CN214942887U - Photovoltaic parking shed - Google Patents

Abstract

The utility model relates to a photovoltaic parking shed. The photovoltaic parking shed comprises at least one photovoltaic shed unit; each photovoltaic shed unit comprises a shed frame which is obliquely arranged and a photovoltaic power generation structure which is obliquely arranged at the top of the shed frame; the bicycle shed frame comprises at least two bicycle shed supporting frames which are arranged on the ground side by side and a bicycle shed top frame arranged at the tops of all the bicycle shed supporting frames; photovoltaic power generation structure is including evenly laying in polylith photovoltaic glass subassembly on the bicycle shed roof frame, and with the polylith photovoltaic battery that the equal electricity of photovoltaic glass subassembly is connected. The utility model discloses can solve among the correlation technique when the vehicle stops in the parking area on the ground, expose completely under the sunshine, or in the rainwater, use the comfort to the vehicle and have great influence, also have the problem of certain influence to the life-span of the extremely spare part of vehicle.

Description

Photovoltaic parking shed

Technical Field

The utility model relates to a parking equipment technical field, in particular to photovoltaic parking shed.

Background

Along with the improvement of living standard, the vehicle is more and more, has greatly made things convenient for people's trip. However, as vehicles are more and more, the problem of difficult parking is more and more prominent. In order to alleviate the problem of difficult parking, people have built a large number of underground parking lots and overground parking lots. However, in general ground parking lots, vehicles are often completely exposed to the sun or rain, which greatly affects the comfort of use of the vehicles and also has a certain effect on the life of the vehicles and parts.

SUMMERY OF THE UTILITY MODEL

The utility model provides a photovoltaic parking shed can solve among the correlation technique vehicle and when stopping in the parking area on the ground, expose completely under the sunshine or in the rainwater, uses the comfort to the vehicle and has great influence, also has the problem of certain influence to the life-span of the extremely spare part of vehicle.

The utility model provides a photovoltaic parking shed, include:

at least one photovoltaic shed unit;

each photovoltaic shed unit comprises a shed frame which is obliquely arranged and a photovoltaic power generation structure which is arranged at the top of the shed frame;

the bicycle shed frame comprises at least two bicycle shed supporting frames which are arranged on the ground side by side and a bicycle shed top frame which is obliquely arranged at the tops of all the bicycle shed supporting frames;

photovoltaic power generation structure is including evenly laying in polylith photovoltaic glass subassembly on the bicycle shed roof frame, and with the polylith photovoltaic battery that the equal electricity of photovoltaic glass subassembly is connected.

In some embodiments, the photovoltaic shed comprises two photovoltaic shed units which are arranged obliquely relative to each other, and a drainage ditch structure connected between the two photovoltaic shed units.

In some embodiments, the carport support frame comprises a carport support base for being installed on the ground, and a first support column and a second support column respectively obliquely arranged on two sides of the carport support base, wherein the top end of the first support column is connected to one side of the carport top frame, the top end of the second support column is connected to the other side of the carport top frame, and the height value of the first support column perpendicular to the horizontal plane is greater than the height value of the second support column perpendicular to the horizontal plane.

In some embodiments, the carport support base comprises a base plate for being installed on the ground, and an inner reinforcing plate and an outer reinforcing plate provided on the base plate, the first support column and the second support column are both fixedly arranged on the base plate, the inner reinforcing plate is connected between the inner side of the first support column and the inner side of the second support column, and the outer reinforcing plate is connected to the outer side of the first support column or the outer side of the second support column.

In some embodiments, a line connecting the top end of the first support column and the top end of the second support column forms an angle of 8-10 ° with a horizontal plane.

In some embodiments, a connecting top plate is connected to both the top end of the first supporting column and the top end of the second supporting column, and the connecting top plate is connected to the roof frame.

In some embodiments, the roof frame comprises at least two roof frame cross beams horizontally arranged side by side and a plurality of roof frame longitudinal beams horizontally arranged side by side on the roof frame cross beams, the top of the roof support frame is connected to the roof frame cross beams and/or the roof frame longitudinal beams, and a plurality of photovoltaic glass assemblies are arranged on the plurality of roof frame longitudinal beams.

In some embodiments, a plurality of mounting grooves are formed between the top frame longitudinal beams, and a plurality of photovoltaic glass components are embedded in the mounting grooves.

In some embodiments, two adjacent top frame longitudinal beams are respectively provided with opposite clamping grooves, and two sides of the photovoltaic glass assembly are respectively clamped in the clamping grooves of the two top frame longitudinal beams in a one-to-one correspondence manner;

and a plurality of photovoltaic glass assemblies are clamped between two adjacent top frame longitudinal beams, and a waterproof sealing purline is arranged between two adjacent photovoltaic glass assemblies.

In some embodiments, the top frame cross beam is provided as a C-shaped steel beam, and the top frame longitudinal beam is provided as an aluminum alloy profile beam.

The utility model provides a beneficial effect that technical scheme brought includes:

the utility model provides a photovoltaic parking shed through the bicycle shed frame that a plurality of bicycle shed support frames and bicycle shed top frame formed, supports the polylith photovoltaic glass assembly at the top of locating bicycle shed top frame to form a photovoltaic parking shed. This photovoltaic parking shed not only can keep out the wind, keep out the rain for the vehicle and keep out sunshine, can also utilize photovoltaic glass assembly to absorb sunshine and generate electricity to in storing the photovoltaic battery with the electric energy. Compared with the traditional open parking lot, the open parking lot can less influence the use comfort of the vehicle and can not influence the service life of the vehicle and parts thereof.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of a photovoltaic parking shed according to an embodiment of the present invention;

fig. 2 is a schematic side view of a photovoltaic parking shed according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a photovoltaic shed unit of the photovoltaic parking shed according to the embodiment of the present invention;

fig. 4 is a schematic perspective view of a shed frame of a photovoltaic shed unit of a photovoltaic parking shed according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a shed support frame of a photovoltaic parking shed according to an embodiment of the present invention;

fig. 6 is a front view structure diagram of the shed support frame of the photovoltaic parking shed according to the embodiment of the present invention.

In the figure: 10. a photovoltaic shed unit; 100. a carport support frame; 110. a shed support base; 111. a base plate; 112. an inner reinforcing plate; 114. an outer reinforcing plate; 120. a first support column; 130. a second support column; 140. connecting the top plate; 200. a roof frame of the carport; 210. a top frame beam; 220. a top frame stringer; 300. a photovoltaic glass assembly; 400. a drainage ditch structure.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all 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 to 3, the utility model provides a photovoltaic parking shed, including locating subaerial at least one photovoltaic canopy unit 10, can shelter from wind and rain and sunshine for the vehicle through photovoltaic canopy unit 10, still can absorb sunshine simultaneously and generate electricity.

Furthermore, in some embodiments, the photovoltaic parking shed may include an obliquely disposed photovoltaic shed unit 10. That is, in the present embodiment, the vehicle can be shaded from the sun and rain by one photovoltaic shed unit 10. Furthermore, the length of the photovoltaic shed unit 10 can be made to correspond to the length of the vehicle, so that one photovoltaic shed unit 10 can park a row of vehicles, as required. Moreover, the inside height of the photovoltaic shed unit 10 can be made smaller than the outside height, so that vehicles can conveniently enter and exit the photovoltaic shed unit from the outside.

Furthermore, in other embodiments, the photovoltaic parking shed may include two photovoltaic shed units 10 disposed to be inclined with respect to each other, and a drainage ditch structure 400 connected between the two photovoltaic shed units 10. In this embodiment, the vehicle can be shaded from the sun and rain by two photovoltaic shed units 10 connected together. Also, the length of each photovoltaic shed unit 10 can be made to correspond to the length of a vehicle, as desired, so that each photovoltaic shed unit 20 can park a row of vehicles. Moreover, the height of the inner side of each photovoltaic shed unit 10 can be made smaller than the height of the outer side, so that vehicles can conveniently enter and exit the photovoltaic shed units 10 from the outer sides. Moreover, the insides of the two photovoltaic shed units 10 can be connected together through the drainage ditch structure 400, and the outsides of the two photovoltaic shed units 10 are arranged back to back, so that vehicles can enter and exit from the two sides of the photovoltaic parking shed. Also, in rainy weather, the water flow at the top of the photovoltaic shed unit 10 may flow into the drain structure 400 along an inclined plane, and the rainwater is discharged through the drain structure 400.

In addition, in other embodiments, the photovoltaic parking shed may include a plurality of photovoltaic shed units 10 connected in sequence, so as to form a photovoltaic parking shed with a larger area. In addition, the plurality of photovoltaic shed units 10 may be arranged back to back in pairs, i.e., the higher outer sides of two adjacent photovoltaic shed units 10 are back to back and the lower inner sides are close to each other; two adjacent photovoltaic shed units 10 can also be arranged oppositely in pairs, that is, the higher outer sides of the two photovoltaic shed units 10 are close to each other, and the lower inner sides are back to back; two adjacent photovoltaic shed units 10 can also be arranged in sequence in pairs, that is, the higher outer side of one photovoltaic shed unit 10 is close to the lower inner side of the other adjacent photovoltaic shed unit 10; combinations of the above cases may be used.

In addition, the photovoltaic shed unit 10 can be not only obliquely arranged, but also horizontally arranged.

Furthermore, as shown in fig. 4 to 6, for the photovoltaic shed units 10 arranged obliquely, each photovoltaic shed unit 10 may include a shed frame arranged obliquely, and a photovoltaic power generation structure provided on the top of the shed frame. Through setting up the slope of bicycle shed frame for the photovoltaic power generation structure at bicycle shed frame's top also inclines to set up, makes photovoltaic canopy unit 10 wholly be the tilt state setting, not only makes things convenient for the vehicle to pass in and out, and the outward appearance is pleasing to the eye moreover.

Also, the above-mentioned booth frame may include at least two booth support frames 100 for being installed side by side on the ground, and a booth top frame 200 provided at the top of all the booth support frames 100; the photovoltaic power generation structure can comprise a plurality of photovoltaic glass assemblies 300 which are uniformly paved on a roof frame of the bicycle shed and a photovoltaic storage battery which is electrically connected with the photovoltaic glass assemblies 300. The utility model provides a photovoltaic parking shed through the bicycle shed frame that a plurality of bicycle shed support frames 100 and bicycle shed top frame 200 formed, supports the polylith photovoltaic glass assembly 300 of the top of locating bicycle shed top frame 200 to form a photovoltaic parking shed. This photovoltaic parking shed not only can keep out the wind, keep out the rain for the vehicle and keep out sunshine, can also utilize photovoltaic glass assembly 300 to absorb sunshine and generate electricity to in storing the photovoltaic battery with the electric energy. Compared with the traditional open parking lot, the open parking lot can less influence the use comfort of the vehicle and can not influence the service life of the vehicle and parts thereof.

Moreover, two carport support frames 100 may be disposed in one-to-one correspondence on both sides of the bottom of the carport top frame 200, supporting the carport top frame 200 and the photovoltaic glass assembly 300 from both ends; in addition, a plurality of (two or more) roof support frames 100 may be uniformly provided at the bottom of the roof top frame 200 to support the roof top frame 200 and the photovoltaic glass module 300 from a plurality of positions. That is, two or more than two of the carport support frames 100 are provided to support the carport top frame 200 and the photovoltaic glass assembly 300 as required. The specific number of the carport support frames 100 can be determined according to the length of the photovoltaic shed unit 10, that is, the longer the length of the photovoltaic shed unit 10 is, the more the number of the carport support frames 100 is set, and accordingly, the more vehicles can be parked.

Specifically, the carport support frame 100 may include a carport support base 110 configured to be installed on the ground, and a first support column 120 and a second support column 130 respectively disposed at two sides of the carport support base 110 in an inclined manner, wherein a top end of the first support column 120 may be connected to one side of the carport top frame 200, a top end of the second support column 130 may be connected to the other side of the carport top frame 200, and a height (vertical height) of the first support column 120 perpendicular to the horizontal plane is greater than a height (vertical height) of the second support column 130 perpendicular to the horizontal plane. Through all inclining the setting with first support column 120 and second support column 130, can be with bicycle shed support frame 100 be the setting of V font, simple structure, support firm reliable, the appearance is also very pleasing to the eye. The shed support frame 100 may be mounted to the ground by the shed support base 110, and specifically chemical bolts may be used to connect the shed support base 110 to the foundation. Moreover, by making the height value of the first supporting pillar 120 greater than the height value of the second supporting pillar 130, the top end of the first supporting pillar 120 and the top end of the second supporting pillar 130 are connected to form an inclined line, so that the roof frame 200 disposed on the top end of the first supporting pillar 120 and the top end of the second supporting pillar 130 is inclined, and the photovoltaic glass assembly 300 disposed on the roof frame 200 is also inclined.

Furthermore, in some embodiments, the line connecting the top end of the first supporting column 120 and the top end of the second supporting column 130 forms an angle of 8-10 ° with the horizontal plane. The car shed top frame 200 and the photovoltaic glass assembly 300 can be arranged at an inclination angle of 8-10 degrees, so that the drainage is facilitated, the stability (uneasy falling off) of the photovoltaic glass assembly 300 arranged on the car shed top frame 200 is facilitated, and the appearance is attractive. In addition, the tilt angles of the roof frame 200 and the photovoltaic glass module 300 may be outside the range of 8-10 °, such as 5 ° or 15 °, or 5-8 °, or 10-15 °, as desired.

Further, the shed support base 110 may include a base plate 111 for being installed on the ground, and an inner reinforcing plate 112 and an outer reinforcing plate 114 provided on the base plate 111, wherein the first support column 120 and the second support column 130 are both fixed on the base plate 111, the inner reinforcing plate 112 is connected between the inner side of the first support column 120 and the inner side of the second support column 130, and the outer reinforcing plate 114 is connected to the outer side of the first support column 120 or the outer side of the second support column 130. The base plate 111 is used for conveniently installing the whole shed support base 110 on the ground and also providing support for the whole shed frame and the photovoltaic glass component 300; the first support column 120 and the second support column 130 can be reinforced from the inside by the inner reinforcement plate 112 connected between the first support column 120, the second support column 130 and the base plate 111; the first support column 120 is reinforced from the outside by the outer reinforcement plate 114 connected between the first support column 120 and the base plate 111; the second support column 120 is reinforced from the outside by an outer reinforcement plate 114 connected between the second support column 130 and the base plate 111. In this way, the first support column 120 and the second support column 130 can be reinforced from the inner side and the outer side, so that the two support columns are more firm and reliable.

In addition, the first support column 120 and the second support column 130 may be both fixed columns, or at least one of the two support columns may be a telescopic column, so that the first support column 120 or/and the second support column 130 is telescopic. Thus, the inclination angles of the shed top frame 200 and the photovoltaic glass assembly 300 arranged on the first support column 120 and the second support column 130 can be adjusted, so that the solar car shed can adapt to different vehicle parking requirements and can better correspond to sunlight. Specifically, the first support column 120 may be a hydraulic telescopic column; alternatively, the second support column 130 may be a hydraulic telescopic column; alternatively, both the first support column 120 and the second support column 130 may be hydraulic telescopic columns.

Further, a connection top plate 140 is connected to both the top end of the first support column 120 and the top end of the second support column 130, and the connection top plate 140 is connected to the roof frame 200. By arranging the connecting top plate 140 at the top ends of the first supporting column 120 and the second supporting column 130, the shape of the connecting top plate 140 is adapted to the shape of the roof top frame 200, so that the connecting top plate 140 and the roof top frame 200 are conveniently connected and fixed.

Moreover, the roof frame 200 may include at least two roof frame beams 210 horizontally and horizontally disposed side by side, and a plurality of roof frame longitudinal beams 220 horizontally and longitudinally disposed side by side on the roof frame beams 210, the top of the roof support frame 100 is connected to the roof frame beams 210 and/or the roof frame longitudinal beams 220, and the plurality of photovoltaic glass assemblies 300 are disposed on the plurality of roof frame longitudinal beams 220. The top frame cross beams 210 can provide a mounting base for the top frame longitudinal beams 220, and the top frame cross beams 210 and the top frame longitudinal beams 220 arranged in a criss-cross mode form the shed top frame 200, so that a base is provided for the installation of the photovoltaic glass assemblies 300. The roof support frame 100 and the roof top frame 200 may be fixed by connecting the roof connecting plate 140 provided at the top end of the first support column 120 and the roof connecting plate 140 provided at the top end of the second support column 130 of the roof support frame 100 to the roof frame cross member 210, or to the roof frame side member 220, or to both the roof frame cross member 210 and the roof frame side member 220. In the present embodiment, the connection top plate 140 of the first support column 120 or the connection top plate 140 of the second support column 130 may be connected to the top frame cross member 210 and the top frame longitudinal member 220 at the same time. Also, in the present embodiment, the connection top plate 140 may be formed in a zigzag shape such that the top of the connection top plate 140 is connected to the top frame rail 220 and the middle and bottom of the connection top plate 140 are connected to the top frame rail 210.

Further, in some embodiments, a plurality of mounting slots are formed between the plurality of top frame stringers 220, and the plurality of photovoltaic glass assemblies 300 may be embedded in the plurality of mounting slots. By arranging the plurality of top frame longitudinal beams 220 side by side, a mounting groove can be formed between two adjacent top frame longitudinal beams 220, and a plurality of mounting grooves can be formed between the plurality of top frame longitudinal beams 220. Inlay the polylith photovoltaic glass subassembly 300 and establish in the mounting groove, not only reliable and stable, can also play sealed effect from both sides to photovoltaic glass subassembly 300, prevent the hourglass water.

Specifically, in the top frame longitudinal beams 220, two adjacent top frame longitudinal beams 220 are provided with opposite clamping grooves, and two sides of the photovoltaic glass assembly 300 are respectively clamped in the clamping grooves of the two top frame longitudinal beams 220 in a one-to-one correspondence manner. That is, two sides of each top frame longitudinal beam 220 may be respectively provided with one clamping groove, so that two adjacent top frame longitudinal beams 220 are provided with a pair of opposite clamping grooves, the above-mentioned mounting groove may be formed, and two sides of the photovoltaic glass assembly 300 may be correspondingly clamped in the two opposite clamping grooves of the two top frame longitudinal beams 220 one to one. Moreover, a plurality of photovoltaic glass assemblies 300 are clamped between two adjacent top frame longitudinal beams 220, and a waterproof sealing purline is arranged between two adjacent photovoltaic glass assemblies 300. Namely, a plurality of photovoltaic glass assemblies 300 can be simultaneously arranged in one mounting groove, and waterproof sealing purlins can be arranged between the adjacent photovoltaic glass assemblies 300 for waterproof sealing.

In addition, in other embodiments, a plurality of photovoltaic glass assemblies 300 can be directly mounted on top of the plurality of top frame stringers 220, and a waterproof sealing purlin can be disposed between two adjacent photovoltaic glass assemblies 300 to seal around each photovoltaic glass assembly 300.

Moreover, the top frame beam 210 can be designed as a C-shaped steel beam, and the top frame longitudinal beam 220 is designed as an aluminum alloy section beam, so that the structure is simple, the processing and manufacturing are convenient, and the structure is light and firm. The top frame cross member may be an i-beam or a metal beam having another structure, and the top frame side member may be a metal beam having another structure.

In addition, still can set up the light at the top of above-mentioned bicycle shed top frame 200 to make the light and the photovoltaic battery electricity of photovoltaic power generation structure connect, can provide the illumination for photovoltaic parking shed when night or light are darker. In addition, still can set up in photovoltaic parking shed and fill electric pile to make and fill electric pile and photovoltaic battery electricity and be connected, the accessible fills electric pile and charges for the wheel of parking in photovoltaic parking shed.

The photovoltaic parking shed provided by the utility model adopts the design structure of a pair of photovoltaic shed units, so that the photovoltaic parking shed has high two sides and low middle part, can shield wind, rain and sun for vehicles, is convenient for vehicles to put in storage and has more dynamic sense and beautiful appearance; moreover, the bicycle shed top frame and the photovoltaic glass components laid on the bicycle shed top frame are designed by adopting an 8-10-degree inclination angle, and the bicycle shed supporting frame is designed by adopting a reasonable V-shaped upright post (supporting post), so that the bicycle shed supporting frame is firm and practical, and the whole effect is more attractive; moreover, the base plate, the reinforcing plate and the supporting column of the car shed supporting frame are reasonably designed into a whole, so that the inclination angle of the supporting column is fixed, and the optimal mechanical property and the attractive appearance can be achieved; moreover, the connecting top plate at the top end of the supporting column adopts a Z-shaped top plate design, so that the supporting column, the top frame cross beam and the top frame longitudinal beam can be closely, reasonably and conveniently connected and installed, and the supporting force of the supporting column can be effectively transferred to the top frame cross beam and the top frame longitudinal beam, so that the whole photovoltaic parking shed is stable, reliable and attractive; and the roof frame longitudinal beam made of the aluminum alloy section bar is arranged on the roof frame cross beam made of the C-shaped steel, the span is large, the appearance is attractive and elegant, the structural waterproof performance can be achieved, and the front and rear span requirements of the standard 5-meter parking shed can be met only by a group of V-shaped shed supporting frames and two roof frame cross beams made of the C-shaped steel.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

It is noted that, in the present invention, relational terms such as "first" and "second", and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is only exemplary of the invention, and is intended to enable those skilled in the art to understand and implement the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a photovoltaic parking shed which characterized in that includes:

at least one photovoltaic shed unit;

each photovoltaic shed unit comprises a shed frame which is obliquely arranged and a photovoltaic power generation structure which is arranged at the top of the shed frame;

the bicycle shed frame comprises at least two bicycle shed supporting frames which are arranged on the ground side by side and a bicycle shed top frame which is obliquely arranged at the tops of all the bicycle shed supporting frames;

photovoltaic power generation structure is including evenly laying in polylith photovoltaic glass subassembly on the bicycle shed roof frame, and with the polylith photovoltaic battery that the equal electricity of photovoltaic glass subassembly is connected.

2. The photovoltaic parking shed as claimed in claim 1, comprising two photovoltaic shed units arranged in an inclined manner with respect to each other, and a drain structure connected between the two photovoltaic shed units.

3. The photovoltaic parking shed as claimed in claim 1, wherein the shed support frame comprises a shed support base for being installed on the ground, and a first support column and a second support column which are respectively obliquely arranged on two sides of the shed support base, wherein the top end of the first support column is connected to one side of the shed top frame, the top end of the second support column is connected to the other side of the shed top frame, and the height value of the first support column perpendicular to the horizontal plane is greater than the height value of the second support column perpendicular to the horizontal plane.

4. The photovoltaic parking shed as claimed in claim 3, wherein the shed support base comprises a base plate for being installed on the ground, and an inner reinforcing plate and an outer reinforcing plate which are arranged on the base plate, the first support column and the second support column are both fixedly arranged on the base plate, the inner reinforcing plate is connected between the inner side of the first support column and the inner side of the second support column, and the outer reinforcing plate is connected to the outer side of the first support column or the outer side of the second support column.

5. The photovoltaic parking shed as claimed in claim 3, wherein an angle of 8-10 ° is formed between a line connecting the top end of the first support column and the top end of the second support column and the horizontal plane.

6. The photovoltaic parking shed as claimed in claim 3, wherein a connecting top plate is connected to both the top end of the first support column and the top end of the second support column, and the connecting top plate is connected to the shed top frame.

7. The photovoltaic parking shed as claimed in any one of claims 1 to 6, wherein the shed roof frame comprises at least two roof frame cross members horizontally arranged side by side and a plurality of roof frame longitudinal members horizontally arranged side by side on the roof frame cross members, the roof of the shed support frame is connected to the roof frame cross members and/or the roof frame longitudinal members, and a plurality of photovoltaic glass assemblies are mounted on the plurality of roof frame longitudinal members.

8. The photovoltaic parking shed as claimed in claim 7, wherein a plurality of mounting grooves are formed between a plurality of the top frame longitudinal beams, and a plurality of the photovoltaic glass components are embedded in the plurality of mounting grooves.

9. The photovoltaic parking shed as claimed in claim 8, wherein two adjacent top frame longitudinal beams are provided with opposite clamping grooves, and two sides of the photovoltaic glass assembly are respectively clamped in the clamping grooves of the two top frame longitudinal beams in a one-to-one correspondence manner;

and a plurality of photovoltaic glass assemblies are clamped between two adjacent top frame longitudinal beams, and a waterproof sealing purline is arranged between two adjacent photovoltaic glass assemblies.

10. The photovoltaic parking shed as claimed in claim 7, wherein the top frame cross beams are provided as C-shaped steel beams, and the top frame longitudinal beams are provided as aluminum alloy profile beams.

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