CN214461927U - A photovoltaic sunshine pavilion for rural house roof - Google Patents

Abstract

The utility model relates to a photovoltaic sunshine pavilion for a roof of a farm house, which is arranged on a ground foundation and comprises two drainage grooves, drainage pipes, a support upright post, a first oblique beam, a second oblique beam, a first telescopic upright post, a second telescopic upright post, a post foot and a photovoltaic assembly; the supporting upright post, the first telescopic upright post and the second telescopic upright post are all arranged on the ground foundation through a post base; the height of the supporting upright post is higher than that of the first telescopic upright post and that of the second telescopic upright post; the supporting upright post is connected with the first telescopic upright post through a first oblique beam, and the supporting upright post is connected with the second telescopic upright post through a second oblique beam; the photovoltaic module covers the tops of the first oblique beam and the second oblique beam; the two drainage grooves are respectively connected with the first oblique beam and the second oblique beam and are respectively positioned at the lower ends of the first oblique beam and the second oblique beam; the bottom of the drainage groove is provided with a drainage hole, and the drainage pipe is connected with the drainage hole. The utility model discloses daylighting is efficient, drainage effect is good, belongs to photovoltaic building integration technical field.

Description

A photovoltaic sunshine pavilion for rural house roof

Technical Field

The utility model relates to a photovoltaic building integration technical field, concretely relates to photovoltaic sunshine pavilion for rural house roof.

Background

Photovoltaic power plant is mostly built with the form of photovoltaic canopy, and the photovoltaic canopy adopts the flexible support mode that steelframe supported, cable wire suspended assembly, can be applicable to places such as the mountain region that the topography is complicated, sewage treatment plant, the poor roof of bearing condition.

The existing photovoltaic shed used for the roof has more floor stand columns, which affects the use efficiency of the ground of the roof; because there is waterproof measure to do below the photovoltaic canopy, the space can use under the canopy, nevertheless meets rainstorm or snowy weather, rainwater and snow piece can directly be let out from the edge of photovoltaic canopy, probably can pound the outdoor inconvenience or the potential safety hazard that causes, perhaps flow roof ground, aggravate roof drainage burden. And the top of the photovoltaic shed is of a fixed plane structure, so that the height and the angle can not be adjusted according to the sunshine conditions of different houses, and the better daylighting efficiency and the batch popularization and application are difficult to achieve.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists among the prior art, the utility model aims at: the photovoltaic sunlight pavilion for the roof of the agricultural house is high in lighting efficiency and good in drainage effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a photovoltaic sunlight pavilion for a roof of a farm house is arranged on a ground foundation and comprises a drainage groove, a drainage pipe, a support upright post, a first oblique beam, a second oblique beam, a first telescopic upright post, a second telescopic upright post, a post foot and a photovoltaic module; the bottom ends of the supporting upright post, the first telescopic upright post and the second telescopic upright post are all arranged on a ground foundation through column feet; the first telescopic stand column and the second telescopic stand column are respectively positioned at the left side and the right side of the support stand column, and the height of the support stand column is higher than that of the first telescopic stand column and the second telescopic stand column; the top ends of the support upright post and the first telescopic upright post are connected through a first oblique beam, and the top ends of the support upright post and the second telescopic upright post are connected through a second oblique beam; the photovoltaic module covers the tops of the first oblique beam and the second oblique beam; the number of the drainage grooves is two, the two drainage grooves are respectively connected with the first oblique beam and the second oblique beam, and the two drainage grooves are respectively positioned at the lower ends of the first oblique beam and the second oblique beam; the two drainage grooves extend along the lower edge of the photovoltaic module; the bottom of the drainage groove is provided with a drainage hole, one end of the drainage pipe is connected with the drainage hole, and the other end of the drainage pipe extends to the ground foundation. After the structure is adopted, the photovoltaic module is obliquely arranged, so that the lighting efficiency is high; the border sets up water drainage tank under the both ends of photovoltaic sunshine pavilion, is gone to subaerial with water drainage by the drain pipe, and drainage effect is good.

Preferably, the drainage channel is of a groove-shaped structure with an upward opening and two sealed ends, the drainage channel extends to the whole width of the photovoltaic module, and the opening of the drainage channel is flush with the lower edge of the photovoltaic module. After adopting this kind of structure, collect the water drainage tank with the water on the photovoltaic module is whole, arrange ground from the water drainage tank again, drainage effect is good.

Preferably, the height of the supporting upright post is a, the height of the first telescopic upright post is b, the height of the second telescopic upright post is c, and a is more than c and more than b; the length of the first oblique beam is d, the length of the second oblique beam is e, and d is less than e. After adopting this kind of structure, the photovoltaic module slope of being convenient for sets up, improves photovoltaic module's daylighting efficiency.

Preferably, the support structure further comprises two inclined struts, wherein the two inclined struts are symmetrically distributed on the left and right of the support upright, one end of each inclined strut positioned on the left side of the support upright is rotatably connected with the support upright, and the other end of each inclined strut is rotatably connected with the first inclined beam; one end of the inclined strut on the right side of the supporting upright post is rotatably connected with the supporting upright post, and the other end of the inclined strut is rotatably connected with the second inclined beam. After adopting this kind of structure, be convenient for adjust inclination when the installation photovoltaic module, improve the overall stability of photovoltaic sunshine pavilion.

As an optimization, the first telescopic stand column and the second telescopic stand column are both telescopic rod structures, and the first telescopic stand column and the second telescopic stand column are both provided with locking bolts. After adopting this kind of structure, be convenient for adjust inclination, simple to operate when the installation photovoltaic module.

Preferably, the included angle between the first oblique beam and the horizontal plane is 5-20 degrees; the included angle between the second oblique beam and the horizontal plane ranges from 5 degrees to 20 degrees. After adopting this kind of structure, can improve daylighting efficiency according to the geographical position regulation inclination of locating.

Preferably, the first telescopic vertical column and the second telescopic vertical column are internally provided with flow channels extending from top to bottom, and the drain pipe extends into the flow channels from the upper ends of the flow channels, extends out of the lower ends of the flow channels and extends to the ground foundation. After adopting this kind of structure, the protection drain pipe can not destroyed, also improves the holistic pleasing to the eye of photovoltaic sunshine pavilion.

Preferably, the outer surfaces of the first telescopic stand column, the second telescopic stand column and the support stand column are coated with protective layers, sealant is arranged between the protective layers and the first oblique beam, and sealant is arranged between the protective layers and the second oblique beam; the protective layer is made of plastic wood, PVC or wood composite board. After adopting this kind of structure, the flexible stand of protection first flexible stand and second is not destroyed, in addition, with the locking screw cladding of the flexible stand of first flexible stand, second after installation photovoltaic module, avoids being loosened locking screw, leads to photovoltaic sunshine pavilion to have the risk of collapsing.

Preferably, the photovoltaic module comprises a photovoltaic plate, two groups of grid structure frames and a cover plate, wherein the two groups of grid structure frames are respectively arranged on the first oblique beam and the second oblique beam and are distributed in a shape like a Chinese character 'ba', and the photovoltaic plate is laid on the grid structure frames; the cover plate is connected with the peripheral edges of the grid structure frames, and the two groups of grid structure frames are connected through the cover plate; waterproof glue is arranged between the cover plate and the grid structure frame, and waterproof glue is arranged between the cover plate and the cover plate. After adopting this kind of structure, the apron surrounds all photovoltaic boards in the centre, sets up waterproof glue between the two, avoids photovoltaic module can directly leak subaerially.

Preferably, the grid structure frame comprises a plurality of purlins and a plurality of waterproof guide rails, the purlins and the waterproof guide rails are mutually connected in a cross mode to form the grid structure frame with a plurality of grids, and the photovoltaic panels are installed on the grids; the purline is perpendicular to the first oblique beam and the second oblique beam; the waterproof guide rail is arranged in parallel with the first oblique beam and the second oblique beam, and the tail end of the waterproof guide rail extends to the drainage groove. After adopting this kind of structure, be convenient for rainwater directly to flow to the drain tank along waterproof guide rail.

In general, the utility model has the advantages as follows:

1. the utility model provides a photovoltaic sunshine pavilion for rural power house roof sets up through inclining photovoltaic module, both ends that are low at photovoltaic sunshine pavilion set up water drainage tank, the slope sets up the photovoltaic module daylighting of being convenient for, and water is direct from photovoltaic sunshine pavilion landing subaerial when snow and rain weather is avoided in water drainage tank's setting, thereby ground splashes the rainwater everywhere, the whole wet thorough that passes through in ground under the photovoltaic sunshine pavilion, want to take advantage of the cold or see the scenery on the roof and cause very big inconvenience to people, consequently collect the rainwater on the photovoltaic sunshine pavilion through water drainage tank, from drain pipe discharge to ground, the rainwater can not splash everywhere, the drainage effect is better.

2. The first telescopic stand column and the second telescopic stand column are both telescopic rod structures, and when the installation is carried out, the heights of the first telescopic stand column and the second telescopic stand column are adjusted according to a preset design inclination angle, so that the included angle range between the oblique beam and the horizontal plane is adjusted by 5-20 degrees, the photovoltaic module does not need to be adjusted after being covered on the oblique beam, and the installation is very convenient.

3. The drain pipe stretches to ground from the runner of first flexible stand and the flexible stand of second, avoids the drain pipe to be destroyed, has also improved the pleasing to the eye of photovoltaic sunshine pavilion.

4. Photovoltaic board is installed on the square of grid structure frame, and the square encloses for purlin and waterproof guide rail, flows the water drainage tank along waterproof guide rail between the rainwater during rainy, and the apron all is equipped with along the border all around of grid structure frame in addition to it is sealed through the waterproof glue, avoid the rainwater to flow the side at photovoltaic sunshine pavilion along the purlin, make the rainwater all collect the water drainage tank.

5. The outer surface of the first telescopic stand column and the outer surface of the second telescopic stand column are both coated with plastic wood, so that the locking screws are coated, the locking screws are prevented from being loosened, and the photovoltaic sunlight pavilion has safety risks.

6. The apron can check rubbish silts up the outlet such as falling leaf, branch, reduces the daily maintenance degree of difficulty of photovoltaic sunshine pavilion.

7. Mobilizable first flexible stand, the flexible stand of second and bracing provide the possibility of scale and assembled production for photovoltaic sunshine pavilion, have reduced the manufacturing cost of product to a certain extent.

Drawings

Fig. 1 is a schematic structural diagram of a photovoltaic solar pavilion for a roof of a farm house.

Fig. 2 is a front view of a photovoltaic solar kiosk for a roof of a farm house.

Fig. 3 is a left side view of a photovoltaic solar kiosk for a roof of a farm house.

Fig. 4 is a top view of a photovoltaic solar kiosk for a roof of a farm house.

Wherein, 1 is the column base, 2 is first flexible stand, 3 is the drain pipe, 4 is the water drainage tank, 5 is first sloping, 6 is the bracing, 7 is the support post, 8 is the second sloping, 9 is the flexible stand of second, 10 is photovoltaic module, 11 is the aluminum alloy shutter, 12 is the aluminum alloy pressure sign indicating number, 13 is the apron, 14 is the photovoltaic board.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments.

Example one

The photovoltaic sunlight pavilion for the roof of the agricultural house is arranged on a ground foundation and comprises a drainage groove, a drainage pipe, a support upright post, a first oblique beam, a second oblique beam, a first telescopic upright post, a second telescopic upright post, a column base and a photovoltaic module; the bottom ends of the supporting upright post, the first telescopic upright post and the second telescopic upright post are all arranged on a ground foundation through column feet; the first telescopic stand column and the second telescopic stand column are respectively positioned at the left side and the right side of the support stand column, and the height of the support stand column is higher than that of the first telescopic stand column and the second telescopic stand column; the top ends of the support upright post and the first telescopic upright post are connected through a first oblique beam, and the top ends of the support upright post and the second telescopic upright post are connected through a second oblique beam; the photovoltaic module covers the tops of the first oblique beam and the second oblique beam; the number of the drainage grooves is two, the two drainage grooves are respectively connected with the first oblique beam and the second oblique beam, and the two drainage grooves are respectively positioned at the lower ends of the first oblique beam and the second oblique beam; the two drainage grooves extend along the lower edge of the photovoltaic module; the bottom of the drainage groove is provided with a drainage hole, one end of the drainage pipe is connected with the drainage hole, and the other end of the drainage pipe extends to the ground foundation.

The water drainage tank is of a tank structure with an upward opening and two sealed ends, the water drainage tank extends to the whole width of the photovoltaic module, and the opening of the water drainage tank is flush with the lower edge of the photovoltaic module.

The height of the supporting upright post is a, the height of the first telescopic upright post is b, the height of the second telescopic upright post is c, and a is more than c and more than b; the length of the first oblique beam is d, the length of the second oblique beam is e, and d is less than e.

The first inclined beam is rotatably connected with the first inclined beam; one end of the inclined strut on the right side of the supporting upright post is rotatably connected with the supporting upright post, and the other end of the inclined strut is rotatably connected with the second inclined beam. Two rotating shaft seats are arranged on the supporting upright post and are respectively positioned at the left side and the right side. The first oblique beam and the second oblique beam are respectively provided with a rotating shaft seat, and two ends of the oblique support are respectively connected with the rotating shaft seats in a rotating mode through rotating shafts.

First flexible stand and the flexible stand of second are telescopic rod structure, and first flexible stand and the flexible stand of second all are equipped with locking bolt. The first telescopic stand column and the second telescopic stand column respectively comprise telescopic rods and fixing rods, the fixing rods are of hollow structures, the upper ends of the telescopic rods are welded with the oblique beams, and the lower ends of the telescopic rods are connected with the fixing rods in a sliding mode. When the telescopic rod is installed, the height of the first telescopic stand column and the height of the second telescopic stand column relative to the supporting stand column are adjusted, so that the angle of the inclined beam and the horizontal plane is adjusted, the locking bolt is screwed, and the telescopic rod is fixed.

The included angle between the first oblique beam and the horizontal plane is 5-20 degrees; the included angle between the second oblique beam and the horizontal plane ranges from 5 degrees to 20 degrees. According to the sunshine condition of the farm house roof, the height of the first telescopic stand column and the second telescopic stand column relative to the supporting stand column is adjusted, so that the included angle between the oblique beam and the horizontal plane is adjusted, and the lighting efficiency of the photovoltaic module is improved according to the sunshine condition.

The inside runner that down extends from last that all is equipped with of first flexible stand and the flexible stand of second, the drain pipe stretches into, stretches out and extend to ground basis from the lower extreme of runner from the upper end of runner on. The side of dead lever upper end and lower extreme all is equipped with the opening, and the pipeline stretches into from the upper shed of side, stretches out from the under shed of side.

The outer surfaces of the first telescopic stand column, the second telescopic stand column and the support stand column are coated with protective layers, sealant is arranged between the protective layers and the first oblique beam, and sealant is arranged between the protective layers and the second oblique beam; in this embodiment, the material that the protective layer adopted is for moulding the wood, moulds the wood and sets up after installing the drain pipe and adjusting the telescopic link height to fix the first flexible stand, the flexible stand of second and the support post of good photovoltaic sunshine pavilion.

The photovoltaic module comprises a photovoltaic plate, two groups of grid structure frames and a cover plate, wherein the two groups of grid structure frames are respectively arranged on the first oblique beam and the second oblique beam and are distributed in a splayed shape, and the photovoltaic plate is laid on the grid structure frames; the cover plate is connected with the peripheral edges of the grid structure frames, and the two groups of grid structure frames are connected through the cover plate; waterproof glue is arranged between the cover plate and the grid structure frame, and waterproof glue is arranged between the cover plate and the cover plate.

The grid structure frame comprises a plurality of purlins and a plurality of waterproof guide rails, the purlins and the waterproof guide rails are mutually connected in a cross mode to form the grid structure frame with a plurality of grids, and the photovoltaic panels are installed on the grids; the purline is perpendicular to the first oblique beam and the second oblique beam; the waterproof guide rail is arranged in parallel with the first oblique beam and the second oblique beam, and the tail end of the waterproof guide rail extends to the drainage groove. The purlin passes through the aluminum alloy and presses the sign indicating number to be fixed on first sloping or second sloping, and two adjacent purlins enclose into a rectangle square with two adjacent waterproof guide rails, and the rectangle square size corresponds the photovoltaic board size, and briquetting and limit briquetting in waterproof guide rail both sides are equipped with, the middle part and the well briquetting of photovoltaic board, the both ends and the limit briquetting joint of photovoltaic board. The cross section of the waterproof guide rail is W-shaped.

The edge all encloses the side eaves that is equipped with the apron as photovoltaic sunshine pavilion all around photovoltaic module, and the side eaves is inboard with first sloping, second sloping, water drainage tank cladding, and it is pleasing to the eye to improve the whole of photovoltaic sunshine pavilion, also plays the effect of first sloping, second sloping, water drainage tank of protection.

The column base is arranged on the original roof main body structure through bar planting, and waterproof sealant is coated between the column base and the original roof.

An aluminum alloy shutter is installed at the bottom of the photovoltaic module, and the light transmission or the sun shading of the photovoltaic sunlight pavilion can be adjusted through the aluminum alloy shutter.

In this embodiment, the supporting frame structure of photovoltaic sunshine pavilion is constituteed to support post, first sloping, second sloping, first flexible stand, the flexible stand of second, and according to the scale difference of photovoltaic sunshine pavilion, the quantity of supporting frame structure is different. The quantity of the support frame structure of this embodiment is two sets of, and two sets of support frame structure side by side sets up on the rural house roof, is located photovoltaic module width direction's both ends. Two sets of support frame structures pass through the horizontal support and connect, and the quantity of horizontal support is two sets of, and a set of horizontal support is connected two first sloping, and another group's horizontal support is connected two second sloping, and a set of horizontal support includes two horizontal supports, and two horizontal supports cross arrangement to it is firm to make two sets of support frame stable in structure.

In this embodiment, the ground foundation refers to a roof of a farm house, and the roof of the farm house is a flat-topped structure.

Installation process: surveying fixed points are well made on the roof of the agricultural house, the column base is arranged on the original roof main body structure through bar planting, the original waterproof layer heat insulation layer is removed from the bar planting position, and the expansion bolt is arranged in the solid layer to effectively anchor the length of 65 mm. The position of the mounting bolt is provided with a waterproof measure by injecting asphalt and wrapping waterproof plain concrete. The supporting upright post, the first telescopic upright post and the second telescopic upright post are welded with the bottom plate and fixed on the column base. According to the telescopic rod of the first telescopic stand column and the second telescopic stand column which are required to be adjusted in height, the height of the first telescopic stand column and the height of the second telescopic stand column relative to the supporting stand column are adjusted, so that the angle of the inclined beam and the horizontal plane is adjusted, and the telescopic rod is fixed by adjusting the locking bolt. The inclined strut is installed on the rotating shaft seat reserved on the supporting upright post through the rotating shaft, and the shaft sleeves are arranged at the two ends of the rotating shaft, so that the rotating shaft is prevented from falling off. The other end of the rotating shaft seat is arranged on the rotating shaft seat reserved for the first oblique beam or the second oblique beam through a rotating shaft. And (5) erecting the oblique beam, and welding the joint of the oblique beam and the supporting upright post, the first telescopic upright post or the second telescopic upright post. The supporting upright post, the first telescopic upright post and the second telescopic upright post are coated with plastic and wood for decoration and protection. And cutting and splicing the plastic wood at the joint of the supporting upright column and the oblique beam, the joint of the first telescopic upright column and the oblique beam and the joint of the second telescopic upright column and the oblique beam according to the construction site condition. The plastic wood and the supporting upright columns, the plastic wood and the first telescopic upright columns and the plastic wood and the second telescopic upright columns are firmly bonded by using sealant, and the cut is sealed and edged by using sealant with the same color. And connecting the horizontal support bars with the first oblique beam or the second oblique beam on the same side in a diagonal manner, and reinforcing the connection by using high-strength bolts. And (4) spreading the purlines of the photovoltaic modules according to specifications, and pressing and fixing the purlines on the oblique beams through aluminum alloy. And paving a W-shaped waterproof guide rail, fixing the W-shaped waterproof guide rail with angle steel and purlines by using bolts, and paving an aluminum alloy water tank and a photovoltaic panel on the guide rail in sequence. The water drainage groove is fixed on the purline by an angle bracket. The drain pipe extends into the upright post for fixing before being coated with the plastic wood. The upper cover plate is clamped at the positions of the drainage channel and the two groups of grid structure frames, and waterproof glue treatment is performed at the gap.

Example two

In this embodiment, the material that the protective layer that first flexible stand, second flexible stand and support post cladding adopted is PVC. Adopt the first flexible stand of PVC material cladding, the flexible stand of second and support post, to the protection of first flexible stand, the flexible stand of second and support post, provide corrosion resisting property to make its life-span extension, it is more firm durable, on the other hand PVC material bright in color and luster, the whole aesthetic feeling in photovoltaic sunshine pavilion is promoted.

The embodiment is the same as the first embodiment.

EXAMPLE III

In this embodiment, the protective layer covered by the first telescopic column, the second telescopic column and the support column is made of a wood composite board. The wood composite board has the advantages of simple structure, attractive appearance, long service life and low cost.

The embodiment is the same as the first embodiment.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. The utility model provides a photovoltaic sunshine pavilion for rural house roof establishes on the ground basis, its characterized in that: the solar photovoltaic water heater comprises a drainage channel, a drainage pipe, a support upright post, a first oblique beam, a second oblique beam, a first telescopic upright post, a second telescopic upright post, a column base and a photovoltaic module; the bottom ends of the supporting upright post, the first telescopic upright post and the second telescopic upright post are all arranged on a ground foundation through column feet; the first telescopic stand column and the second telescopic stand column are respectively positioned at the left side and the right side of the support stand column, and the height of the support stand column is higher than that of the first telescopic stand column and the second telescopic stand column; the top ends of the support upright post and the first telescopic upright post are connected through a first oblique beam, and the top ends of the support upright post and the second telescopic upright post are connected through a second oblique beam; the photovoltaic module covers the tops of the first oblique beam and the second oblique beam;

the number of the drainage grooves is two, the two drainage grooves are respectively connected with the first oblique beam and the second oblique beam, and the two drainage grooves are respectively positioned at the lower ends of the first oblique beam and the second oblique beam; the two drainage grooves extend along the lower edge of the photovoltaic module; the bottom of the drainage groove is provided with a drainage hole, one end of the drainage pipe is connected with the drainage hole, and the other end of the drainage pipe extends to the ground foundation.

2. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the water drainage tank is of a tank structure with an upward opening and two sealed ends, the water drainage tank extends to the whole width of the photovoltaic module, and the opening of the water drainage tank is flush with the lower edge of the photovoltaic module.

3. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the height of the supporting upright post is a, the height of the first telescopic upright post is b, the height of the second telescopic upright post is c, and a is more than c and more than b; the length of the first oblique beam is d, the length of the second oblique beam is e, and d is less than e.

4. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the first inclined beam is rotatably connected with the first inclined beam; one end of the inclined strut on the right side of the supporting upright post is rotatably connected with the supporting upright post, and the other end of the inclined strut is rotatably connected with the second inclined beam.

5. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: first flexible stand and the flexible stand of second are telescopic rod structure, and first flexible stand and the flexible stand of second all are equipped with locking bolt.

6. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the included angle between the first oblique beam and the horizontal plane is 5-20 degrees; the included angle between the second oblique beam and the horizontal plane ranges from 5 degrees to 20 degrees.

7. The photovoltaic solar kiosk for a roof of a farm house of claim 5 wherein: the inside of first flexible stand and the flexible stand of second all is equipped with from the runner that down extends, and the drain pipe stretches into, stretches out and extend to ground basis from the lower extreme of runner from the upper end of runner on.

8. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the outer surfaces of the first telescopic stand column, the second telescopic stand column and the support stand column are coated with protective layers, sealant is arranged between the protective layers and the first oblique beam, and sealant is arranged between the protective layers and the second oblique beam; the protective layer is made of plastic wood, PVC or wood composite board.

9. The photovoltaic solar kiosk for a roof of a farm house of claim 1 wherein: the photovoltaic module comprises a photovoltaic plate, two groups of grid structure frames and a cover plate, wherein the two groups of grid structure frames are respectively arranged on the first oblique beam and the second oblique beam and are distributed in a splayed shape, and the photovoltaic plate is laid on the grid structure frames; the cover plate is connected with the peripheral edges of the grid structure frames, and the two groups of grid structure frames are connected through the cover plate; waterproof glue is arranged between the cover plate and the grid structure frame, and waterproof glue is arranged between the cover plate and the cover plate.

10. A photovoltaic solar kiosk for a roof of a farm house according to claim 9 characterized in that: the grid structure frame comprises a plurality of purlins and a plurality of waterproof guide rails, the purlins and the waterproof guide rails are mutually connected in a cross mode to form the grid structure frame with a plurality of grids, and the photovoltaic panels are installed on the grids; the purline is perpendicular to the first oblique beam and the second oblique beam; the waterproof guide rail is arranged in parallel with the first oblique beam and the second oblique beam, and the tail end of the waterproof guide rail extends to the drainage groove.

Images