CN112075265A

CN112075265A - Detachable and fast-assembled reinforced greenhouse framework structure and assembling method thereof

Info

Publication number: CN112075265A
Application number: CN202011011818.5A
Authority: CN
Inventors: 高彦军
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-24
Filing date: 2020-09-24
Publication date: 2020-12-15

Abstract

The invention relates to the technical field of greenhouse equipment, in particular to a detachable rapid-assembly reinforced greenhouse skeleton structure and an assembly method thereof. According to the invention, after the connecting rods are turned for 90 degrees, the connecting rods cannot be further turned under the action of the limiting blocks, at the moment, two adjacent connecting rods are parallel to the mounting block, two adjacent supporting columns are tightly supported, the ground nails are nailed through the positioning holes, so that the rotating plate and the ground are fixed, the building and fixing efficiency is high, the capability of the structure for resisting severe weather is increased, when the position of the greenhouse needs to be changed due to the change of the shape, the ground nails can be pulled out, the connecting rods are turned, the storage is realized, the rapid transfer is realized, the practicability is high, and the large-scale and modular production is convenient.

Description

Detachable and fast-assembled reinforced greenhouse framework structure and assembling method thereof

Technical Field

The invention relates to the technical field of greenhouse equipment, in particular to a detachable and quickly assembled reinforced greenhouse skeleton structure and an assembling method thereof.

Background

Based on the needs of economic development and social requirements, more and more farmers choose to use cable film greenhouses for planting, and as the greenhouses utilize natural energy for production, the rain sheltering cultivation technology, the water-saving irrigation technology, the formula fertilization technology and the standardized production technology are completely implemented, the added value of products can be greatly improved, a batch of high-quality agricultural product production bases with scale can be more favorably established, and the quality of agricultural products is improved.

The frame need be built earlier to current big-arch shelter, then at the surface covering film of frame, but current big-arch shelter is at the in-process waste time and power of building the frame, needs a plurality of people to assist simultaneously just can accomplish, comparatively consumes builder's physical power and energy, and the frame also is difficult to remove after building well moreover, alternate position, the unable used repeatedly of frame simultaneously, if no longer using can only be as waste product recovery.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a detachable quickly-assembled reinforced greenhouse skeleton structure, connecting rods are rotatably connected to the upper end and the lower end of one side wall opposite to two adjacent supporting columns, an installation block is arranged between the two adjacent connecting rods, two sides of the installation block are respectively rotatably connected with the adjacent connecting rods, after the device is transported to a destination, the connecting rods are turned over by reversely stretching the two adjacent supporting columns, after the connecting rods are turned over for 90 degrees, the connecting rods cannot be further turned over under the action of a limiting block, at the moment, the two adjacent connecting rods are parallel to the installation block, the two adjacent supporting columns are tightly supported, and are nailed into a ground through a positioning hole, so that the fixing of a rotating plate and the ground is realized, the building and fixing efficiency is high, the capability of the structure for resisting severe weather is increased, and when the position of a greenhouse needs to be changed due to local shape change, also can extract the ground nail, the upset connecting rod realizes accomodating to shift fast, the practicality is strong, the scale of being convenient for, modularization production.

The purpose of the invention can be realized by the following technical scheme:

a detachable fast-assembly reinforced greenhouse skeleton structure comprises a supporting mechanism and a fixing mechanism, wherein the supporting mechanism comprises two arc-shaped frames and supporting columns, the two ends of each arc-shaped frame are fixedly connected with the supporting columns, the upper ends and the lower ends of the opposite side walls of the two adjacent supporting columns are rotatably connected with connecting rods, an installation block is arranged between the two adjacent connecting rods, the two sides of the installation block are respectively rotatably connected with the connecting rods adjacent to the installation block, and the fixing mechanism is arranged between the two installation blocks;

the fixing mechanism is including accomodating post and flexible post, and the lateral wall of two installation pieces has linked firmly the one end of accomodating post and flexible post respectively, two spouts have been seted up about its vertical central plane symmetry to the outer wall of accomodating the post, two inner walls impartial distances of spout have linked firmly a plurality of triangle of falling, the upper end of accomodating the post slides and has cup jointed flexible post, the bottom outer wall of flexible post has linked firmly two fixture blocks about its vertical central plane symmetry, the fixture block slides in the spout, two rectangle breachs have been seted up about its vertical central plane symmetry to the both sides wall of fixture block, the middle part of rectangle breach rotates and is connected with three positive hornblocks, the arc wall middle part of fixture block has been seted up the arc wall, and through shifting block that slides in opposite directions, three positive hornblocks and three inverted hornblocks no longer joint.

Further, an extension spring is fixedly connected between one side wall of the connecting rod and the side wall of the adjacent strut, when the regular triangle block and the inverted triangle block are not clamped, the extension spring pulls the connecting rod to turn, and the telescopic column slides into the containing column in the process.

Further, the bottom outer wall of the pillar is provided with a containing groove, the bottom of the containing groove is rotatably connected with a rotating plate, one side of the middle part of the rotating plate is provided with a positioning hole, and a ground nail is nailed in the positioning hole, so that the pillar is fixed with the ground.

Further lie in, having linked firmly reset spring between the inner wall of regular triangle piece and the inner chamber wall of rectangle breach, sliding to the upper end of spout when the fixture block, regular triangle piece and the triangle piece joint of falling of spout top this moment to fix flexible post.

The triangular block is characterized in that one end of a sliding rod is fixedly connected to the middle of one side wall of the triangular block, and the other end of the sliding rod penetrates through the arc-shaped groove and is fixedly connected with a shifting block, so that a worker can slide the sliding rod conveniently.

Further, the connecting rod is provided with the stopper with the position that the pillar is connected to inject the turned angle of connecting rod, avoid it to rotate excessively and lead to can't strut two pillars completely, lose its due fixed action.

An assembling method for a detachable and rapid-assembled reinforced greenhouse skeleton structure comprises the following steps:

the method comprises the following steps: placing the greenhouse skeleton structure on the ground for building a greenhouse, then pulling apart two adjacent support columns, turning over connecting rods at the upper end and the lower end between the two adjacent support columns, enabling the two mounting blocks to move away from each other under the driving of the connecting rods adjacent to the two mounting blocks respectively, and enabling a telescopic column fixedly connected with one of the mounting blocks to slide out of a storage column;

step two: the fixture block slides to the upper end from the lower end of the chute, when the regular triangle block is contacted with the inverted triangle block, the regular triangle block is turned over under pressure, the return spring is contracted, in the process, the extension spring is stretched, when the fixture block slides to the uppermost end of the chute, the regular triangle block is clamped with the inverted triangle block at the uppermost end of the chute, the return spring is reset, and the position of the telescopic column is fixed;

step three: the adjacent connecting rods and the adjacent mounting blocks are parallel to each other, the two adjacent supporting columns are tightly supported, the rotating plate is rotated, and ground nails are nailed into the positioning holes, so that the rotating plate is fixedly connected with the ground, and the greenhouse is fixed.

The invention has the beneficial effects that:

1. the connecting rods are rotatably connected at the upper end and the lower end of one side wall opposite to two adjacent supporting columns, the mounting block is arranged between the two adjacent connecting rods, the two sides of the mounting block are respectively rotatably connected with the connecting rods adjacent to the mounting block, after the device is transported to a destination, the connecting rods are turned over by reversely stretching the two adjacent supporting columns, after the connecting rods are turned over for 90 degrees, the connecting rods cannot be further turned over under the action of a limiting block, at the moment, the two adjacent connecting rods are parallel to the mounting block, the two adjacent supporting columns are tightly supported, the ground nails are nailed through the positioning holes, the fixing of the rotating plate and the ground is realized, the building and fixing efficiency is high, the capability of the structure for resisting severe weather is increased, when the position of a greenhouse is changed due to the change of the shape, the ground nails can also be pulled out, the connecting rods are turned over, the, the practicability is strong, and the large-scale and modular production is convenient;

2. the bottom outer wall of the telescopic column is symmetrically and fixedly connected with two clamping blocks about a vertical central plane of the telescopic column, the clamping blocks slide in the sliding grooves, two rectangular notches are symmetrically formed in two side walls of each clamping block about the vertical central plane of the clamping block, the middle parts of the rectangular notches are rotatably connected with the regular triangle blocks, when two adjacent supporting columns are stretched in the reverse direction, the telescopic column is driven by the mounting blocks to slide out of the containing column, when the regular triangle blocks are in contact with the inverted triangle blocks, the regular triangle blocks turn over under the action of the reset springs, when the clamping blocks slide to the uppermost ends of the sliding grooves, the lower ends of the regular triangle blocks are clamped with the inverted triangle blocks, the telescopic column and the containing column are fixed at the moment, the upper mounting blocks and the lower mounting blocks are stretched, the two supporting columns are also stretched tightly under the action of the connecting rods, compared with the traditional greenhouse building, the structure directly connects a plurality of supporting columns in advance through the, the time and energy spent in building the greenhouse are greatly reduced, the structure is reasonable and reliable, the fixing mode among the connecting rods is firm, and invasion of severe weather can be resisted.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the support mechanism of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the fixing mechanism of the present invention;

FIG. 5 is a partial enlarged view at B in FIG. 4;

FIG. 6 is a schematic view of the structure of the receiving post of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

FIG. 8 is a schematic view of the construction of the telescopic column according to the present invention;

FIG. 9 is a schematic structural diagram of a latch of the present invention;

FIG. 10 is a schematic cross-sectional view of a cartridge of the present invention;

FIG. 11 is a schematic structural diagram of a equilateral triangle block according to the present invention.

In the figure: 100. a support mechanism; 110. an arc-shaped frame; 120. a pillar; 121. a connecting rod; 122. mounting blocks; 123. A receiving groove; 124. rotating the plate; 1241. positioning holes; 125. an extension spring; 200. a fixing mechanism; 210. A receiving column; 211. a chute; 212. inverting the triangular block; 220. a telescopic column; 230. a clamping block; 231. a rectangular notch; 2311. a return spring; 232. a regular triangle block; 2321. a slide bar; 2322. shifting blocks; 233. an arc-shaped slot; 2311. a return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a detachable fast-assembling reinforced greenhouse skeleton structure includes a supporting mechanism 100 and a fixing mechanism 200, where the supporting mechanism 100 includes two arc-shaped frames 110 and supporting columns 120, the two ends of each arc-shaped frame 110 are fixedly connected with the supporting columns 120, the upper ends and the lower ends of the opposite side walls of two adjacent supporting columns 120 are rotatably connected with connecting rods 121, an installation block 122 is disposed between two adjacent connecting rods 121, the two sides of the installation block 122 are respectively rotatably connected with the connecting rods 121 adjacent thereto, and the fixing mechanism 200 is disposed between the two installation blocks 122;

fixing mechanism 200 is including accomodating post 210 and flexible post 220, the lateral wall of two installation pieces 122 has linked firmly the one end of accomodating post 210 and flexible post 220 respectively, the outer wall of accomodating post 210 has seted up two spout 211 about its vertical central plane symmetry, the impartial distance in two inner walls of spout 211 has linked firmly a plurality of triangle of falling 212, the upper end of accomodating post 210 slides and has cup jointed flexible post 220, the bottom outer wall of flexible post 220 has linked firmly two fixture blocks 230 about its vertical central plane symmetry, fixture block 230 slides in spout 211, two rectangle breachs 231 have been seted up about its vertical central plane symmetry to fixture block 230's both sides wall, the middle part of rectangle breach 231 rotates and is connected with positive triangle piece 232, arc groove 233 has been seted up at fixture block 230's outer wall middle part, through shifting block 2322 that slides in opposite directions, positive triangle piece 232 and triangle of falling 212 no longer the joint, flexible post 220.

An extension spring 125 is fixedly connected between one side wall of the connecting rod 121 and the adjacent side wall of the strut 120, when the regular triangle block 232 is not clamped with the inverted triangle block 212 any more, the extension spring 125 pulls the connecting rod 121 to turn over, the telescopic column 220 slides into the containing column 210 in the process, the bottom outer wall of the strut 120 is provided with a containing groove 123, the bottom end of the containing groove 123 is rotatably connected with a rotating plate 124, one side of the middle part of the rotating plate 124 is provided with a positioning hole 1241, through nailing a ground nail in the positioning hole 1241, the strut 120 is fixed with the ground, a reset spring 2311 is fixedly connected between the inner wall of the regular triangle block 232 and the inner cavity wall of the rectangular notch 231, when the clamping block 230 slides to the upper end of the sliding groove 211, the regular triangle block 232 is clamped with the inverted triangle block 212 at the uppermost end of the sliding groove 211 at the moment.

The middle of one side wall of the equilateral triangle block 232 is fixedly connected with one end of a sliding rod 2321, the other end of the sliding rod 2321 penetrates through the arc-shaped groove 233 and is fixedly connected with a shifting block 2322, so that a worker can slide the sliding rod 2321 conveniently, and a limiting block is arranged at the position where the connecting rod 121 is connected with the supporting columns 120, so that the rotating angle of the connecting rod 121 is limited, and the phenomenon that the two supporting columns 120 cannot be completely opened due to excessive rotation of the connecting rod is avoided, and the due fixing effect of the.

The connecting rods 121 are rotatably connected to the upper end and the lower end of one side wall of two adjacent supporting columns 120, the mounting block 122 is arranged between the two adjacent connecting rods 121, the two sides of the mounting block 122 are respectively rotatably connected with the connecting rods 121 adjacent to the mounting block, after the device is transported to a destination, the connecting rods 121 are turned over by reversely stretching the two adjacent supporting columns 120, after the connecting rods 121 are turned over for 90 degrees, the connecting rods 121 cannot be further turned over under the action of limiting blocks, at the moment, the two adjacent connecting rods 121 are parallel to the mounting block 122, the two adjacent supporting columns 120 are tightly braced, the ground nails are nailed through the positioning holes 1241, the fixing of the rotating plate 124 and the ground is realized, the building and fixing efficiency is high, the capability of the structure for resisting severe weather is improved, when the position of a greenhouse needs to be changed due to the change of the shape, the ground nails can be pulled out, the connecting, the storage is realized, so that the transfer is rapid, the practicability is high, and the large-scale and modular production is facilitated;

two fixture blocks 230 are symmetrically and fixedly connected to the outer wall of the bottom end of the telescopic column 220 about the vertical central plane of the telescopic column, the fixture blocks 230 slide in the sliding grooves 211, two rectangular notches 231 are symmetrically formed in two side walls of each fixture block 230 about the vertical central plane of the fixture block, the middle parts of the rectangular notches 231 are rotatably connected with the regular triangle blocks 232, when two adjacent support columns 120 are stretched in the reverse direction, the telescopic column 220 is driven by the installation blocks 122 to slide out of the accommodating column 210, the regular triangle blocks 232 are turned over under the action of the return springs 2311 when being in contact with the inverted triangle blocks 212, when the fixture blocks 230 slide to the uppermost ends of the sliding grooves 211, the lower ends of the regular triangle blocks 232 are clamped with the inverted triangle blocks 212, the telescopic column 220 and the accommodating column 210 are fixed, the upper installation blocks 122 and the lower installation blocks 122 are propped, the two support columns 120 are also propped tightly under the action of the connecting rods 121, compared with the traditional greenhouse building, when the greenhouse needs to be built, the greenhouse can be unfolded by sequentially pulling the adjacent support columns 120 open, so that the time and the energy for building the greenhouse are greatly reduced, the structure is reasonable and reliable, the fixing mode among the connecting rods 121 is firm, and the invasion and attack of severe weather can be resisted.

the method comprises the following steps: placing the greenhouse skeleton structure on the ground for building the greenhouse, then pulling apart two adjacent support columns 120, turning over the connecting rods 121 at the upper end and the lower end between the two adjacent support columns 120, enabling the two mounting blocks 122 to move away from each other under the driving of the connecting rods 121 adjacent to the two mounting blocks 122, and enabling the telescopic column 220 fixedly connected with one mounting block 122 to slide out of the storage column 210;

step two: when the fixture block 230 slides to the upper end from the lower end of the sliding groove 211, the equilateral triangle block 232 is turned over under pressure when the equilateral triangle block 232 is in contact with the inverse triangle block 212, the return spring 2311 is contracted, the extension spring 125 is extended in the process, when the fixture block 230 slides to the uppermost end of the sliding groove 211, the equilateral triangle block 232 is clamped with the inverse triangle block 212 at the uppermost end of the sliding groove 211, the return spring 2311 is reset, and the position fixing of the telescopic column 220 is completed;

step three: the adjacent connecting rods 121 and the mounting blocks 122 are parallel to each other, the adjacent two supporting columns 120 are tightly supported, the rotating plate 124 is rotated, and ground nails are nailed into the positioning holes 1241, so that the rotating plate 124 is fixedly connected with the ground, and the greenhouse is fixed.

The working principle is as follows: when the device is used, the device is placed on the ground for building a greenhouse, then two adjacent supporting columns 120 are pulled open, the connecting rods 121 at the upper end and the lower end between the two adjacent supporting columns 120 are turned, the two mounting blocks 122 are driven by the connecting rods 121 adjacent to the two mounting blocks to move away from each other, the telescopic column 220 fixedly connected with one mounting block 122 slides out of the storage column 210, the fixture block 230 slides to the upper end from the lower end of the sliding groove 211, when the regular triangle block 232 is in contact with the inverted triangle block 212, the regular triangle block 232 turns over under pressure, the return spring 2311 contracts, in the process, the extension spring 125 stretches, when the fixture block 230 slides to the uppermost end of the sliding groove 211, the regular triangle block 232 is clamped with the inverted triangle block 212 at the uppermost end of the sliding groove 211, the return spring 2311 is reset, the position of the telescopic column 220 is fixed, at the moment, the distance between the two mounting blocks 122 is the largest, the connecting rods 121 stop rotating under the action, adjacent connecting rod 121 and installation piece 122 are parallel to each other, two adjacent pillars 120 are propped up, can rotate commentaries on classics board 124 this moment, and to nailing ground nail in locating hole 1241, make commentaries on classics board 124 and ground fixed connection, accomplish the fixed of big-arch shelter, when needs remove the big-arch shelter, extract ground nail, stir shifting block 2322 in opposite directions, two positive triangle pieces 232 move in opposite directions under the effect of slide bar 2321, positive triangle piece 232 no longer joints with inverted triangle piece 212 at this moment, extension spring 125 resets, connecting rod 121 overturns under extension spring 125's effect, two installation pieces 122 are close to, flexible post 220 slides in accomodating post 210, two pillars 120 are close to, thereby realize accomodating of a plurality of pillars 120, be convenient for remove and transport.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims

1. The detachable fast-assembly reinforced greenhouse skeleton structure is characterized by comprising a supporting mechanism (100) and a fixing mechanism (200), wherein the supporting mechanism (100) comprises two arc-shaped frames (110) and supporting columns (120), the two ends of each arc-shaped frame (110) are fixedly connected with the corresponding supporting column (120), the upper end and the lower end of one side wall, opposite to each other, of each two adjacent supporting columns (120) are rotatably connected with connecting rods (121), an installation block (122) is arranged between every two adjacent connecting rods (121), the two sides of each installation block (122) are respectively rotatably connected with the corresponding connecting rod (121) adjacent to the installation block, and the fixing mechanism (200) is arranged between every two installation blocks (122);

fixing mechanism (200) are including accomodating post (210) and flexible post (220), two spout (211) have been seted up about its vertical central plane symmetry to the outer wall of accomodating post (210), two inner walls equidistance of spout (211) has linked firmly a plurality of inverted triangle piece (212), the upper end slip of accomodating post (210) has cup jointed flexible post (220), the bottom outer wall of flexible post (220) has linked firmly two fixture blocks (230) about its vertical central plane symmetry, fixture block (230) slide in spout (211), two rectangle breach (231) have been seted up about its vertical central plane symmetry to the both sides wall of fixture block (230), the middle part of rectangle breach (231) is rotated and is connected with regular triangle piece (232), arc wall (233) have been seted up in the middle part of the outer wall of fixture block (230).

2. The collapsible fast assembling reinforced greenhouse frame structure as claimed in claim 1, wherein a tension spring (125) is fixed between one side wall of the connecting rod (121) and the adjacent side wall of the supporting column (120).

3. The dismountable fast-assembling reinforced greenhouse skeleton structure as claimed in claim 1, wherein the outer wall of the bottom end of the support column (120) is provided with a storage groove (123), the bottom end of the storage groove (123) is rotatably connected with a rotating plate (124), and one side of the middle part of the rotating plate (124) is provided with a positioning hole (1241).

4. The dismountable fast-assembling reinforced greenhouse skeleton structure as claimed in claim 1, wherein a return spring (2311) is fixedly connected between the inner wall of the regular triangle block (232) and the inner cavity wall of the rectangular notch (231).

5. The detachable fast-assembly reinforced greenhouse framework structure as claimed in claim 1, wherein one end of a sliding rod (2321) is fixedly connected to the middle of one side wall of the regular triangle block (232), and the other end of the sliding rod (2321) penetrates through the arc-shaped groove (233) and is fixedly connected with a shifting block (2322).

6. The dismountable fast-assembling reinforced greenhouse skeleton structure as claimed in claim 1, wherein a position where the connecting rod (121) is connected with the support column (120) is provided with a limiting block.

7. A method for assembling a dismountable fast-assembling reinforced greenhouse skeleton structure, comprising the dismountable fast-assembling reinforced greenhouse skeleton structure as claimed in any one of claims 1 to 6, comprising the following steps:

the method comprises the following steps: placing the greenhouse skeleton structure on the ground for building the greenhouse, then pulling apart two adjacent support columns (120), turning over the connecting rods (121) at the upper end and the lower end between the two adjacent support columns (120), enabling the two mounting blocks (122) to move away from each other under the drive of the connecting rods (121) adjacent to the two mounting blocks respectively, and enabling the telescopic column (220) fixedly connected with one mounting block (122) to slide out of the accommodating column (210);

step two: the fixture block (230) slides from the lower end to the upper end of the sliding groove (211), when the regular triangle block (232) is in contact with the inverted triangle block (212), the regular triangle block (232) turns over under pressure, the return spring (2311) contracts, in the process, the extension spring (125) stretches, when the fixture block (230) slides to the uppermost end of the sliding groove (211), the regular triangle block (232) is clamped with the inverted triangle block (212) at the uppermost end of the sliding groove (211), the return spring (2311) resets, and the position fixing of the telescopic column (220) is completed;

step three: the adjacent connecting rods (121) and the mounting blocks (122) are parallel to each other, the adjacent two supporting columns (120) are tightly supported, the rotating plate (124) is rotated, and ground nails are nailed into the positioning holes (1241), so that the rotating plate (124) is fixedly connected with the ground, and the greenhouse is fixed.