CN220935873U

CN220935873U - Assembled greenhouse keel structure with sunshade function

Info

Publication number: CN220935873U
Application number: CN202322358474.0U
Authority: CN
Inventors: 王雷
Original assignee: Jiuchuang Tianjin Construction Equipment Co ltd
Current assignee: Jiuchuang Tianjin Construction Equipment Co ltd
Priority date: 2023-08-31
Filing date: 2023-08-31
Publication date: 2024-05-14
Anticipated expiration: 2033-08-31

Abstract

The utility model discloses an assembled greenhouse keel structure with a sun-shading function, which comprises a greenhouse body, a supporting mechanism used as a greenhouse top keel structure, a beam frame mechanism used as an adjustable keel structure and a ground pile mechanism used for improving the anchoring stability of the greenhouse keel, wherein the supporting mechanism is positioned at the top of the greenhouse body, the beam frame mechanism is arranged at the inner side of the supporting mechanism, and the ground pile mechanism is arranged at the bottom of the greenhouse body.

Description

Assembled greenhouse keel structure with sunshade function

Technical Field

The utility model relates to the technical field of agricultural greenhouses, in particular to an assembled greenhouse keel structure with a sun-shading function.

Background

In the prior art, along with economic development and development of lands in unsuitable planting areas such as deserts, ideal economic benefit and social benefit can be obtained in severe cold and cold areas by greatly developing greenhouse cultivation and planting, a large amount of planting lands which can be developed and utilized are formed by improving the greenhouse, the agricultural greenhouse is widely applied in agricultural production activities such as vegetable planting, flower cultivation and seed breeding in the world, at present, most greenhouse walls need to be constructed on site, the walls are built by common masonry, the secondary adhesion of an external heat preservation layer is mainly performed, the construction is complicated, the wet operation amount is large, the wall functions are relatively single, the fireproof performance is poor, the waterproof and impervious performance are poor, the comprehensive cost is relatively high, in addition, a greenhouse structure formed by adopting a steel frame main body and a heat preservation plastic film is also provided, and when the greenhouse structure is in severe weather such as snow, the greenhouse surface is easily broken by pressing heavy weights, so that the greenhouse is necrotized, the crops are inconvenient to assemble, disassemble and adjust, and the use condition is relatively single.

The application number is: 202223143444.X discloses a keel type greenhouse with rain eaves, which comprises a greenhouse frame, a bottom plate, a rain eaves keel frame and a fixing mechanism, wherein: the bottom plate is fixedly connected to the bottom end of the greenhouse frame, the rain eave keel frame is connected to the greenhouse frame, and the fixing mechanism is fixedly connected to the greenhouse frame; the rain eaves fossil fragments frame includes a plurality of connecting rods, horizontal pole and reinforcement, and the one end fixed connection of a plurality of connecting rods is on the greenhouse frame, and the other end fixed connection of a plurality of connecting rods is on the horizontal pole, and one side fixed connection of reinforcement is on the greenhouse frame, and the opposite side fixed connection of reinforcement is on the horizontal pole. However, the keel type greenhouse structure with the rain eave is complex, the fixed keel structure is adopted, the beam frame structure of the greenhouse structure cannot be adjusted, the service condition is single, and the tapered ground pile structure is adopted as a single anchoring structure of the greenhouse, so that the anchoring stability of the greenhouse is poor, and the phenomenon of anchor falling easily occurs.

Disclosure of utility model

The utility model aims to provide an assembled greenhouse keel structure with a sun-shading function.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

The utility model provides an assembled greenhouse fossil fragments structure with sunshade function, includes the greenhouse body, the greenhouse body erects subaerial, still includes the supporting mechanism who is used for as greenhouse top fossil fragments structure, is used for as adjustable fossil fragments structure's roof beam structure mechanism and is used for promoting greenhouse fossil fragments anchor stability's ground stake mechanism, and supporting mechanism is located the top of greenhouse body, roof beam structure mechanism arranges in the supporting mechanism is inboard, and ground stake mechanism disposes the bottom of greenhouse body.

The supporting mechanism comprises two groups of supporting upright posts, supporting beams and supporting diagonal rods, wherein the two groups of supporting upright posts are arranged at intervals side by side at the upper end of the greenhouse body and fixedly connected with the greenhouse body, the supporting upright posts are vertically arranged, the supporting beams are arranged between the two groups of supporting upright posts, the two ends of the supporting beams are respectively fixedly connected with the two groups of supporting upright posts, the two groups of supporting diagonal rods are arranged between the two groups of supporting diagonal rods, the supporting upright posts are respectively arranged between the supporting upright posts and the two ends of the supporting beams through sliding sleeves, the supporting beams are respectively connected with the supporting upright posts in a sliding mode, and at least one group of supporting mechanisms are arranged on the supporting mechanisms.

The greenhouse is characterized by further comprising an airfoil connecting frame, wherein the airfoil connecting frame is arranged at the joint of the supporting upright post and the greenhouse body, airfoil parts are arranged on two sides of the airfoil connecting frame, the airfoil parts positioned on the outer side of the supporting upright post are vertically arranged and are in fit with the corresponding supporting upright post, and the airfoil parts positioned on the inner side of the supporting upright post are obliquely arranged and are in fit with the corresponding supporting upright post, so that a space is reserved between the airfoil parts.

The beam frame mechanism comprises arc-shaped connecting beams, arc-shaped bending beams and beam frame connecting rods, wherein the arc-shaped connecting beams and the arc-shaped bending beams are arranged between two groups of supporting columns in a relatively inclined mode, one ends of the arc-shaped connecting beams, which are far away from each other, are fixedly connected with the wing-shaped connecting frames, the arc-shaped connecting beams and one ends of the arc-shaped bending Liang Xiangjin are connected through connecting sleeves in a sliding mode, the arc-shaped connecting beams and the arc-shaped bending beams form an arc-shaped beam frame structure together, the two groups of beam frame connecting rods are arranged between the arc-shaped connecting beams and the arc-shaped bending beams respectively, the arc-shaped bending beams are vertically arranged, one ends of the beam frame connecting rods are in rotary connection with the corresponding arc-shaped connecting beams or the arc-shaped bending beams, the other ends of the arc-shaped bending beams are in sliding connection with the greenhouse body through connecting sleeves, and the beam frame mechanism is provided with at least one group of corresponding supporting mechanisms.

Still including strengthening supporting beam and strengthening the tie-beam, strengthening supporting beam sets up the arc tie-beam with the junction of arc bending beam and its upper end with the arc tie-beam reaches the adapter sleeve of arc bending beam junction rotates to be connected, strengthening supporting beam vertical arrangement and its lower extreme with big-arch shelter body sliding connection, strengthening the tie-beam is equipped with two sets of, two sets of strengthening the tie-beam relative tilt arrangement and both lower extreme all with strengthening the lower extreme rotation of tie-beam is connected, two sets of strengthening the tie-beam one end that keeps away from each other respectively with two sets of the upper end rotation of roof beam frame connecting rod is connected.

The arc is buckled Liang Kaojin the one end of arc tie beam adopts the design of buckling and its kink is located the top of arc tie beam, the arc tie beam with the junction of arc tie beam the roof beam connecting rod with the arc tie beam and the junction of arc tie beam the kink of arc tie beam all disposes spandrel girder structure.

The ground stake mechanism includes continuous ground beam and spiral ground stake, continuous ground beam sets up the bottom of big-arch shelter body and with big-arch shelter body fixed connection, spiral ground stake sets up the lower part of continuous ground beam and with continuous ground beam fixed connection, the lower part of spiral ground stake sets up to the taper structure just spiral ground stake inserts and establishes in soil, the big-arch shelter body erects subaerial through ground stake mechanism.

The greenhouse body comprises greenhouse stand columns and greenhouse cross bars, the greenhouse stand columns and the greenhouse cross bars are all provided with a plurality of groups, and the greenhouse stand columns and the greenhouse cross bars are arranged in an array and are fixedly connected with each other to form a greenhouse body structure.

The greenhouse also comprises a film pressing belt, wherein the film pressing belt is obliquely arranged at the edge of the greenhouse body and is fixedly connected with the greenhouse body.

The greenhouse also comprises two groups of access doors, wherein the two groups of access doors are symmetrically arranged at the lower parts of two ends of the greenhouse body.

The beneficial effects of the utility model are as follows:

Simple structure is equipped with supporting mechanism and roof beam structure cooperation, constitutes adjustable big-arch shelter roof beam frame fossil fragments structure jointly, can adjust roof beam structure according to actual conditions to according to the inside illuminance of user demand adjustment big-arch shelter, use in a flexible way, and its fossil fragments structure is connected through dismantling the connecting piece, is convenient for realize the assembly and the dismantlement of big-arch shelter fossil fragments structure, and the installation is stable, is equipped with ground stake mechanism, and it adopts spiral ground stake to combine continuous ground roof beam to constitute combined type anchor structure, can effectively promote the anchor stability of big-arch shelter.

Drawings

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

FIG. 2 is a schematic view of the support mechanism of the present utility model mated with a beam mechanism;

FIG. 3 is a schematic view of the airfoil portion of the airfoil attachment of the present utility model in a vertical arrangement;

FIG. 4 is a schematic view of the inclined arrangement of the airfoil portion of the airfoil attachment of the present utility model;

FIG. 5 is a schematic view of the pile mechanism of the present utility model;

figure 6 is a side view of a greenhouse keel structure of the utility model.

In the figure: 1. a greenhouse body; 2. a support column; 3. a support beam; 4. supporting the diagonal draw bar; 5. an airfoil shaped connecting frame; 6. an arc-shaped connecting beam; 7. an arc bending beam; 8. a beam frame connecting rod; 9. reinforcing the support beam; 10. reinforcing the connection beam; 11. a continuous ground beam; 12. spiral ground piles; 13. film pressing belts; 14. and a door is opened and closed.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings,

The utility model discloses an assembled greenhouse keel structure with a sun-shading function, which comprises a greenhouse body 1, wherein the greenhouse body 1 is erected on the ground, and further comprises a supporting mechanism serving as a greenhouse top keel structure, a beam frame mechanism serving as an adjustable keel structure and a ground pile mechanism for improving the anchoring stability of the greenhouse keel, wherein the supporting mechanism is positioned at the top of the greenhouse body 1, the beam frame mechanism is arranged at the inner side of the supporting mechanism, and the ground pile mechanism is arranged at the bottom of the greenhouse body 1.

The support mechanism comprises two groups of support columns 2, support beams 3 and support diagonal rods 4, wherein the two groups of support columns 2 are arranged at the upper end of the greenhouse body 1 side by side at intervals and are fixedly connected with the greenhouse body 1, the support columns 2 are vertically arranged, the support beams 3 are arranged between the two groups of support columns 2, the two ends of the support beams are respectively fixedly connected with the two groups of support columns 2, the support diagonal rods 4 are arranged between the two groups of support columns 2 and the support beams 3, the two ends of the support diagonal rods 4 are respectively connected with the support beams 3 and the corresponding support columns 2 in a sliding mode through sliding sleeves, the support mechanism is provided with at least one group, three groups of support mechanisms are matched with the support beams 3 and the support diagonal rods 4 to form a support framework structure of the top of the greenhouse, the support beams 2 are used for providing mounting support for the support beams 3, the support beams 3 are used for jointly forming the support framework structure of the top of the greenhouse, and the support diagonal rods 4 are used for improving the connection stability between the support columns 2 and the support beams 3 and the support framework structure of the top of the greenhouse, the support framework structure is matched with the support framework structure of the top of the greenhouse, and the support mechanism is shown in a schematic diagram 2.

The greenhouse is characterized by further comprising an airfoil connecting frame 5, wherein the airfoil connecting frame 5 is arranged at the joint of the supporting upright post 2 and the greenhouse body 1, airfoil parts are arranged on two sides of the airfoil connecting frame 5, the airfoil parts positioned on the outer side of the supporting upright post 2 are vertically arranged and are attached to the corresponding supporting upright post 2, the airfoil parts positioned on the inner side of the supporting upright post 2 are obliquely arranged and are spaced from the corresponding supporting upright post 2, the airfoil connecting frame 5 is used as a connecting structure on the supporting upright post 2, so that mounting support is provided for a beam frame mechanism, the airfoil parts are vertically arranged to improve the integrity of the outer side of the greenhouse, the vertical arrangement state schematic diagram of the airfoil parts of the airfoil connecting frame 5 is shown in fig. 3, the inclined arrangement state schematic diagram of the airfoil parts of the airfoil connecting frame 5 can meet the mounting requirement of the beam frame mechanism, and the inclined arrangement state schematic diagram of the airfoil parts is shown in fig. 4.

The roof beam structure includes arc tie beam 6, arc bending beam 7 and roof beam frame connecting rod 8, arc tie beam 6 and arc bending beam 7 relative tilt arrangement just one end that the two kept away from each other between two sets of support columns 2 and the wing section link 5 fixed connection that corresponds, arc tie beam 6 and the similar one end of arc bending beam 7 pass through adapter sleeve sliding connection and the two constitutes the roof beam frame structure jointly, roof beam frame connecting rod 8 is equipped with two sets of, two sets of roof beam frame connecting rods 8 set up respectively between arc tie beam 6 and arc bending beam 7 and big-arch shelter body 1 and vertical arrangement, the one end of roof beam frame connecting rod 8 and the arc tie beam 6 or arc bending beam 7 swivelling joint who corresponds and its other end pass through adapter sleeve and big-arch shelter body 1 sliding connection, roof beam frame mechanism corresponds supporting mechanism and is equipped with at least a set of, roof beam frame mechanism is equipped with three sets of in this technical scheme, roof beam frame mechanism passes through arc tie beam 6, arc bending beam 7 and roof beam frame connecting rod 8 cooperation, constitute the adjustable roof beam frame structure of big-arch shelter fossil fragments structure, wherein, arc tie beam 6 is used for and the arc bending beam 7 forms the adjustable roof beam frame structure jointly and adjusts the roof beam frame structure with arc bending beam 7 and need the arc bending beam 7 to adjust the arc tie beam 7, and the arc-up position is adjusted to the arc tie beam 7, and the arc-up with the arc-beam 7 is connected with the arc bending beam 7, thereby the adjusting mechanism is connected with the arc bending beam structure.

Still include reinforcing support beam 9 and reinforcing tie beam 10, reinforcing support beam 9 sets up in the junction of arc tie beam 6 and arc bending beam 7 and its upper end and arc tie beam 6 and arc bending beam 7 junction's adapter sleeve rotate and be connected, reinforcing support beam 9 is vertical to be arranged and its lower extreme and big-arch shelter body 1 sliding connection, reinforcing tie beam 10 is equipped with two sets of, two sets of reinforcing connection beams 10 relative tilt arrangement and the lower extreme of two sets of reinforcing connection beams 10 are all rotated with reinforcing support beam 9's lower extreme and are connected, two sets of reinforcing connection beams 10 one end that keeps away from each other is rotated with two sets of roof beam frame connecting rod 8's upper end respectively and is connected, wherein, reinforcing support beam 9 is used for being connected arc tie beam 6 and arc bending beam 7 junction and big-arch shelter body 1, thereby promote the connection stability between two junctions and the big-arch shelter body 1, reinforcing connection beam 10 is used for being connected beam frame connecting rod 8 and reinforcing support beam 9 constitutes the fork form the beam body jointly with reinforcing support beam 9, thereby promote the connection stability between reinforcing support beam 9 and the beam frame connecting rod 8.

The one end that arc bending beam 7 is close to arc tie beam 6 adopts the design of buckling and its kink position is located the top of arc tie beam 6, the junction of arc tie beam 6 and arc bending beam 7, roof beam structure is all disposed to the junction of roof beam frame connecting rod 8 and arc tie beam 6 and arc bending beam 7, the kink of arc bending beam 7, wherein, can adjust the roof beam frame structure through adjusting the relative position between kink and the arc tie beam 6, the roof beam structure is used for providing support for roof beam frame mechanism.

The ground pile mechanism comprises a continuous ground beam 11 and a spiral ground pile 12, wherein the continuous ground beam 11 is arranged at the bottom of the greenhouse body 1 and is fixedly connected with the greenhouse body 1, the spiral ground pile 12 is arranged at the lower part of the continuous ground beam 11 and is fixedly connected with the continuous ground beam 11, the lower part of the spiral ground pile 12 is in a conical structure, the spiral ground pile 12 is inserted into soil, the greenhouse body 1 is erected on the ground through the ground pile mechanism, the ground pile mechanism can anchor the greenhouse body 1 on the ground through the cooperation of the continuous ground beam 11 and the spiral ground pile 12, the continuous ground beam 11 is used for serving as a mounting structure of the bottom of the greenhouse body 1 and providing mounting support for the spiral ground pile 12, and the spiral ground pile 12 and the continuous ground beam 11 form a stable anchoring structure together to anchor the greenhouse body 1 on the ground.

The greenhouse body 1 comprises greenhouse stand columns and greenhouse cross bars, the greenhouse stand columns and the greenhouse cross bars are all provided with a plurality of groups, the greenhouse stand columns and the greenhouse cross bars are arranged in an array mode and are fixedly connected with each other to form a greenhouse body 1 structure, wherein the greenhouse stand columns and the greenhouse cross bars jointly form a main body of the assembled greenhouse structure, and volume adjustment of the greenhouse structure can be achieved according to the quantity of the greenhouse stand columns and the greenhouse cross bars.

The greenhouse keel structure is characterized by further comprising a film pressing belt 13, wherein the film pressing belt 13 is obliquely arranged at the edge of the greenhouse body 1 and fixedly connected with the greenhouse body 1, the film pressing belt 13 is used for pressing the surface film of the greenhouse, so that the stability of the surface film of the greenhouse body 1 is improved, and the side view of the greenhouse keel structure is shown in figure 6.

The greenhouse also comprises an access door 14, wherein the access door 14 is provided with two groups, and the two groups of access doors 14 are symmetrically arranged at the lower parts of the two ends of the greenhouse body 1, wherein the access door 14 is used as an access structure of the end part of the greenhouse body 1 so as to facilitate the access of workers to the greenhouse.

The number, the size and the installation position of each part in the technical scheme can be adaptively adjusted according to the actual situation of the site.

Working principle:

The greenhouse body 1 is anchored on the ground through the spiral ground piles 12, the supporting mechanism is assembled at the top of the greenhouse body 1 to serve as a supporting structure of the greenhouse top, thereby providing mounting support for the beam frame mechanism, adjusting the positions of the connecting ends of the arc-shaped connecting beams 6 and the arc-shaped bending beams 7 according to the specification of the greenhouse body 1, adjusting the lengths of the protruding arc-shaped connecting beams 6 of the bending beams 7, further realizing the adjustment of the beam frame structure, realizing the detachable assembled connection of each part of the beam frame structure by adopting connecting pieces, improving the use flexibility of the keel structure, enabling the outer covering film to be attached to the outer side of the greenhouse through the keel structure, adjusting the illumination intensity of the illumination entering the interior of the greenhouse through the outer covering film by adjusting the relative positions between the bending portions of the arc-shaped bending beams 7 and the arc-shaped connecting beams 6, and further realizing the adjustment of the illumination intensity inside the greenhouse.

The adjustable greenhouse beam frame keel structure has the advantages that the adjustable greenhouse beam frame keel structure is simple in structure, the supporting mechanism is matched with the beam frame mechanism to jointly form the adjustable greenhouse beam frame keel structure, the beam frame structure can be adjusted according to actual conditions, so that the illuminance inside the greenhouse can be adjusted according to use requirements, the greenhouse is flexible to use, the keel structure is connected through the detachable connecting piece, the assembly and the disassembly of the greenhouse keel structure are convenient to realize, the installation is stable, the ground pile mechanism is arranged, the composite anchoring structure is formed by combining the spiral ground piles with the continuous ground beams, and the anchoring stability of the greenhouse can be effectively improved.

The foregoing describes one embodiment of the present utility model in detail, but the disclosure is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims

1. The utility model provides an assembled greenhouse fossil fragments structure with sunshade function, includes greenhouse body (1), greenhouse body (1) erects subaerial, its characterized in that still includes the supporting mechanism who is used for as greenhouse top fossil fragments structure, is used for as adjustable fossil fragments structure's roof beam structure and is used for promoting greenhouse fossil fragments anchoring stability's ground stake mechanism, and supporting mechanism is located the top of greenhouse body (1), roof beam structure arranges in supporting mechanism inboard, and ground stake mechanism disposes the bottom of greenhouse body (1).

2. The assembled greenhouse keel structure with the sun-shading function according to claim 1, wherein the supporting mechanism comprises two supporting columns (2), supporting beams (3) and supporting diagonal rods (4), the two supporting columns (2) are arranged in two groups, the two supporting columns (2) are arranged at the upper end of the greenhouse body (1) side by side at intervals and fixedly connected with the greenhouse body (1), the supporting columns (2) are vertically arranged, the supporting beams (3) are arranged between the two groups of supporting columns (2) and are fixedly connected with the two groups of supporting columns (2) at two ends respectively, the supporting diagonal rods (4) are arranged between the two groups of supporting columns (2) and the supporting beams (3) and are connected with the supporting beams (3) in a sliding mode through sliding sleeves at two ends respectively, and the supporting mechanism is provided with at least one group.

3. The assembled greenhouse keel structure with the sun-shading function according to claim 2, further comprising an airfoil connecting frame (5), wherein the airfoil connecting frame (5) is arranged at the joint of the supporting upright (2) and the greenhouse body (1), airfoil parts are configured on two sides of the airfoil connecting frame (5), the airfoil parts positioned on the outer side of the supporting upright (2) are vertically arranged and are attached to the corresponding supporting upright (2), and the airfoil parts positioned on the inner side of the supporting upright (2) are obliquely arranged and are spaced from the corresponding supporting upright (2).

4. The assembled greenhouse keel structure with sunshade function according to claim 3, wherein the beam frame mechanism comprises an arc-shaped connecting beam (6), an arc-shaped bending beam (7) and a beam frame connecting rod (8), the arc-shaped connecting beam (6) and the arc-shaped bending beam (7) are oppositely and obliquely arranged between two groups of supporting columns (2), one ends of the arc-shaped connecting beam (6) and the arc-shaped bending beam (7) which are far away from each other are fixedly connected with the corresponding wing-shaped connecting frame (5), one ends of the arc-shaped connecting beam (6) and the adjacent ends of the arc-shaped bending beam (7) are in sliding connection through connecting sleeves and form an arc-shaped beam frame structure together, the beam frame connecting rod (8) is provided with two groups, the two groups of beam frame connecting rods (8) are respectively arranged between the arc-shaped connecting beam (6) and the arc-shaped bending beam (7) and the greenhouse body (1) and are vertically arranged, one ends of the beam frame connecting rod (8) and the corresponding arc-shaped connecting beam (6) or the other ends of the arc-shaped connecting beam (7) are in rotating connection and the other ends of the arc-shaped connecting beam (7) are in sliding connection through the greenhouse body and form the arc-shaped bending beam structure corresponding to the at least one group of the supporting mechanism.

5. The assembled greenhouse keel structure with the sun-shading function according to claim 4, further comprising a reinforcing supporting beam (9) and reinforcing connecting beams (10), wherein the reinforcing supporting beam (9) is arranged at the joint of the arc-shaped connecting beams (6) and the arc-shaped bending beams (7) and the upper ends of the reinforcing supporting beams are rotatably connected with connecting sleeves at the joints of the arc-shaped connecting beams (6) and the arc-shaped bending beams (7), the reinforcing supporting beam (9) is vertically arranged and the lower ends of the reinforcing supporting beams are slidably connected with the greenhouse body (1), two groups of reinforcing connecting beams (10) are arranged in a manner that the two groups of reinforcing connecting beams (10) are inclined relatively, the lower ends of the reinforcing connecting beams (10) are rotatably connected with the lower ends of the reinforcing supporting beams (9), and one ends of the two groups of reinforcing connecting beams (10) which are far away from each other are rotatably connected with the upper ends of the two groups of beam frame connecting rods (8).

6. The assembled greenhouse keel structure with the sun-shading function according to claim 5, wherein one end of the arc-shaped bending beam (7) close to the arc-shaped connecting beam (6) adopts a bending design, a bending part of the arc-shaped bending beam is located above the arc-shaped connecting beam (6), and a bearing beam structure is configured at the joint of the arc-shaped connecting beam (6) and the arc-shaped bending beam (7), the joint of the beam frame connecting rod (8) and the arc-shaped connecting beam (6) and the bending part of the arc-shaped bending beam (7).

7. The assembled greenhouse keel structure with the sun-shading function according to claim 6, wherein the ground pile mechanism comprises a continuous ground beam (11) and a spiral ground pile (12), the continuous ground beam (11) is arranged at the bottom of the greenhouse body (1) and is fixedly connected with the greenhouse body (1), the spiral ground pile (12) is arranged at the lower part of the continuous ground beam (11) and is fixedly connected with the continuous ground beam (11), the lower part of the spiral ground pile (12) is in a conical structure, the spiral ground pile (12) is inserted into soil, and the greenhouse body (1) is erected on the ground through the ground pile mechanism.

8. The assembled greenhouse keel structure with the sun-shading function according to claim 7, wherein the greenhouse body (1) is composed of greenhouse columns and greenhouse cross bars, the greenhouse columns and the greenhouse cross bars are provided with a plurality of groups, and the greenhouse columns and the greenhouse cross bars are arranged in an array and fixedly connected with each other to form the greenhouse body (1) structure.

9. The assembled greenhouse keel structure with the sun-shading function according to claim 8, further comprising a film pressing belt (13), wherein the film pressing belt (13) is obliquely arranged at the edge of the greenhouse body (1) and is fixedly connected with the greenhouse body (1).

10. The assembled greenhouse keel structure with the sun-shading function as claimed in claim 9, further comprising two groups of entrance doors (14), wherein the two groups of entrance doors (14) are symmetrically arranged at the lower parts of two ends of the greenhouse body (1).