CN215122539U - Wind, snow and heavy rain resistant and efficient ventilation film greenhouse building - Google Patents

Abstract

The utility model discloses a wind-resistant, snow, heavy rain and high-efficient ventilated film greenhouse building, it includes greenhouse structure main part, steel framework, anti wind snow type net curtain. The greenhouse is in a zigzag shape and comprises a large-compartment steel skeleton and a covering film, insect-proof nets are paved on two side surfaces, the top and a front gable of the greenhouse, a ventilation fan is installed on the rear gable, and a double-shaft film rolling machine is installed on the top; the steel frame comprises a pipe column, a cross beam, a sliding track and an inclined strut; the wind and snow resistant screen is composed of an upper sunshade screen and a lower steel wire mesh and is laid in a screen frame, the screen frame is provided with pulleys and a telescopic device, and the switching position of the screen frame is controlled by a hydraulic controller; the greenhouse and the steel frame are both provided with concrete foundations. The utility model has the advantages of as follows: the position of the wind and snow resistant net curtain is automatically controlled and converted, so that the greenhouse has wind, snow and heavy rain impact resistance while having a sun-shading function; the greenhouse has the combined modes of disease and pest prevention and multiple high-efficiency ventilation; the large bay of the greenhouse is beneficial to mechanical operation.

Description

Wind, snow and heavy rain resistant and efficient ventilation film greenhouse building

[ technical field ] A method for producing a semiconductor device

The utility model relates to a greenhouse building structure field especially relates to a film greenhouse building of anti-wind, snow, heavy rain and high-efficient ventilation.

[ background of the invention ]

The greenhouse building is a low agricultural building facility which adopts a light-transmitting covering material as a building enclosure and has certain environment regulation and control capability to resist adverse climate and ensure normal growth of crops. The covering materials of the greenhouse building mainly comprise plastic films, PC plates, glass and the like. The film greenhouse building adopting the low-density polyethylene plastic film as the envelope structure has the advantages of low investment, high output, simple and convenient construction and the like, and is widely applied to modern agricultural production in various countries. However, the structure belongs to a light membrane structure with a low safety factor, and is more obviously influenced by wind load, snow load and heavy rain than a common building structure. In China, accidents of greenhouse structure damage caused by strong wind, heavy snow and heavy rain occur sometimes. The disasters all the time show that the main damage forms of the thin film greenhouse building are as follows: film damage, framework deformation, component damage and overall collapse bring huge loss to agricultural economy. Meanwhile, as the breadth of our country is wide, the thin film greenhouse building also needs to flexibly select a method of combining one or more ventilation modes according to the climate and environmental conditions of various regions so as to realize the purpose of efficient ventilation.

Therefore, the research on the wind, snow and rainstorm resistance of the thin-film greenhouse building is carried out, and the research and development of the high-performance greenhouse building which can resist various extreme climates and severe environmental conditions and realize the high-efficiency ventilation function have important theoretical and engineering significance for developing modern high-efficiency agricultural production.

At present, the research on the overall stress performance of the thin-film greenhouse building mainly focuses on the research on the independent wind resistance performance or snow resistance performance, and mainly researches through enhancing the mechanical performance of the greenhouse structure main body, namely, a plurality of support columns are usually arranged in the center or other positions inside the greenhouse structure main body, so that the greenhouse is inconvenient to enter the machine for mechanical operation.

Secondly, the existing greenhouse is usually provided with a ventilation measure at one or two positions, the ventilation mode and the ventilation method are single, and the wind direction and the wind speed are difficult to adjust. In order to prevent pests and diseases, greenhouses are usually provided with insect screens at the ventilation openings, and a single ventilation mode and method also cause the reduction of the ventilation efficiency. However, a certain wind action will contribute to the growth of the crop, for example, the circulation of carbon dioxide and oxygen can be promoted to accelerate the photosynthesis of the crop, etc. In addition, in the flowering period, because insects are protected in the greenhouse, the ventilation wind power is insufficient due to a single ventilation mode and method, and therefore, artificial pollination is usually needed to ensure the maturing rate, and the cost is greatly increased.

And thirdly, the existing greenhouse mainly enhances the integral rigidity and stability of the structure, namely, the greenhouse is ensured not to collapse, the film enclosure material is not effectively protected, the film is easy to damage when suffering from the action of rainstorm impact, heavy snow pressure and extreme wind load, and the film is easy to damage due to sharp objects such as sand stones, branches, glass fragments and the like which are easily rolled in heavy wind weather.

In conclusion, the existing greenhouse lacks effective measures for comprehensively resisting wind, snow and rainstorm; the manufacturing cost is high, and the comprehensive disaster resistance performance is low; the ventilation mode and the ventilation method are single, and the overall ventilation efficiency is low. Therefore, the utility model provides a both cost is economical, can satisfy simultaneously again wind-resistant, snow, the rainstorm impact and high-efficient ventilation function's film greenhouse building to solve the main problems that exist at present.

[ Utility model ] content

The utility model discloses a wind-resistant, snow, heavy rain and high-efficient ventilated thin film greenhouse building. The utility model has a plurality of natural ventilation modes and mechanical ventilation modes, and can meet the high-efficiency ventilation requirements of the thin film greenhouse building under various environmental conditions on the basis of effectively preventing plant diseases and insect pests; by automatically controlling and converting the position of the wind and snow resistant screen, the sun-shading requirements of crops in each area in the greenhouse can be met, and the greenhouse has the capabilities of resisting wind, snow and storm impact; the steel skeleton in the greenhouse can realize large-compartment design on the basis of meeting the stress performance, and is beneficial to the indoor operation of large-scale machinery so as to improve the production efficiency of facility agriculture; the position transformation of the wind and snow resistant net curtain is mainly utilized to realize the wind, snow and rainstorm impact resistance of the thin film greenhouse building, the manufacturing cost is relatively economic, and the construction is simple and convenient.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

a wind, snow, heavy rain and high-efficient ventilated membrane greenhouse building, including the structural body 1 of the greenhouse; the longitudinal direction of the greenhouse structure main body 1 is vertical to the main wind direction of the place where the greenhouse structure main body is located; a steel frame 2 is arranged outside the greenhouse structure main body 1, the steel frame 2 comprises a sliding track 21 at the top, the length direction of the sliding track 21 is parallel to the main wind direction, and a pipe column 22 is connected with the sliding track; the sliding rail 21 is connected with two groups of wind and snow resistant net curtains 3 in a sliding manner; the wind and snow resistant net curtain 3 comprises a steel wire mesh 31; the inner side of the steel wire mesh 31 is connected with a connecting shaft 38, the connecting shaft 38 is connected with the sliding rail 21 in a sliding manner through a pulley 37, and the outer side of the steel wire mesh is hinged with a telescopic device 4; the telescopic device 4 is hinged on the pipe column 22; the top of the steel frame 2 is provided with a limiting structure matched with the pulley 37;

the wind and snow resistant net curtain 3 is positioned above the greenhouse structure main body 1 according to the weather conditions and is in a horizontal state or is converted into a state that the windward side of the greenhouse structure main body 1 is vertical.

In a further improvement, the telescopic device is connected with a rotating device, the rotating device is arranged on the pipe column 22, and the telescopic device 4 is an oil cylinder or an air cylinder.

In a further improvement, the rotating device is a rotating oil cylinder or a rotating cylinder or a motor or a stretching device 41 hinged to the end of the telescopic device, the stretching device 41 is hinged to the pipe column 22 and located below the telescopic device 4, the stretching device 41 is an oil cylinder, and the stretching device 41 and the telescopic device 4 are both connected with a hydraulic controller 42.

Further improvement, install sunshade screen 32 on the wire net 31, sunshade screen 32 one end is rolled up on first rolling axle 33, and the other end is connected with stay cord 34, and stay cord 34 is rolled up on second rolling axle 35, and first rolling axle 33 and second rolling axle 35 all are connected with rolling motor 36.

In a further improvement, the limiting structure is a rotating groove 23 formed on the sliding track 21 or the pipe column 22.

The greenhouse structure is further improved, a sawtooth-shaped top 11 is formed at the top of the greenhouse structure main body 1, sliding windows are respectively arranged on the side surfaces of the sawtooth-shaped top 11, the two side surfaces of the greenhouse structure main body 1 and the bottom of the front gable, an insect-proof net 12 is laid at the sliding windows, and a ventilation fan 14 is arranged on the rear gable of the greenhouse structure main body 1; a plurality of wind speed and direction sensors, temperature sensors and humidity sensors are arranged in the greenhouse structure main body 1; the greenhouse structure main body 1 comprises a large bay steel framework 13, wherein a supporting structure is not arranged in the large bay steel framework 13, and a film 15 covers the large bay steel framework; the top of the greenhouse structure main body 1 is provided with a double-shaft film rolling machine 5, and two rotating shafts of the double-shaft film rolling machine 5 are respectively positioned above and below the insect-proof net 12 on the side surface of the serrated top part 11;

the upper rotating shaft of the double-shaft film rolling machine 5 can automatically roll up and roll up the covering film on the left half part of the greenhouse structure main body 1, and the lower rotating shaft can automatically roll up and roll up the covering film on the right half part of the greenhouse structure main body 1.

In a further improvement, the pipe column 22 is a square steel pipe column, a cross beam 25 is fixedly connected between the sliding tracks 21, and the square steel pipe column is connected with an inclined strut 24.

In a further improvement, the inclined strut 24 comprises a welding iron sheet 241 welded on the square steel pipe column, the welding iron sheet 241 is connected with an inclined strut 246 through a first fixing bolt 242, the inclined strut 246 is connected with an angle steel 244 through a second fixing bolt 243, and the angle steel 244 is connected with a full-thread stud 245 fixed on a ground foundation; the side wall of the square steel pipe column is provided with a fixed lock groove 26 corresponding to the connecting shaft 38, a lock tongue 261 is installed in the fixed lock groove 26, and the lock tongue 261 is connected with a handle 262.

In a further improvement, the bottom of the square steel pipe column is connected with an anti-pulling structure 6, the anti-pulling structure 6 is located in a concrete foundation 7, the concrete foundation 7 is connected with a cement pile 71, the concrete foundation 7 and the cement pile 71 both adopt C20 concrete, the anti-pulling structure 6 is a steel pipe net 61 welded at the bottom of the square steel pipe column, and the cement pile 71 is connected with the square steel pipe column through a steel wire 62; the bottom of the steel framework 13 of the large bay is surrounded by a concrete ring beam 72.

In a further improvement, the width of the wind and snow resistant net curtain 3 is 0.7-1.1 times of the width of the greenhouse structure main body 1.

The use method of the wind, snow and heavy rain resistant and efficient ventilation thin-film greenhouse building comprises the following steps: when the greenhouse structure is in a normal environment condition, the wind and snow resistant net curtain 3 is positioned at the top, the sun-shading curtain 32 is controlled to be folded or unfolded according to the temperature in the greenhouse structure main body 1, and the opening of a sliding window at each insect-proof net 12 and the power of the ventilation fan 14 are adjusted according to the wind speed and the wind direction required in the greenhouse structure main body 1, so that the temperature, the wind speed and the wind direction in the greenhouse structure main body 1 are all in conditions suitable for the growth of crops in the greenhouse structure main body 1;

when the environment is met and is larger than the preset wind speed, the wind and snow resistant net curtain 3 on the windward side is controlled to fall to the vertical state;

when the environment is rainstorm or heavy snow or insolation and is higher than the preset wind speed, controlling the wind and snow resistant screen 3 on the windward side to fall to a vertical state, and adjusting the other group of wind and snow resistant screen 3 to be right above the greenhouse structure main body 1;

when meeting the environment of rainstorm or heavy snow or insolation and being less than the preset wind speed, the two groups of wind and snow resistant type net curtains 3 are both arranged above the greenhouse structure main body 1.

In the further improvement, when the environment is met with heavy snow and the wind speed is lower than the preset wind speed, the wind and snow resistant net curtain 3 is positioned above the greenhouse structure main body 1, and the wind and snow resistant net curtain 3 is controlled to fall and fall snow at preset intervals.

Compared with the prior art, the utility model provides a pair of film greenhouse building of anti-wind, snow, heavy rain and high-efficient ventilation has following advantage:

1. on the basis of the traditional film greenhouse building with the sun-shading screen, the film greenhouse building with the wind and snow resistant net screen is innovatively provided, and the position of the wind and snow resistant net screen is automatically controlled and converted, so that the sun-shading requirements of crops in each area in the greenhouse can be met, and the greenhouse has the capability of resisting wind, snow and storm impact.

2. On the basis of the traditional single-ventilation-mode thin-film greenhouse building, the thin-film greenhouse building with multiple natural ventilation modes and mechanical ventilation modes is innovatively provided, the efficient ventilation requirements of the thin-film greenhouse building under various environmental conditions can be met on the basis of effectively preventing plant diseases and insect pests, and the wind direction and the wind speed can be adjusted according to the crop needs.

3. On the basis of the traditional small bay thin-film greenhouse building, the steel skeleton large bay thin-film greenhouse building meeting the stress performance is innovatively provided, and the large-scale mechanical indoor operation is facilitated, so that the production efficiency of facility agriculture is improved.

4. Compared with measures for enhancing the mechanical property of the main body of the greenhouse structure, the position transformation of the wind and snow resistant type net curtain is innovatively utilized to realize effective wind, snow and storm impact resistance of the thin film greenhouse building, the manufacturing cost is more economic, and the construction is simpler and more convenient.

[ description of the drawings ]

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation. It is clear that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic view of the overall structure of a wind, snow, heavy rain and highly efficient ventilation-resistant thin-film greenhouse building of the present invention;

FIG. 2 is a schematic view of the main body of the greenhouse structure of the present invention;

FIG. 3 is a schematic view of the steel skeleton structure of the greenhouse building of the present invention;

FIG. 4 is a schematic view of the front gable structure of the greenhouse building of the present invention;

FIG. 5 is a schematic view of the rear gable structure of the greenhouse building of the present invention;

fig. 6 is a schematic view of the inclined strut structure of the present invention;

fig. 7 is a schematic view of the concrete foundation structure of the present invention;

FIG. 8 is a schematic view of the structure of the square steel pipe column pulling resistance measure of the present invention;

fig. 9 is a schematic structural view of the wind and snow resistant screen of the present invention;

FIG. 10 is a schematic structural view of a rolling structure of the sunshade screen;

FIG. 11 is a schematic view of the connection of the hydraulic telescopic device of the present invention;

fig. 12 is a schematic view of the sliding state of the wind and snow resistant screen of the present invention;

fig. 13 is a schematic view of the rotation process of the wind and snow resistant screen of the present invention;

fig. 14 is a schematic view of the fixing and removing of the wind and snow resistant screen frame of the present invention;

fig. 15 is a schematic view of the wind and snow resistant screen of the present invention.

In the figure: the greenhouse structure comprises a greenhouse structure body 1, a serrated top 11, an insect-proof net 12, a large-compartment steel framework 13, a ventilation fan 14, a film 15, a steel framework 2, a sliding rail 21, a pipe column 22, a rotary groove 23, an inclined strut 24, a welded iron sheet 241, a first fixing bolt 242, a second fixing bolt 243, angle steel 244, a full-thread stud 245, an inclined strut 246, a cross beam 25, a fixing locking groove 26, a locking tongue 261, a handle 262, a wind and snow resistant net curtain 3, a steel wire net 31, a sun-shading curtain 32, a first winding shaft 33, a pull rope 34, a second winding shaft 35, a winding motor 36, a pulley 37, a connecting shaft 38, a telescopic device 4, a stretching device 41, a hydraulic controller 42, a double-shaft film winding machine 5, an anti-pulling structure 6, a steel pipe net 61, a steel wire 62, a concrete foundation 7, a cement pile 71 and a concrete loop beam 72.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept by those skilled in the art with reference to specific embodiments.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1, the utility model provides a wind, snow, heavy rain and high-efficient ventilation film greenhouse building, which comprises a greenhouse structure main body, a steel frame and a wind and snow resistant net curtain.

Specifically, the main body of the greenhouse structure is a zigzag greenhouse, and the longitudinal direction of the greenhouse structure is vertical to the main wind direction of the place where the greenhouse structure is located; the greenhouse structure main body comprises a large-compartment steel framework and a greenhouse film; the main body of the greenhouse structure is surrounded by concrete ring beams, which is beneficial to enhancing the integral stress performance and stability of the structure; insect-proof nets are paved on two side surfaces, the top and the front gable of the greenhouse, a ventilation fan is installed on the rear gable, a double-shaft film rolling machine is installed on the top, and greenhouse films can be automatically rolled and paved through upper and lower film rolling shafts, which can be seen from figures 2-5. The thin film greenhouse building in the embodiment has a plurality of natural ventilation modes and mechanical ventilation modes such as side ventilation, gable ventilation and top ventilation; a plurality of wind speed and direction sensors, temperature sensors and humidity sensors are arranged in the greenhouse structure main body, and environmental condition parameters such as indoor wind speed, wind direction, temperature and humidity can be monitored in real time; the opening of a sliding window at each insect-proof net and the power of a ventilation fan are adjusted according to the environmental condition parameters required in the greenhouse structure main body, one or more ventilation modes are flexibly selected and combined, on the basis of effectively preventing diseases and insect pests of indoor crops and meeting the sun-shading effect, the efficient ventilation requirement of the thin-film greenhouse building and the condition that the crops are suitable for growing under various environmental conditions can be met.

The steel frame comprises a pipe column, a cross beam, a sliding track and an inclined strut, and is erected in the outer space of the greenhouse structure main body, and the reference figure 1 can be seen. The steel framework is provided with a plurality of cross beams and stand column inclined struts, so that the overall stability of the steel framework is enhanced, and the wind and snow resistant net curtain can safely slide on the steel framework and can be shifted. The inclined strut comprises a welding iron sheet welded on the square steel pipe column, the welding iron sheet is connected with an inclined strut through a first fixing bolt, the inclined strut is connected with an angle steel through a second fixing bolt, and the angle steel is connected with a full-thread stud fixed on the ground foundation, and the reference can be made to fig. 6. Concrete foundations, anti-pulling measures and cement pile fixing measures are arranged at the bottoms of the square steel tube columns, and the concrete foundations, the anti-pulling measures and the cement pile fixing measures can be referred to figures 7-8; c20 concrete is adopted for the concrete foundation and the cement pile; the anti-pulling measure adopts a method of welding a steel pipe network at the bottom of the square steel pipe column to enhance the anti-pulling force; the cement pile fixing measure is that the cement pile is connected with the square steel pipe column through a steel wire so as to enhance the overall stability of the steel frame.

The wind and snow resistant net curtain is composed of an upper sun-shading curtain and a lower steel wire net, and can be seen in figure 9. One end of the sun-shading screen is wound on the first winding shaft, the other end of the sun-shading screen is connected with a pull rope, the pull rope is wound on the second winding shaft, and the first winding shaft and the second winding shaft are both connected with winding motors; when the sun shading is not needed and sufficient illumination is needed, the upper layer sun shading curtain can be automatically collected, the lower layer steel wire mesh does not influence the illumination intensity basically, and the reference of figure 10 can be made. The connecting shaft is arranged on the inner side of the steel wire mesh of the wind and snow resistant screen, the connecting shaft is in sliding connection with the sliding track through the pulley, the outer side of the steel wire mesh is hinged with the telescopic device, the telescopic device is hinged to the pipe column, and the sliding, position conversion and fixing of the wind and snow resistant screen are controlled by the limiting structure matched with the pulley on the top of the steel frame, the hydraulic controller installed on the pipe column and the fixed locking groove corresponding to the connecting shaft on the pipe column, so that the wind and snow resistant screen can be referred to fig. 11-15. The limiting structure is a rotary groove formed in the sliding track and the pipe column, a lock tongue is installed in the fixed lock groove, and the lock tongue is connected with a handle, and the reference can be made to fig. 13-14. The internal pulley of the wind and snow resistant net curtain can slide to the rotating groove at the top of the pipe column, and the wind and snow resistant net curtain is converted from a horizontal position to a vertical position through the rotating groove and the telescopic device and is fixed by the fixed locking groove to form a wind shielding measure with the property of a wind shielding wall, so that the wind load borne by the greenhouse structure main body can be effectively relieved, and the method can be seen in fig. 15.

Aiming at various environmental conditions, the setting mode of the wind and snow resistant screen is as follows: when the greenhouse is in a normal environmental condition, the wind and snow resistant net curtain is fixed at the top of the main structure of the greenhouse, and the sun-shading curtain is controlled to be folded or unfolded according to the growth requirements of indoor crops; when the wind-resistant snow-resistant net curtain is only in a strong wind environment, the wind-resistant snow-resistant net curtain on the windward side is controlled to fall to a vertical state to form a wind-blocking wall so as to reduce wind load; when the greenhouse is in a rainstorm or wind and snow environment, the wind and snow resistant net curtain on the windward side is controlled to fall to a vertical state, and the other group of wind and snow resistant net curtain is adjusted to be right above the greenhouse structure main body; when the greenhouse is only in a rainstorm environment, a heavy snow environment or a insolation environment, the two groups of wind and snow resistant net curtains are both positioned above the main body of the greenhouse structure; when the greenhouse is only in a heavy snow environment, the wind and snow resistant net curtain is positioned above the greenhouse structure main body, and the wind and snow resistant net curtain is controlled to fall down and fall snow at intervals.

Because the wind and snow resistant net curtain can meet the sun shading function and can effectively relieve wind load, snow load and storm impact load acting on the greenhouse structure main body, the steel framework of the film greenhouse building provided with the wind and snow resistant net curtain can be designed into a large-compartment steel framework, the indoor operation of large machinery is facilitated, the production efficiency is improved, and the reference figure 3 can be seen.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments may still fall within the scope of the present invention without departing from the technical scope of the present invention.

Claims (10)

1. A wind, snow, heavy rain and high-efficiency ventilated thin-film greenhouse building is characterized by comprising a greenhouse structure main body (1); the longitudinal direction of the greenhouse structure main body (1) is vertical to the main wind direction of the place where the greenhouse structure main body is located; a steel frame (2) is installed outside the greenhouse structure main body (1), the steel frame (2) comprises a sliding track (21) at the top, the length direction of the sliding track (21) is parallel to the main wind direction, and a pipe column (22) is connected; the sliding rail (21) is connected with two groups of wind and snow resistant net curtains (3) in a sliding manner; the wind and snow resistant net curtain (3) comprises a steel wire mesh (31); the inner side of the steel wire mesh (31) is connected with a connecting shaft (38), the connecting shaft (38) is connected with the sliding track (21) in a sliding manner through a pulley (37), and the outer side of the steel wire mesh is hinged with a telescopic device (4); the telescopic device (4) is hinged on the pipe column (22); and the top of the steel frame (2) is provided with a limiting structure matched with the pulley (37).

2. Wind, snow, storm and highly efficient ventilation thin-film greenhouse building as claimed in claim 1, characterized in that the telescopic means are connected with rotating means, which are mounted on a pipe column (22), the telescopic means (4) being oil or air cylinders.

3. Wind, snow, storm and highly efficient ventilation membrane greenhouse building as claimed in claim 2, characterized in that the rotating means is a rotating cylinder or an electric motor or a stretching device (41) hinged to the end of the telescopic device, the stretching device (41) is hinged to the pipe column (22) and under the telescopic device (4), the stretching device (41) is a cylinder, and the stretching device (41) and the telescopic device (4) are connected with a hydraulic controller (42).

4. Wind, snow, heavy rain and high efficiency ventilation membrane greenhouse building as claimed in claim 1, characterized in that the steel wire net (31) is mounted with a sunshade screen (32), one end of the sunshade screen (32) is wound on a first winding shaft (33), the other end is connected with a pulling rope (34), the pulling rope (34) is wound on a second winding shaft (35), and the first winding shaft (33) and the second winding shaft (35) are both connected with a winding motor (36).

5. Wind, snow, storm and highly efficient ventilation thin film greenhouse building as claimed in claim 1, characterized in that the limiting structure is a rotation groove (23) formed on the sliding rail (21) or the pipe column (22).

6. The wind, snow, storm and efficient ventilation thin-film greenhouse building as claimed in claim 1, wherein the top of the greenhouse structure body (1) is formed with a serrated top (11), sliding windows are installed on the side of the serrated top (11), the two sides of the greenhouse structure body (1) and the bottom of the front gable, an insect-proof net (12) is laid at the sliding windows, and a ventilation fan (14) is installed on the rear gable of the greenhouse structure body (1); a plurality of wind speed and direction sensors, a temperature sensor and a humidity sensor are arranged in the greenhouse structure main body (1); the greenhouse structure main body (1) comprises a large-compartment steel skeleton (13), wherein a supporting structure is not arranged in the large-compartment steel skeleton (13), and a film (15) is covered on the large-compartment steel skeleton; the double-shaft film rolling machine (5) is installed at the top of the greenhouse structure main body (1), and two rotating shafts of the double-shaft film rolling machine (5) are respectively positioned above and below the insect-proof net (12) on the side surface of the serrated top (11).

7. Wind, snow, storm and highly efficient ventilation membrane greenhouse building as claimed in claim 6, characterized in that the pipe columns (22) are square steel pipe columns, the cross beams (25) are fixedly connected between the sliding rails (21), and the diagonal braces (24) are connected to the square steel pipe columns.

8. The wind, snow, storm and highly efficient ventilation thin film greenhouse building as claimed in claim 7, wherein the diagonal brace (24) comprises a welded iron sheet (241) welded on a square steel pipe column, the welded iron sheet (241) is connected with a diagonal brace (246) through a first fixing bolt (242), the diagonal brace (246) is connected with an angle steel (244) through a second fixing bolt (243), and the angle steel (244) is connected with a full thread stud (245) fixed on a ground foundation; the side wall of the square steel pipe column is provided with a fixed lock groove (26) corresponding to the connecting shaft (38), a lock tongue (261) is installed in the fixed lock groove (26), and the lock tongue (261) is connected with a handle (262).

9. The wind, snow, storm and efficient ventilation thin-film greenhouse building as claimed in claim 7, wherein the bottom of the square steel tube column is provided with a pulling-resistant structure (6), the pulling-resistant structure (6) is located in a concrete foundation (7), the concrete foundation (7) is connected with a cement pile (71), the concrete foundation (7) and the cement pile (71) are both made of C20 concrete, the pulling-resistant structure (6) is a steel tube net (61) welded at the bottom of the square steel tube column, and the cement pile (71) and the square steel tube column are connected through steel wires (62); the bottom of the steel framework (13) of the large bay is surrounded by a concrete ring beam (72).

10. Wind, snow, storm and highly efficient ventilation thin film greenhouse building as claimed in claim 1, characterized in that the width of the wind and snow resistant type net curtain (3) is 0.7 to 1.1 times the width of the greenhouse structure body (1).

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