CN219228571U - BIPV fungus mushroom cultivation canopy and fungus mushroom cultivation system - Google Patents

Abstract

The utility model discloses a BIPV mushroom cultivation shed and a mushroom cultivation system, a first accommodating space and a second accommodating space are separated between a photovoltaic panel roof and a mushroom cultivation frame through a separating piece, the first accommodating space can serve as a heat insulation layer to isolate the downward conduction of the photovoltaic panel roof to the temperature of the mushroom cultivation frame, a spraying assembly arranged in the first accommodating space can be started timely according to requirements to spray and cool, good temperature and humidity adjustment is provided for mushroom cultivation on the mushroom cultivation frame, in addition, the scheme is matched with a supporting assembly connected with purlines through a medium-pressure fixing assembly and a side-pressure fixing assembly, the photovoltaic panel assembly can be stably installed, meanwhile, the first supporting piece of the supporting assembly adopts an M-shaped structure, the middle part of the M-shaped structure can be correspondingly reused as a water guide groove, gaps between adjacent photovoltaic panels can be effectively guided, and the use reliability of the BIPV mushroom shed is improved.

Description

BIPV fungus mushroom cultivation canopy and fungus mushroom cultivation system

Technical Field

The utility model relates to the field of mushroom cultivation devices, in particular to a BIPV mushroom cultivation shed and a mushroom cultivation system.

Background

Photovoltaic building integration, BIPV Building Integrated PV, photovoltaics is a technology that integrates solar power generation (Photovoltaic) products into a building; photovoltaic building-to-Body (BIPV) differs from the form in which photovoltaic systems are attached to a building (BAPV: building Attached PV), which can be divided into two main categories: one is the combination of a photovoltaic matrix and a building; another type is the integration of photovoltaic arrays with buildings. Such as photoelectric tile roofs, photoelectric curtain walls, photoelectric daylighting roofs and the like; with the continuous advocacy and development of clean energy, solar panels have been widely used in various fields, which also achieve positive effects for environmental protection and economic benefits.

The important industry of rural fungus product is cultivated as fungus mushroom, and because the planting environment has certain humidity, temperature requirement, and in the BIPV building, because roof is photovoltaic board roofing, and it can produce certain heat when solar energy is absorbed in the daytime, this causes certain temperature influence to the building space of its below, therefore, fungus mushroom cultivation canopy adopts the mode of BIPV needs to overcome certain technical difficulty, still have not seen to have now to cultivate the canopy with fungus mushroom and adopt the report of BIPV, consequently, how to set up fungus mushroom cultivation canopy into BIPV form, can guarantee fungus mushroom planting environment's humidity, temperature stability simultaneously, then will play positive practical meaning for BIPV on fungus mushroom planting is used.

Disclosure of Invention

In view of the above, the utility model aims to provide a BIPV mushroom cultivation shed and a mushroom cultivation system which are reliable in implementation, flexible in temperature adjustment and convenient in ventilation.

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

a BIPV mushroom cultivation shed comprising:

a photovoltaic panel roofing;

the support columns are arranged on two sides below the photovoltaic panel roof in pairs, the upper ends of the support columns are fixedly connected with the lower end face of the photovoltaic panel roof, and the lower ends of the support columns are fixed on the ground;

the fungus mushroom culture racks are arranged on the ground below the photovoltaic panel roof at intervals;

the partition piece is arranged above the fungus mushroom culture rack in a crossing manner and divides the space below the photovoltaic panel roof into a first accommodating space and a second accommodating space, wherein the partition piece is arranged in an arch shape;

the spraying assembly is arranged in the first accommodating space and used for spraying and cooling;

the plurality of membrane blocking assemblies are distributed on the periphery of the mushroom culture rack and are connected with the support columns;

and the controller is connected with the spraying assembly and controls the spraying operation of the spraying assembly to be started and stopped.

As a possible implementation manner, the photovoltaic panel roof is arranged obliquely, and the inclination gradient of the photovoltaic panel roof is 10%.

As a possible implementation manner, further, the scheme is that a ladder stand is further arranged on one side of the photovoltaic panel roof, the lower end of the ladder stand is fixed on the ground, and the upper end of the ladder stand vertically extends upwards to one side of the photovoltaic panel roof.

As a possible implementation manner, further, water permeable bricks are paved on the ground below the photovoltaic panel roof in the scheme.

As a possible implementation manner, the partition member in the scheme is a light-permeable plastic film or an elastic plastic sheet, and is in an arc shape and spans over the mushroom culture rack;

the lower part of the partition piece is also provided with a plurality of arch brackets which are arranged at intervals, and the arch brackets are used for installing the partition piece.

As one possible implementation manner, the spray assembly of the scheme further comprises a plurality of spray heads and a water pump connected with the spray heads, wherein the spray heads are arranged in an array in a first accommodating space below the photovoltaic panel roof; in addition, the water pump is connected with a water source and is also connected with a controller, and the controller controls the work to be started and stopped.

As one possible implementation manner, the membrane blocking assembly of the present embodiment further includes:

the light shielding films are a plurality of and can be windingly arranged between the adjacent support columns on the same side;

the white films are a plurality of and can be windingly distributed on the periphery of the mushroom culture rack and are connected with the support columns.

As a preferred optional implementation manner, preferably, more than one of the light shielding films and/or the white films is/are provided with a film rolling assembly for assisting in rolling, the film rolling assembly comprises a rolling motor and a winding drum arranged at the upper end of the white film or the light shielding film, two ends of the winding drum are rotationally connected to a supporting column, the upper end of the white film or the light shielding film is fixed with the winding drum, the rolling motor is fixed at one side of the winding drum and is fixedly connected with the winding drum through a driving connecting piece, and the winding drum is driven to rotate by the rolling motor, so that the white film or the light shielding film is rolled or released.

As one possible implementation manner, the photovoltaic panel roofing further includes:

the support frame is of a rectangular frame structure and is connected with the upper ends of the pairs of support columns;

the purlines are multiple and are distributed on the supporting frame at intervals;

the photovoltaic plate assemblies are arranged above the purlines in an array manner;

the side faces of the photovoltaic plate assemblies positioned on the side edges are fixedly connected with purlines below the side faces of the photovoltaic plate assemblies through side pressure fixing assemblies;

in addition, the purline is connected with the medium-pressure fixing component or the side-pressure fixing component through the supporting component.

As a preferred alternative embodiment, preferably, the support assembly of the present embodiment includes:

the first supporting piece is of an M-shaped structure, two sides of the lower end of the first supporting piece are provided with horizontal extension parts, the horizontal extension parts are fixedly connected with purlines through bolt assemblies, and a water guide groove is formed in the middle of the M-shaped structure of the first supporting piece;

the first support supporting plate stretches across the upper end face of the first support piece, bending parts which are matched with two sides of the M-shaped structure of the first support piece are arranged at two ends of the first support supporting plate, the bending parts are fixedly connected with two sides of the M-shaped structure of the first support piece through bolt assemblies, mounting holes which are used for being matched and connected with the side pressure fixing assemblies or the middle pressure fixing assemblies are formed in the middle of the first support supporting plate, and the mounting holes are threaded holes;

the medium voltage fixation assembly includes:

the middle pressing block is of a T-shaped structure, the middle part of the middle pressing block passes through the middle pressing block through a bolt and is in threaded connection with the mounting hole of the first supporting plate, and clamping spaces for clamping and mounting the side edges of the adjacent photovoltaic panel assemblies are respectively formed between the two sides of the T-shaped structure of the middle pressing block and the first supporting plate;

the side pressure fixing assembly includes:

the side pressing block is of an L-shaped structure, a horizontal bending is formed on the upper side of the L-shaped structure, the lower end face of the side pressing block is in threaded connection with the mounting hole of the first supporting plate through a bolt, and a clamping space for clamping and mounting the side face of the photovoltaic panel assembly is formed between the horizontal bending and the first supporting plate.

As a preferred optional implementation mode, preferably, the photovoltaic panel roofing is further provided with a pavement plate, wherein the photovoltaic panel assemblies positioned at two sides of the pavement plate are fixedly connected with purlines below the pavement plate assemblies through side pressure fixing assemblies, and two sides of the pavement plate are respectively and fixedly connected with a first supporting plate connected with the side pressure fixing assemblies; and a plurality of supporting pieces used for limiting the stress deformation amplitude of the pavement plate are arranged on the purlines below the pavement plate at intervals.

Based on the above, the utility model also provides a mushroom cultivation system, which comprises the BIPV mushroom cultivation shed.

By adopting the technical scheme, compared with the prior art, the utility model has the beneficial effects that: this scheme ingenious is through separating first accommodation space and second accommodation space between photovoltaic board roofing and fungus mushroom culture rack, wherein, first accommodation space can be regarded as the insulating layer and keeps apart the temperature that photovoltaic board room face conducted to fungus mushroom culture rack downwards to a certain extent, simultaneously, spray the subassembly that sets up in the first accommodation space and can start in good time as required and spray the cooling, provide better temperature, humidity adjustment for fungus mushroom culture on the fungus mushroom culture rack, in addition, this scheme cooperates through the fixed subassembly of middling pressure, the fixed subassembly of side pressure and the supporting component who is connected on the purlin, it not only can install photovoltaic board subassembly steadily, simultaneously, supporting component's first supporting component adopts M shape structure, the middle part of its M shape structure still corresponds can be reused as the guiding gutter, when making photovoltaic board subassembly by stable installation, clearance between the adjacent photovoltaic board can also be by effective water guide, improve BIPV fungus mushroom cultivation canopy's reliability in use.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a schematic three-dimensional view of a structure in which the present utility model is implemented, wherein the photovoltaic panel roofing is a schematic diagram;

FIG. 2 is a schematic view of a schematic three-dimensional view of a structure according to a second embodiment of the present utility model, wherein the photovoltaic panel roofing is a schematic view;

FIG. 3 is a schematic diagram of a principle of auxiliary winding connection of a membrane blocking assembly adopting a winding motor according to the scheme of the utility model;

FIG. 4 is a schematic diagram of the connection of the controller to the wind-up motor of the spray assembly and the barrier film assembly according to the present utility model;

FIG. 5 is a schematic illustration of a photovoltaic panel roofing of the present utility model with a pavement slab attached;

FIG. 6 is a schematic illustration of a simplified mating of a photovoltaic panel assembly of the present utility model with purlins connected by a medium pressure fixing assembly, a support assembly;

FIG. 7 is a schematic illustration of a simplified mating of a photovoltaic panel assembly of the present utility model with purlins via a lateral pressure securing assembly, a support assembly;

fig. 8 is a schematic representation of a brief mating of a pavement slab of an aspect of the present utility model with purlins connected by a brace assembly.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustrating the present utility model, but do not limit the scope of the present utility model. Likewise, the following examples are only some, but not all, of the examples of the present utility model, and all other examples, which a person of ordinary skill in the art would obtain without making any inventive effort, are within the scope of the present utility model.

As shown in one of fig. 1 to 8, the present embodiment is a BIPV mushroom cultivation shed, which includes:

a photovoltaic panel roofing 1;

the support columns 2 are arranged on two sides below the photovoltaic panel roof 1 in pairs, the upper ends of the support columns 2 are fixedly connected with the lower end face of the photovoltaic panel roof 1, and the lower ends of the support columns 2 are fixed on the ground;

the fungus mushroom culture racks 6 are arranged on the ground below the photovoltaic panel roof 1 at intervals;

the partition piece 3 is arranged above the fungus mushroom culture rack 6 in a crossing way and divides the space below the photovoltaic panel roof 1 into a first accommodating space and a second accommodating space, wherein the partition piece 3 is arranged in an arch shape;

the spraying assembly 4 is arranged in the first accommodating space and is used for spraying and cooling;

the plurality of baffle membrane assemblies 5 are arranged on the periphery of the mushroom culture rack and connected with the support columns;

and the controller 8 is connected with the spray assembly 4, and the controller 8 controls the spray operation of the spray assembly 4 to be started and stopped.

In this scheme, photovoltaic board roofing 1 sets up for the slope, and its slope is 10%, sets up photovoltaic board roofing 1 through the slope, can make photovoltaic board roofing 1 surface not have debris to stay for a long time on the one hand, for example, daily dust of accumulating can be washed away in the rainy day, leaf or other debris are blown away by wind easily, simultaneously, when the position of photovoltaic board roofing 1 slope orientation is sun rising position, can improve its day-to-day daylighting time, can be by the duration of illumination.

For convenient maintenance, this scheme photovoltaic board roofing 1's one side still is equipped with cat ladder 7, cat ladder 7's lower extreme is fixed on ground, and its upper end vertically upwards extends to photovoltaic board roofing 1 one side.

In this scheme, fungus mushroom cultivates frame 6 and sets up for the length direction of perpendicular photovoltaic board roofing 1 below mushroom canopy, as one kind and lays the specification example, fungus mushroom cultivates frame 6 can be 2.6 meters high, arranges 9 layers of mushroom and plants the layer, fungus mushroom cultivates frame 6 and sets up with 1.2 m's interval, and interval region forms the passageway that can supply cultivation personnel to walk, simultaneously, this scheme the water permeable brick has still been laid to the subaerial of photovoltaic board roofing 1 below, specifically, laid water permeable brick (not shown) on the passageway, because water permeable brick is current conventional road to lay the material of choice, consequently, this scheme does not carry out the repetition to it.

In the aspect of the partition piece 3, the partition piece 3 is a light-permeable plastic film or an elastic plastic sheet, and the partition piece 3 is in an arc shape and spans above the mushroom culture rack 6.

When the partition 3 is made of a plastic film or an elastic plastic sheet, the partition 3 may not maintain an arch shape due to external wind force, and in order to stably install the partition 3, a plurality of arch supports arranged at intervals are further arranged below the partition 3 in the embodiment, and the arch supports are used for installing the partition 3 in a manner of adhering, fixing a connecting piece and the like.

In the scheme, the partition piece 3 has the main function of forming an interval space between the mushroom culture rack 6 and the photovoltaic panel roof 1, namely, the first accommodating space has the main function of providing temperature isolation, so that a large amount of heat generated by the photovoltaic panel roof 1 after absorbing sunlight is prevented from being directly conducted to the mushroom culture rack 6 below, and the spraying assembly 4 arranged in the first accommodating space can start spraying at regular time or timely according to the temperature of the first accommodating space or the surrounding environment of the mushroom culture rack 6; specifically, the spray assembly 4 in this embodiment includes a plurality of spray headers 41 and a water pump 42 connected to the spray headers 41, where the plurality of spray headers 41 are arranged in an array in a first accommodating space below the photovoltaic panel roofing 1; in addition, the water pump 42 is connected with a water source 9 and is also connected with the controller 8, and the controller 8 controls the on-off of the work.

The membrane module of this scheme includes:

the light shielding films 51 are a plurality of and are rollably arranged between the support columns 2 adjacent to the same side;

the white membranes 52 are arranged on the circumference side of the mushroom culture rack 3 in a plurality of windable ways and are connected with the support columns 2.

Wherein, the shading film 51 can be a gray shading curtain which is arranged at the periphery of the device to provide shading; the white film 52 is a conventional agricultural transparent film, and is arranged around the mushroom culture rack 3, and meanwhile, the light shielding film 51 and the white film 52 can be rolled up as required, so that the mushroom culture rack 3 can be ventilated.

With emphasis on combining fig. 3, in order to save manpower and facilitate rolling the light shielding film 51 and the white film 52, more than one of the light shielding films 51 and/or the white films 52 is provided with a film rolling component for assisting in rolling, namely, the light shielding film 51 and the white film 52 which need to be rolled frequently can be rolled in an auxiliary way by adopting the film rolling component, the film rolling component comprises a rolling motor 55 and a rolling drum 53 arranged at the upper end of the white film 52 or the light shielding film 51, two ends of the rolling drum 53 are connected onto the support column 2 in a rotating way through a rotating connecting piece 54, the upper end of the white film 52 or the light shielding film 51 is fixed with the rolling drum 53, the rolling motor 55 is fixed at one side of the rolling drum 53 through a bracket 56 and is fixedly connected with the rolling drum 53 through a driving connecting piece (such as a coupling), the rolling motor 55 drives the rolling drum 53 to rotate, so that the white film 52 or the light shielding film 51 can be rolled or released, and the lower end edge of the white film 52 or the light shielding film 51 can be further provided with a balancing weight 57.

As an example of the photovoltaic panel roofing 1, the photovoltaic panel roofing 1 according to the present embodiment includes:

the support frame 11 is of a rectangular frame structure and is connected with the upper ends of the pairs of support columns 2;

the purlines 12 are a plurality of and are distributed on the supporting frame 11 at intervals;

the photovoltaic panel assemblies 13 are a plurality of purlins 12 which are distributed in an array manner;

the adjacent photovoltaic plate assemblies 13 are fixedly connected with purlines 12 below the adjacent photovoltaic plate assemblies 13 through medium-pressure fixing assemblies 14, and the side surfaces of the photovoltaic plate assemblies 13 positioned on the side edges are fixedly connected with purlines 12 below the side surfaces of the photovoltaic plate assemblies through side pressure fixing assemblies 15;

in addition, the purlins 12 are connected to the medium pressure fixing assembly 14 or the side pressure fixing assembly 15 through a supporting assembly 16.

As a preferred alternative, the support assembly 16 of the present embodiment preferably comprises:

the first supporting piece 161 is of an M-shaped structure, two sides of the lower end of the first supporting piece are provided with horizontal extension parts 1612, the horizontal extension parts 1612 are fixedly connected with the purlines 12 through bolt assemblies 1613, and a water guide groove 1611 is formed in the middle of the M-shaped structure of the first supporting piece 161;

the first supporting plate 162 spans the upper end surface of the first supporting member 161 and is provided with bending parts 1621 at two ends thereof, the bending parts 1621 are adapted to two sides of the M-shaped structure of the first supporting member 161, the bending parts 1621 are fixedly connected with the two sides of the M-shaped structure of the first supporting member 161 through bolt assemblies, the middle part of the first supporting plate 162 is provided with mounting holes for being matched and connected with the side pressure fixing assembly 15 or the middle pressure fixing assembly 14, and the mounting holes are threaded holes;

the medium voltage fixation assembly 14 comprises:

the middle pressing block 141 is in a T-shaped structure, and the middle part of the middle pressing block 141 passes through the middle pressing block 141 through a bolt 142 and is in threaded connection with the mounting hole of the first supporting plate 162, wherein clamping spaces for clamping and mounting the side edges of the adjacent photovoltaic panel assemblies 13 are respectively formed between the two sides of the T-shaped structure of the middle pressing block 141 and the first supporting plate 162;

the side pressure fixing assembly 15 includes:

the side pressing block 151 is of an L-shaped structure, a horizontal bend 1511 is formed on the upper side of the L-shaped structure, the lower end face of the side pressing block 151 is in threaded connection with the mounting hole of the first supporting plate 162 through a bolt 1512, and a clamping space for clamping and mounting the side face of the photovoltaic panel assembly 13 is formed between the horizontal bend 1511 and the first supporting plate 162.

The photovoltaic panel roofing 1 is further provided with a pavement plate 17, wherein photovoltaic panel assemblies 13 positioned at two sides of the pavement plate 17 are fixedly connected with purlins 12 below the pavement plate through side pressure fixing assemblies 15, and two sides of the pavement plate 17 are respectively and fixedly connected with a first supporting pallet 162 connected with the side pressure fixing assemblies 15; a plurality of supporting pieces 18 for limiting the stress deformation amplitude of the pavement plate are also arranged on the purlines 12 below the pavement plate 17 at intervals.

The foregoing description is only a partial embodiment of the present utility model, and is not intended to limit the scope of the present utility model, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the present utility model.

Claims (10)

1. BIPV fungus mushroom cultivation canopy, its characterized in that, it includes:

a photovoltaic panel roofing;

the support columns are arranged on two sides below the photovoltaic panel roof in pairs, the upper ends of the support columns are fixedly connected with the lower end face of the photovoltaic panel roof, and the lower ends of the support columns are fixed on the ground;

the fungus mushroom culture racks are arranged on the ground below the photovoltaic panel roof at intervals;

the partition piece is arranged above the fungus mushroom culture rack in a crossing manner and divides the space below the photovoltaic panel roof into a first accommodating space and a second accommodating space;

the spraying assembly is arranged in the first accommodating space and used for spraying and cooling;

the plurality of membrane blocking assemblies are distributed on the periphery of the mushroom culture rack and are connected with the support columns;

and the controller is connected with the spraying assembly and controls the spraying operation of the spraying assembly to be started and stopped.

2. The BIPV mushroom cultivation shed as claimed in claim 1, wherein the roof of the photovoltaic panel is inclined with an inclination of 10%;

a ladder is further arranged on one side of the photovoltaic panel roof, the lower end of the ladder is fixed on the ground, and the upper end of the ladder vertically extends upwards to one side of the photovoltaic panel roof;

and water permeable bricks are paved on the ground below the photovoltaic panel roof.

3. The BIPV mushroom cultivation shed as claimed in claim 1, wherein said partition member is a light-permeable plastic film or an elastic plastic sheet, said partition member being arcuately disposed over the mushroom cultivation frame;

the lower part of the partition piece is also provided with a plurality of arch brackets which are arranged at intervals, and the arch brackets are used for installing the partition piece.

4. The BIPV mushroom growing shed of claim 1, wherein the spray assembly comprises a plurality of spray heads and a water pump connected to the spray heads, wherein the plurality of spray heads are arranged in an array in a first receiving space below the photovoltaic panel roof; in addition, the water pump is connected with a water source and is also connected with a controller, and the controller controls the work to be started and stopped.

5. The BIPV mushroom growing shed of claim 1, wherein the barrier film assembly comprises:

the light shielding films are a plurality of and can be windingly arranged between the adjacent support columns on the same side;

the white films are a plurality of and can be windingly distributed on the periphery of the mushroom culture rack and are connected with the support columns.

6. The shed as in claim 5, wherein more than one of the plurality of light shielding films and/or the plurality of white films is provided with a film rolling assembly for assisting in rolling, the film rolling assembly comprises a rolling motor and a winding drum arranged at the upper end of the white film or the light shielding film, two ends of the winding drum are rotatably connected to the support column, the upper end of the white film or the light shielding film is fixed with the winding drum, the rolling motor is fixed at one side of the winding drum and is fixedly connected with the winding drum through a driving connecting piece, and the winding drum is driven to rotate by the rolling motor, so that the white film or the light shielding film is rolled or released.

7. The BIPV mushroom growing shed of claim 1, wherein the photovoltaic panel roofing comprises:

the support frame is of a rectangular frame structure and is connected with the upper ends of the pairs of support columns;

the purlines are multiple and are distributed on the supporting frame at intervals;

the photovoltaic plate assemblies are arranged above the purlines in an array manner;

the side faces of the photovoltaic plate assemblies positioned on the side edges are fixedly connected with purlines below the side faces of the photovoltaic plate assemblies through side pressure fixing assemblies;

in addition, the purline is connected with the medium-pressure fixing component or the side-pressure fixing component through the supporting component.

8. The BIPV mushroom growing shed of claim 7, wherein the support assembly comprises:

the first supporting piece is of an M-shaped structure, two sides of the lower end of the first supporting piece are provided with horizontal extension parts, the horizontal extension parts are fixedly connected with purlines through bolt assemblies, and a water guide groove is formed in the middle of the M-shaped structure of the first supporting piece;

the first support supporting plate stretches across the upper end face of the first support piece, bending parts which are matched with two sides of the M-shaped structure of the first support piece are arranged at two ends of the first support supporting plate, the bending parts are fixedly connected with two sides of the M-shaped structure of the first support piece through bolt assemblies, mounting holes which are used for being matched and connected with the side pressure fixing assemblies or the middle pressure fixing assemblies are formed in the middle of the first support supporting plate, and the mounting holes are threaded holes;

the medium voltage fixation assembly includes:

the middle pressing block is of a T-shaped structure, the middle part of the middle pressing block passes through the middle pressing block through a bolt and is in threaded connection with the mounting hole of the first supporting plate, and clamping spaces for clamping and mounting the side edges of the adjacent photovoltaic panel assemblies are respectively formed between the two sides of the T-shaped structure of the middle pressing block and the first supporting plate;

the side pressure fixing assembly includes:

the side pressing block is of an L-shaped structure, a horizontal bending is formed on the upper side of the L-shaped structure, the lower end face of the side pressing block is in threaded connection with the mounting hole of the first supporting plate through a bolt, and a clamping space for clamping and mounting the side face of the photovoltaic panel assembly is formed between the horizontal bending and the first supporting plate.

9. The BIPV mushroom cultivation shed as recited in claim 8, wherein a pavement plate is further arranged on the photovoltaic plate roof, wherein photovoltaic plate assemblies positioned at two sides of the pavement plate are fixedly connected with purlins below the pavement plate assemblies through side pressure fixing assemblies, and two sides of the pavement plate are respectively and fixedly connected with a first supporting plate connected with the side pressure fixing assemblies; and a plurality of supporting pieces used for limiting the stress deformation amplitude of the pavement plate are arranged on the purlines below the pavement plate at intervals.

10. A mushroom cultivation system, characterized in that: comprising a BIPV mushroom cultivation shed according to any one of claims 1 to 9.

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