 221 has a labor-saving and reasonable connection position, and the reliability of the use of the first expansion link 221 is improved. One end of the first extension rod 221 is hinged to the first support rod 222, and the other end is hinged to the first support portion 210, so that the flexibility of extension and contraction of the first extension rod 221 can be greatly improved.

Similarly, one end of the second support rod 232 is fixedly connected to the first support portion 210, the other end extends in a direction away from the first support portion 210, and one end of the second telescopic rod 231 is disposed on the second support rod 232, for example, by being connected to one end of the second support rod 232 away from the first support portion 210, so that the support position of the second telescopic rod 231 can be set as required. That is, the connection position of the second expansion link 231 at the second stay 232 can be selected according to the requirement, so that the second expansion link 231 has a labor-saving and reasonable connection position, and the use reliability of the second expansion link 231 is improved. One end of the second telescopic rod 231 is hinged to the second support rod 232, and the other end is hinged to the first support portion 210, so that the flexibility of extension and contraction of the second telescopic rod 231 can be greatly improved.

In some embodiments, in order to facilitate the adjustment of the orientation (circumferential rotation around the solar module 300), the bracket includes a vertical column, the vertical column includes an upper vertical column 610 and a lower vertical column 620, one end of the lower vertical column 620 is connected to the vehicle body 100, and the other end is rotatably connected to the upper vertical column 610; the first support portion 210 is provided on the upper pillar 610 and is rotatable with respect to the vehicle body 100 in accordance with the rotation of the upper pillar 610. The upper column 610 and the lower column 620 may be connected in a rotating manner, for example, they may be connected in a rotating manner by a bearing fit, or may be sleeved. The rotation of the upper column 610 can be manually realized, and a corresponding driving mechanism can also be arranged. The driving mechanism may include a driving motor, a transmission mechanism 630, and the like, the driving motor is connected to a main control circuit of the solar power generation vehicle, and the rotation angle of the driving motor is controlled by the main control circuit. The transmission mechanism 630 may be a gear transmission, and the transmission ratio between the driving gear and the driven gear can be adjusted by setting the number of teeth and the diameter between the driving gear and the driven gear. The gear transmission can obtain a very accurate transmission ratio, so that the circumferential deflection angle of the solar module 300 is very accurate.

In some embodiments, in order to facilitate adjustment of the pitch angle (vertical deflection) of the solar module 300, the bracket includes a third supporting rod 710 and a third telescopic rod 720, one end of the third supporting rod 710 is fixedly connected to the upper vertical column 610, and the other end extends away from the upper vertical column 610; one end of the third telescopic rod 720 is connected to the third supporting rod 710, and the other end is connected to the first supporting portion 210. In this embodiment, since one end of the third supporting rod 710 is connected to the upper column 610, the third supporting rod 710 rotates along with the rotation of the upper column 610, so that the third telescopic rod 720 also rotates along with the rotation. In this way, the pitch angle adjustment and the yaw angle adjustment of the solar module 300 are independent from each other, and the final orientation of the solar module 300 is commonly perceived.

The length of the third telescopic rod 720 can be adjusted in many ways, for example, the telescopic rod comprises a sleeve rod and a sleeved rod, and if there are a plurality of matching positions between the two, stepped adjustment is realized, and the two can also be adjusted by a hydraulic rod or a pneumatic rod, so that stepless adjustment is realized. The middle portion of the first supporting portion 210 is rotatably connected to the upper column 610, and one end of the third telescopic rod 720 is hinged to one side of the first supporting portion 210. When the third telescopic rod 720 is retracted, the included angle between the first supporting part 210 and the horizontal plane is gradually reduced and tends to be horizontal; when the third telescopic rod 720 is extended, the elevation angle of the first supporting portion 210 is increased, and the included angle between the first supporting portion 210 and the horizontal plane is increased. Through the adjustment of the third telescopic rod 720, the pitching angle of the first supporting part 210 can be adjusted at will between 0 and 90 degrees, so that the pitching angle of the solar module 300 can be adjusted at will, and the solar module 300 can absorb and utilize sunlight.

In some embodiments, to further improve the overall performance and convenience of use of the solar power generation vehicle, the solar power generation vehicle comprises an anemometer 500, the anemometer 500 is disposed on the support frame 200, and the anemometer 500 is electrically connected to the controller assembly 160 of the solar power generation vehicle; and/or the solar power generation vehicle comprises a photosensitive sensor 350, the photosensitive sensor 350 is arranged on the support frame 200, and the photosensitive sensor 350 is electrically connected with the controller assembly 160 of the solar power generation vehicle; and/or, the moving structure comprises wheels 120; and/or the solar power generation vehicle comprises a telescopic and/or foldable fixed supporting foot 130, wherein the fixed supporting foot 130 is arranged on one side of the vehicle body 100, which is back to the supporting frame 200; and/or the solar power generation vehicle comprises a traction frame 150, wherein the traction frame 150 is arranged on the vehicle body 100; and/or, the solar module 300 comprises a solar electric panel which is detachably mounted on the support frame 200.

The following description will be made separately. When the solar power generation vehicle comprises the anemoscope 500, the anemoscope 500 can measure the current wind speed, when the current wind speed is determined to be higher than the preset risk wind speed, the anemoscope 500 sends the detected data to the controller component 160, and the controller component 160 adjusts the extension state of the support frame 200 according to the wind condition, so that the purpose of avoiding risks and fully utilizing sunlight for power generation is achieved. It should be noted that different wind speeds can correspond to different degrees of contraction, i.e., the degree of contraction of the first telescopic rod 221 and the second telescopic rod 231.

When the solar power generation vehicle comprises the photosensitive sensor 350, the photosensitive sensor 350 can sense the intensity of light so as to sense the direction of the sun, the photosensitive sensor 350 sends detected data to the controller component 160, the controller component 160 adjusts the deflection angle of the support frame 200 according to the acquired data, the deflection angle comprises circumferential deflection angles around, and also comprises a pitch angle for vertical deflection, and therefore the solar component 300 faces the direction with the strongest light intensity at any time.

When the solar power generation vehicle comprises the retractable and/or foldable fixed supporting feet 130, the fixed supporting feet 130 are arranged on the side of the vehicle body 100 opposite to the supporting frame 200. Through the arrangement of the fixed supporting legs 130, when the solar power generation vehicle needs to stop moving and supply power, the fixed supporting legs 130 are put down to be supported with the ground, so that the purpose of stabilizing the solar power generation vehicle is achieved. The solar power generation vehicle is prevented from moving, and the power supply safety of the solar power generation vehicle is improved.

When the solar power generation vehicle comprises the traction frame 150, the traction frame 150 is arranged on the vehicle body 100, so that the solar power generation vehicle can be dragged by other vehicles or equipment through the traction frame 150 without being driven by the vehicle. The structure of the solar power generation vehicle is simplified, and the production efficiency is improved.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A solar power cart, comprising:

a vehicle body having a mobile structure;

the supporting frame is arranged on the vehicle body and has a folding state and an extending state;

the solar component is arranged on the support frame and is folded and extended along with the support frame.

2. A solar power generation vehicle as defined in claim 1, wherein the support frame includes a first support portion and a second support portion, the first and second support portions being rotatably connected; and the first supporting part and the second supporting part are respectively provided with a solar component.

3. The solar power generation vehicle of claim 2, wherein the support frame comprises a bracket and a first telescopic rod, the first support portion is disposed on the bracket, one end of the first telescopic rod is connected with the bracket, and the other end of the first telescopic rod is connected with the second support portion.

4. A solar power generation vehicle as defined in claim 3, wherein the support frame includes a third support portion, the third and second support portions being disposed on opposite sides of the first support portion;

the third supporting part is rotatably connected with the first supporting part.

5. The solar power generation vehicle of claim 4, wherein the support frame comprises a bracket and a second telescopic rod, the first support portion is disposed on the bracket, one end of the second telescopic rod is connected with the bracket, and the other end of the second telescopic rod is connected with the third support portion.

6. A solar power generation vehicle as claimed in claim 5, wherein the support comprises a vertical column and a second supporting rod, the first supporting part is mounted on the vertical column, one end of the second supporting rod is fixedly connected with the first supporting part, and the other end of the second supporting rod extends in a direction away from the solar module;

one end of the second telescopic rod is connected with the second support rod, and the other end of the second telescopic rod is connected with the second support part.

7. A solar power generation vehicle as defined in claim 3, wherein the support includes a vertical column and a first support bar, the first support bar is mounted on the vertical column, one end of the first support bar is fixedly connected to the first support bar, and the other end of the first support bar extends in a direction away from the solar module;

one end of the first telescopic rod is connected with the first support rod, and the other end of the first telescopic rod is connected with the second support part.

8. The solar power generation vehicle of claim 3, wherein the support comprises a vertical column, the vertical column comprises an upper vertical column and a lower vertical column, one end of the lower vertical column is connected with the vehicle body, and the other end of the lower vertical column is rotatably connected with the upper vertical column;

the first support portion is provided on the upper pillar, and is rotatable with respect to the vehicle body along with rotation of the upper pillar.

9. The solar power generation vehicle of claim 8, wherein the support comprises a third stay bar and a third telescopic bar, one end of the third stay bar is fixedly connected with the upper upright, and the other end of the third stay bar extends away from the upper upright;

one end of the third telescopic rod is connected with the third support rod, and the other end of the third telescopic rod is connected with the first support part.

10. The solar power cart of claim 1, comprising an anemometer disposed on the support frame, the anemometer being electrically connected to a controller assembly of the solar power cart; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises a photosensitive sensor, the photosensitive sensor is arranged on the support frame, and the photosensitive sensor is electrically connected with a controller component of the solar power generation vehicle; and/or the presence of a gas in the gas,

the moving structure comprises a wheel; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises retractable and/or foldable fixed supporting legs, and the fixed supporting legs are arranged on one side of the vehicle body, back to the supporting frame; and/or the presence of a gas in the gas,

the solar power generation vehicle comprises a traction frame, and the traction frame is arranged on the vehicle body; and/or the presence of a gas in the gas,

the solar assembly comprises a solar electric plate, and the solar electric plate is detachably mounted on the support frame.

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