CN220068379U - Multifunctional reinforced greenhouse skeleton structure - Google Patents

Abstract

The utility model relates to the technical field of greenhouses, in particular to a multifunctional reinforced greenhouse framework structure which comprises a horizontal water collecting beam, wherein a plurality of water collecting supporting components are arranged along the length direction of the horizontal water collecting beam, a plurality of cross bars are horizontally arranged between two adjacent water collecting supporting components, the end parts of the cross bars are movably connected to the water collecting supporting components, greenhouse films are arranged between the cross bars, the cross bars are in transmission connection with a cross bar collecting and releasing component, the cross bar collecting and releasing component is arranged at the junction of the horizontal water collecting beam and the water collecting supporting components, a water spraying component is arranged on the inner side of the water collecting supporting component and is communicated with the water collecting supporting components, connecting columns are fixedly connected to the two ends of the bottom of the water collecting supporting component respectively, and a foundation is fixedly connected to the bottom of each connecting column. According to the utility model, the recovery and the expansion of the cross bars are controlled by the cross bar retraction assembly, so that the recovery and the expansion of the greenhouse film are realized.

Description

Multifunctional reinforced greenhouse skeleton structure

Technical Field

The utility model relates to the technical field of greenhouses, in particular to a multifunctional reinforced greenhouse framework structure.

Background

The greenhouse is a building which provides a suitable growth environment for plants, is mainly used for planting plants like vegetables, flowers, forests and the like which are loved to be warm in low-temperature seasons, and a greenhouse framework in the greenhouse is an important structure of the whole greenhouse.

After the structural main body is built up, the structural main body is required to be covered, and the greenhouse is finally formed, but the covering film of the existing greenhouse is inconvenient to install, the installed covering film cannot be moved, the covering film can only be removed when the temperature in summer is high, the covering film is reinstalled when the temperature in summer is equal to that in winter, the waste of covering film materials can be caused, and therefore the problem of the multifunctional reinforced greenhouse framework structure is solved.

Disclosure of Invention

The utility model aims to provide a multifunctional reinforced greenhouse skeleton structure so as to solve the problems.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model provides a multi-functional strenghthened type warmhouse booth skeleton texture, includes the level water collecting beam, follows level water collecting beam length direction is equipped with a plurality of water collecting support assemblies, adjacent two the level is provided with a plurality of horizontal poles between the water collecting support assemblies, the tip swing joint of horizontal pole is in on the water collecting support assembly, a plurality of install the big-arch shelter membrane between the horizontal pole, a plurality of the horizontal pole transmission is connected with horizontal pole and receives and releases the subassembly, the horizontal pole receives and releases the subassembly setting and be in level water collecting beam with the junction of water collecting support assembly, the water collecting support assembly inboard is equipped with water spray assembly, water spray assembly with water collecting support assembly intercommunication, water collecting support assembly bottom both ends rigid coupling respectively has the spliced pole, spliced pole bottom rigid coupling has the basis.

Preferably, the horizontal water collecting beam comprises a beam body, a plurality of arc storage grooves are symmetrically formed in two sides of the middle of the beam body respectively, a water collecting groove is formed in the top of the beam body, arching is arranged in the water collecting groove between two water collecting support components, drainage holes are symmetrically formed in the beam body, one ends of the drainage holes are communicated with the bottom of the water collecting groove, and the drainage holes are formed in the lower ends of the arching.

Preferably, the water collection support assembly comprises support parts fixedly connected to the right two sides of Liang Tizuo, each support part comprises arch columns which are sequentially arranged at intervals from outside to inside, a gap between every two adjacent arch columns is matched with the size of each arc storage groove, a plurality of end parts of the cross rods are slidably arranged in the gaps between every two arch columns, a water tank is arranged on the outer wall of each arch column and located at the outermost side, one end of each water tank is communicated with each water drain hole, the other end of each water tank is communicated with the water spraying assembly, one end of each water spraying assembly is arranged on the inner wall of each arch column and located at the innermost side, the top ends of the arch columns are fixedly connected with the side walls of the beam body, and the bottom ends of the arch columns are fixedly connected with the tops of the connecting columns.

Preferably, the transverse rod winding and unwinding assembly comprises a rotating shaft, the rotating shaft is rotationally connected with the beam body, a first winding roller and a second winding roller are coaxially arranged on the rotating shaft, the first winding roller is located above the second winding roller, the first winding roller is fixedly connected with the rotating shaft, the second winding roller is rotationally connected with the rotating shaft, the rotating shaft is in transmission connection with a driving part, the driving part is arranged at the bottom of the beam body, and the driving part is in transmission connection with the second winding roller.

Preferably, the driving part comprises a rotating handle, the rotating handle is of a bent structure, a vertical section of the rotating handle is coaxially sleeved on the outer side of the rotating shaft, the rotating shaft is movably connected with the rotating handle, a limiting ring is coaxially fixedly connected to the outer side of the vertical section of the rotating handle, the limiting ring is clamped with the bottom of the beam body, the rotating handle is clamped with the rotating shaft through a clamping pin, and the top of the vertical section of the rotating handle is clamped with the bottom of the second winding roller;

the first winding roller is in transmission connection with the end parts of the cross bars positioned above, and the second winding roller is in transmission connection with the end parts of the cross bars positioned below.

Preferably, the water spraying assembly comprises a water storage tank fixedly connected to the foundation, a plurality of water storage tanks are communicated with water collecting tanks through communicating pipes, the side walls of the water collecting tanks are fixedly connected with one sides of the connecting columns, the water collecting tanks are located below the bottom ends of the arch columns, the water collecting tanks are communicated with the bottoms of the arch columns located outside, water spraying portions are communicated with the bottoms of the water storage tanks, and the water spraying portions are fixedly connected with the inner walls of the arch columns located inside.

Preferably, the water spraying part comprises a plurality of nozzles, the nozzles are mutually communicated, the nozzles are fixedly connected to the inner wall of the arch at equal intervals, the nozzles at the bottom are communicated with the water outlet end of the water pump, and the water inlet end of the water pump is communicated with the bottom of the water storage tank.

The utility model has the following technical effects: during the use, lay a plurality of foundations and bury in soil according to warmhouse booth's design, and the spliced pole of rigid coupling on the basis, make the top and the soil top layer flush of spliced pole, the installation of the water collecting support assembly of being convenient for, the bottom both ends of water collecting support assembly are the rigid coupling respectively at the top of spliced pole of same pin, many pin water collecting support assembly erects the back, set up the horizontal water collecting roof beam on a plurality of water collecting support assemblies, warmhouse booth's structure installation finishes this moment, after the major structure erects, install a plurality of horizontal poles between two adjacent water collecting support assemblies, make the tip and the water collecting support assembly swing joint of horizontal pole, install the big-arch shelter membrane on a plurality of horizontal poles, and with the construction of warmhouse booth, with a plurality of horizontal poles and the horizontal pole collection subassembly transmission connection of setting up in the junction of horizontal water collecting roof beam and water collecting support assembly, and the recovery and the expansion of the big-arch shelter membrane of being convenient for, still be provided with a plurality of assemblies in warmhouse booth, every subassembly sets up respectively at corresponding water collecting assembly, and make use of the horizontal water collecting assembly and water collecting roof beam when the water collecting assembly is carried down, the water collecting assembly is used to the water spraying, the rainwater flow direction is realized to the water collecting assembly, the water collecting assembly is reached to the water collecting assembly.

Drawings

For a clearer description of an embodiment of the utility model or of the solutions of the prior art, the drawings that are needed in the embodiment 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 can be obtained according to these drawings without inventive effort for a person skilled in the art:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the cross-sectional structure B-B of FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of the cross-sectional structure A-A of FIG. 1 according to the present utility model;

FIG. 4 is an enlarged view of a portion of FIG. 3C in accordance with the present utility model;

1, soil; 2. a foundation; 3. a water storage tank; 4. a communicating pipe; 5. a connecting column; 6. a water collection tank; 7. arches; 8. a cross bar; 9. a horizontal water collecting beam; 10. a connecting rope; 13. a rotating shaft; 14. a first wire winding roller; 15. a second wire winding roller; 16. rotating the handle; 17. a limiting ring; 18. a bayonet lock; 19. a nozzle; 20. a water pump; 901. a beam body; 902. an arc-shaped storage groove; 903. a drain hole; 904. water collecting and slotting; 905. arching.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

Referring to fig. 1 to 4, the utility model provides a multifunctional reinforced greenhouse skeleton structure, which comprises a horizontal water collecting beam 9, a plurality of water collecting supporting components are arranged along the length direction of the horizontal water collecting beam 9, a plurality of cross rods 8 are horizontally arranged between two adjacent water collecting supporting components, the end parts of the cross rods 8 are movably connected to the water collecting supporting components, a greenhouse film is arranged between the cross rods 8, the cross rods 8 are in transmission connection with a cross rod collecting and releasing component, the cross rod collecting and releasing component is arranged at the junction of the horizontal water collecting beam 9 and the water collecting supporting components, a water spraying component is arranged on the inner side of the water collecting supporting component and is communicated with the water collecting supporting components, connecting columns 5 are fixedly connected to the two ends of the bottom of the water collecting supporting component respectively, and a foundation 2 is fixedly connected to the bottom of the connecting columns 5.

During the use, lay a plurality of foundations 2 and bury in soil 1 according to warmhouse booth's design, and rigid coupling spliced pole 5 on basis 2, make spliced pole 5's top flush with soil 1 top layer, the installation of the spliced pole 5 of the water collection supporting component of being convenient for, the bottom both ends of the spliced pole 5 at same pin of water collection supporting component of being convenient for respectively rigid coupling, many pin water collection supporting component erect the back, set up horizontal water collection roof beam 9 on a plurality of water collection supporting components, warmhouse booth's structure installation at this moment finishes this moment, after the major structure erects, install a plurality of horizontal poles 8 between two adjacent water collection supporting components, make the tip and the water collection supporting component swing joint of horizontal pole 8, install the big-arch shelter membrane on a plurality of horizontal poles 8, and launch big-arch shelter membrane, accomplish warmhouse booth's construction, receive and release the subassembly transmission with a plurality of horizontal poles 8 and the horizontal pole that sets up in horizontal water collection roof beam 9 and water collection supporting component, and expansion, and the recovery and the cross pole that are convenient for big-arch shelter membrane still be provided with a plurality of components in warmhouse booth, the structure installs a plurality of components and water collection roof beam 9 and water collection assembly through corresponding water spray collecting assembly when the water spray, the water collection assembly is carried to the water collection assembly, the water collection assembly is realized to the water collection assembly, the water collection assembly is connected to the water collection assembly.

Further optimizing scheme, horizontal water collection roof beam 9 includes roof beam body 901, and a plurality of arcs are accomodate groove 902 has been seted up to roof beam body 901 middle part both sides symmetry respectively, and roof beam body 901 top has been seted up water collection fluting 904, is equipped with arch 905 in the water collection fluting 904 between the two water collection supporting component, and the symmetry is equipped with wash port 903 in the roof beam body 901, and the one end and the water collection fluting 904 bottom intercommunication of wash port 903, the wash port 903 sets up the lower extreme at arch 905.

As shown in fig. 2, a plurality of arc-shaped storage grooves 902 are respectively arranged on the left side and the right side of a beam body 901, the arc-shaped storage grooves 902 on the two sides are symmetrically arranged, the utility model is preferably 4 arc-shaped storage grooves 902, 2 arc-shaped storage grooves 902 on the same side are arranged at equal intervals along the height direction of the beam body 901, water collecting grooves 904 are formed in the top of the beam body 901, the water collecting grooves 904 are used for collecting falling rainwater, a camber 905 is arranged in the water collecting grooves 904 between two water collecting support components, the high end of the camber 905 is positioned in the middle of the water collecting grooves 904 between the two water collecting support components, and a drain hole 903 used for draining water to the water collecting support components is arranged at the low end of the camber 905, so that after the rainwater falls into the water collecting grooves 904, the rainwater flows along the gradient of the camber 905 to the direction of the water collecting support components, and finally the rainwater is drained into the water collecting support components through the drain hole 903.

Further optimizing scheme, the water collection supporting component includes the supporting part of rigid coupling in the roof beam body 901 left and right sides, the supporting part includes the arched column 7 that is set up by outside-in interval in proper order, clearance and arc between two adjacent arched columns 7 accomodate groove 902 size assorted, the tip slip setting of a plurality of horizontal poles 8 is in the clearance between two arched columns 7, the basin has been seted up on the outer wall of the arched column 7 that is located the outside, the one end and the wash port 903 intercommunication of basin, the other end and the water spray component intercommunication of basin, the one end setting of water spray component is on the inner wall of the arched column 7 that is located the innermost, the top and the roof beam body 901 lateral wall rigid coupling of arched column 7 bottom and spliced pole 5 top rigid coupling.

The left side and the right side of the beam body 901 are fixedly connected with a plurality of arches 7 at equal intervals along the height of the beam body 901, and the utility model preferably ensures that each side of the beam body 901 is fixedly connected with 3 arches 7, the gap between two adjacent arches 7 is matched with the size of the arc-shaped containing groove 902, and the end part of the cross rod 8 is in sliding connection with the two adjacent arches 7 through a sliding groove arranged between the two arches 7.

When a plurality of cross bars 8 are unfolded, a plurality of cross bars 8 are uniformly distributed in the gaps of the two arches 7, and when a plurality of cross bars 8 are folded, a plurality of cross bars 8 are intensively distributed in the arc-shaped storage groove 902. Thereby realizing the unfolding and folding of the greenhouse film on the cross bars 8.

Further optimizing scheme, horizontal pole receive and release subassembly includes axis of rotation 13, axis of rotation 13 and roof beam body 901 rotate to be connected, be provided with first wire winding roller 14 and second wire winding roller 15 on the axis of rotation 13 coaxial, first wire winding roller 14 is located the top of second wire winding roller 15, first wire winding roller 14 and axis of rotation 13 rigid coupling, second wire winding roller 15 and axis of rotation 13 rotate to be connected, axis of rotation 13 transmission is connected with drive division, drive division sets up in roof beam body 901 bottom, drive division and second wire winding roller 15 transmission are connected.

In a further optimized scheme, the driving part comprises a rotating handle 16, the rotating handle 16 is of a bent structure, a vertical section of the rotating handle 16 is coaxially sleeved on the outer side of the rotating shaft 13, the rotating shaft 13 is movably connected with the rotating handle 16, a limiting ring 17 is coaxially fixedly connected to the outer side of the vertical section of the rotating handle 16, the limiting ring 17 is clamped with the bottom of the beam body 901, the rotating handle 16 is clamped with the rotating shaft 13 through a clamping pin 18, and the top of the vertical section of the rotating handle 16 is clamped with the bottom of the second winding roller 15;

the first winding roller 14 is in driving connection with the ends of the several crossbars 8 located above, and the second winding roller 15 is in driving connection with the ends of the several crossbars 8 located below.

The rotating handle 16 is of a bending structure, and a vertical section of the rotating handle 16 is coaxially sleeved on the outer side of the rotating shaft 13, so that the rotating handle 16 can slide vertically with the rotating shaft 13 and can rotate relatively.

The top of the rotating handle 16 is provided with a spline, and the bottom of the second winding roller 15 is provided with a matched key slot, so that the rotating handle 16 is clamped with the bottom of the second winding roller 15.

When the rotary handle is used, firstly, the vertical section of the rotary handle 16 is inserted into the rotary shaft 13, when only the first winding roller 14 is required to rotate, the rotary handle 16 is clamped with the rotary shaft 13 through the clamping pin 18, the top end of the rotary handle 16 is separated from the bottom of the second winding roller 15, and then the rotary shaft 13 is driven by the rotary handle 16 to drive the first winding roller 14 to rotate.

When only the second winding roller 15 is required to rotate, the spline at the top of the rotating handle 16 is inserted into the key slot at the bottom of the second winding roller 15, so that the second winding roller 15 is clamped with the rotating handle 16, at the moment, the clamping pin 18 is removed, and the rotating handle 16 and the rotating shaft 13 can rotate relatively, so that only the second winding roller 15 can rotate.

When the first winding roller 14 and the second winding roller 15 are required to rotate simultaneously, the spline at the top of the rotating handle 16 is inserted into the key slot at the bottom of the second winding roller 15, and the bayonet 18 is clamped with the rotating shaft 13, so that the first winding roller 14 and the second winding roller 15 can rotate simultaneously.

The ends of the cross bars 8 are connected in series through the connecting rope 10, one end of the connecting rope 10 is fixedly connected with the end of the cross bar 8 positioned at the outermost end and penetrates through the end of the rest cross bars 8, the other end of the connecting rope 10 is wound on the corresponding first winding roller 14 or second winding roller 15, the length of the connecting rope 10 can be shortened through the rotation of the first winding roller 14 or the second winding roller 15, the cross bar 8 positioned at the outermost end is pulled to be contained in the arc-shaped containing groove 902, and the end of the cross bar 8 positioned at the inner side is in sliding connection with the connecting rope 10, so that when the connecting rope 10 is collected, the cross bars 8 are mutually close to each other, and can be completely contained in the arc-shaped containing groove 902. The covering films on the two adjacent cross bars 8 are folded up, so that the spreading and the retraction of the covering films are realized.

When the two adjacent cross bars 8 are unfolded, the length of the covering film between the two adjacent cross bars 8 is fixed, the unfolding distance between the two adjacent cross bars 8 is the same, and the cross bars 8 slide along the gaps between the two adjacent arch posts 7 under the action of gravity, so that the unfolding is realized.

Further optimizing scheme, water spray subassembly includes storage water tank 3, and storage water tank 3 rigid coupling is on basis 2, and a plurality of storage water tanks 3 have water catch bowl 6 through communicating pipe 4 intercommunication, and the lateral wall of water catch bowl 6 is located the below of arched column 7 bottom with one side rigid coupling of a plurality of spliced poles 5, water catch bowl 6, and water catch bowl 6 communicates with the arched column 7 bottom that is located the outside, and storage water tank 3 bottom intercommunication has water spray portion, and water spray portion and the inner wall rigid coupling of arched column 7 that is located the inboard.

Further optimizing scheme, the water spraying part comprises a plurality of nozzles 19, a plurality of nozzles 19 are mutually communicated, a plurality of nozzles 19 are fixedly connected to the inner wall of the arch 7 positioned at the inner side at equal intervals, the nozzle 19 positioned at the bottom is communicated with the water outlet end of the water pump 20, and the water inlet end of the water pump 20 is communicated with the bottom of the water storage tank 3.

The bottoms of the arches 7 on the same side are provided with water collecting tanks 6 which are arranged in a through length mode, so that rainwater falling on the arches 7 on the outermost side flows into the water collecting tanks 6 through the water tanks, communication pipes 4 communicated with the bottoms of the water collecting tanks 6 flow into each water storage tank 3, a second arch can be further arranged between two adjacent communication pipes 4 in the water collecting tanks 6, and the lower ends of the second arch are arranged at the communication pipes 4 so that rainwater flows into the communication pipes 4.

After being collected in the water storage tank 3, the rainwater is pumped out by the water pump 20 and then sprayed on crops through the plurality of nozzles 19, so that the effective utilization of the rainwater is realized.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

The foregoing embodiments are merely illustrative of the preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but various modifications and improvements made by those skilled in the art to which the present utility model pertains are made without departing from the spirit of the present utility model, and all changes and modifications and improvements fall within the scope of the present utility model as defined in the appended claims.

Claims (7)

1. A multi-functional strenghthened type warmhouse booth skeleton texture, its characterized in that: including level water collection roof beam (9), follow level water collection roof beam (9) length direction is equipped with a plurality of water collecting support assemblies, adjacent two the level is provided with a plurality of horizontal poles (8) between the water collecting support assemblies, the tip swing joint of horizontal pole (8) is in on the water collecting support assembly, a plurality of install the big-arch shelter membrane between horizontal pole (8), a plurality of horizontal pole (8) transmission is connected with horizontal pole receive and release subassembly, horizontal pole receive and release subassembly sets up level water collection roof beam (9) with the junction of water collecting support assembly, the water collecting support assembly inboard is equipped with water spray assembly, water spray assembly with water collecting support assembly intercommunication, water collecting support assembly bottom both ends rigid coupling respectively has spliced pole (5), spliced pole (5) bottom rigid coupling has basis (2).

2. The multi-functional reinforced warmhouse booth skeletal structure of claim 1, wherein: the horizontal water collecting beam (9) comprises a beam body (901), a plurality of arc containing grooves (902) are symmetrically formed in two sides of the middle of the beam body (901), water collecting grooves (904) are formed in the top of the beam body (901), arching (905) is arranged in each water collecting groove (904) between the water collecting support assemblies, drain holes (903) are symmetrically formed in the beam body (901), one ends of the drain holes (903) are communicated with the bottoms of the water collecting grooves (904), and the drain holes (903) are formed in the lower ends of the arching (905).

3. The multifunctional reinforced greenhouse skeleton structure according to claim 2, wherein: the water collection support assembly comprises support parts fixedly connected to the left side and the right side of the beam body (901), each support part comprises arch columns (7) which are sequentially arranged at intervals from outside to inside, the gaps between every two adjacent arch columns (7) are matched with the arc storage grooves (902) in size, the end parts of the cross rods (8) are slidably arranged in the gaps between the two arch columns (7), a water tank is arranged on the outer wall of the outermost arch column (7), one end of the water tank is communicated with the water drain hole (903), the other end of the water tank is communicated with the water spraying assembly, one end of the water spraying assembly is arranged on the inner wall of the innermost arch column (7), the top ends of the arch columns (7) are fixedly connected with the side walls of the beam body (901), and the bottom ends of the arch columns (7) are fixedly connected with the tops of the connecting columns (5).

4. The multifunctional reinforced greenhouse skeleton structure according to claim 2, wherein: the transverse rod winding and unwinding assembly comprises a rotating shaft (13), the rotating shaft (13) is rotationally connected with a beam body (901), a first winding roller (14) and a second winding roller (15) are coaxially arranged on the rotating shaft (13), the first winding roller (14) is located above the second winding roller (15), the first winding roller (14) is fixedly connected with the rotating shaft (13), the second winding roller (15) is rotationally connected with the rotating shaft (13), a driving part is connected with the rotating shaft (13) in a transmission manner, and the driving part is arranged at the bottom of the beam body (901) and is in transmission connection with the second winding roller (15).

5. The multi-functional reinforced warmhouse booth skeletal structure of claim 4, wherein: the driving part comprises a rotating handle (16), the rotating handle (16) is of a bent structure, a vertical section of the rotating handle (16) is coaxially sleeved outside the rotating shaft (13), the rotating shaft (13) is movably connected with the rotating handle (16), a limiting ring (17) is coaxially fixedly connected to the outer side of the vertical section of the rotating handle (16), the limiting ring (17) is clamped with the bottom of the beam body (901), the rotating handle (16) is clamped with the rotating shaft (13) through a clamping pin (18), and the top of the vertical section of the rotating handle (16) is clamped with the bottom of the second winding roller (15);

the first winding roller (14) is in transmission connection with the end parts of the cross bars (8) positioned above, and the second winding roller (15) is in transmission connection with the end parts of the cross bars (8) positioned below.

6. A multi-functional reinforced warmhouse booth skeleton structure according to claim 3, wherein: the water spraying assembly comprises a water storage tank (3), wherein the water storage tank (3) is fixedly connected to a foundation (2), a plurality of water storage tanks (3) are communicated with a water collecting tank (6) through a communicating pipe (4), the side wall of the water collecting tank (6) is fixedly connected with one side of a connecting column (5), the water collecting tank (6) is located below the bottom end of an arch column (7), the water collecting tank (6) is communicated with the bottom of the arch column (7) located outside, a water spraying part is communicated with the bottom of the water storage tank (3), and the water spraying part is fixedly connected with the inner wall of the arch column (7) located inside.

7. The multi-functional reinforced warmhouse booth skeletal structure of claim 6, wherein: the water spraying part comprises a plurality of nozzles (19), the nozzles (19) are mutually communicated, the nozzles (19) are fixedly connected to the inner wall of the arch (7) at equal intervals, the nozzles (19) at the bottom are communicated with the water outlet end of a water pump (20), and the water inlet end of the water pump (20) is communicated with the bottom of the water storage tank (3).