CN210868999U - Greenhouse supporting device with reinforcing effect - Google Patents

Abstract

The utility model relates to a greenhouse supporting device with reinforcing effect, which comprises a plurality of arc main frameworks and arc auxiliary frameworks, wherein horizontal crossbeams are arranged above the inner parts of the arc main frameworks and the arc auxiliary frameworks, the upper ends of the centers of the horizontal crossbeams are provided with center longitudinal beams, and the two sides of the center longitudinal beams are symmetrically provided with side longitudinal beams; crossbeam lacing wires are arranged below the horizontal crossbeams at the bottom ends of the central longitudinal beam and the side longitudinal beams, the central longitudinal beam and the side longitudinal beams are fixedly connected with the horizontal crossbeams and the crossbeam lacing wires through fixed connecting pieces, and a plurality of diagonal draw bars are arranged between the arc main framework and the crossbeam lacing wires at the lower end of the central longitudinal beam; the utility model has the advantages of simple and stable overall structure, easily dismouting and transfer receive the proruption load not fragile, have reduced construction cycle time and construction cost, through skeleton rational design in order to reduce the steel volume for the greenhouse, reduce facility construction cost, through increase greenhouse operation space, improve land utilization.

Description

Greenhouse supporting device with reinforcing effect

Technical Field

The utility model belongs to the technical field of the facility agriculture, concretely relates to greenhouse strutting arrangement of effect is consolidated to utensil.

Background

At present, facility agriculture provides necessary conditions for crops to grow in adverse environments, promotes income increase and yield increase of farmers, and becomes an indispensable important component in the field of agricultural planting. However, the greenhouse in facility agriculture has a single construction technology and has a plurality of defects, so that most of greenhouses have weak loading capacity and cannot bear pressure or pulling force of rain, snow, strong wind and the like; secondly, most greenhouses are influenced by facility construction technology, so that the phenomena of complicated construction, long period and high labor cost are easily caused.

Disclosure of Invention

In order to compensate the deficiency of the prior art, the utility model aims at providing an utensil reinforcing effect's greenhouse strutting arrangement has increased substantially greenhouse strutting arrangement's loading capacity, and the installation and dismantle simple and easy, reduce the greenhouse construction cycle, improve work efficiency, have the market value of wide-spread popularization and application.

The utility model aims at realizing through the following technical scheme, a greenhouse strutting arrangement of utensil reinforcing effect, including a plurality of arc main frame, its technical essential is: an arc auxiliary framework is arranged between the arc main frameworks, and the bottoms of the arc main frameworks are fixedly connected to the embedded concrete foundation columns through foundation bolts; a plurality of framework lacing wires are arranged between the arc main framework and the arc auxiliary framework, the framework lacing wires are fixedly connected with the arc main framework and the arc auxiliary framework, horizontal cross beams are arranged above the interiors of the arc main framework and the arc auxiliary framework, central longitudinal beams are arranged at the upper ends of the centers of the horizontal cross beams, side longitudinal beams are symmetrically arranged on two sides of each central longitudinal beam, the upper ends of the central longitudinal beams are respectively and fixedly connected with the top ends of the arc main framework and the arc auxiliary framework, and the upper ends of the side longitudinal beams are fixedly connected with two sides of the top end of the arc main framework; the central longitudinal beam or the side longitudinal beams, the horizontal cross beam and the cross beam lacing wires are vertical in pairs; the fixed connecting piece is provided with longitudinal beam slots, side bolts of the longitudinal beam slots are fixedly connected with the bottom ends of the central longitudinal beams or the side longitudinal beams, cross beam slots are arranged below the longitudinal beam slots, horizontal cross beams are arranged between the cross beam slots and fixedly connected with the side bolts of the cross beam slots, fixed plates are arranged below the cross beam slots, and the fixed plates are fixedly connected with cross beam lacing wires through bolts; and a plurality of diagonal draw bars are arranged between the arc main framework and the cross beam lacing wire at the lower end of the central longitudinal beam, one end of each diagonal draw bar is fixedly connected with the top end of the side longitudinal beam in the arc main framework, and the other end of each diagonal draw bar is fixedly connected with a fixed connecting piece at the lower end of the central longitudinal beam of the arc auxiliary framework.

Further, the steel plate is welded at the bottom end of the arc-shaped main framework and fixedly connected with the embedded foundation column through foundation bolts.

Furthermore, framework lacing wires are arranged on the two ends of the horizontal cross beam, the upper end of the central longitudinal beam and the arc main framework and the arc auxiliary framework at the upper ends of the side longitudinal beams.

Furthermore, the arc main framework is horizontally spaced by 2.7-3 meters, the span is 12-14 meters, and the arch height is 4.7-5.8 meters; two auxiliary frameworks are arranged between the two arc-shaped main frameworks, and the distance between the horizontal cross beam and the ground is 2.6-2.7 m.

Furthermore, the framework lacing wires and the beam lacing wires are 20mm galvanized square pipes; the diagonal draw bars are made of round steel with the diameter of 8 mm.

Furthermore, the connecting piece is formed by welding 6mm thick steel plates.

The utility model has the advantages that: the invention has simple and stable integral structure, easy disassembly and transfer, difficult damage under sudden load, reduced construction period time and construction cost, reasonable design of the framework to reduce the steel consumption of the greenhouse, reduced facility construction cost, increased greenhouse operation space and improved land utilization rate.

Drawings

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

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

FIG. 3 is an enlarged view of a portion of the structure of FIG. 1A;

FIG. 4 is an enlarged view of a portion of the structure of FIG. 1B;

fig. 5 is a schematic structural view of the fixed connection member.

The structural names of the main parts in fig. 1-5 are: the novel building structure comprises an arc-shaped main framework 1, an arc-shaped auxiliary framework 2, a pre-buried concrete foundation column 3, a plastic greenhouse film 4, a horizontal cross beam 5, a central longitudinal beam 6, a side longitudinal beam 7, a diagonal rib 8, a framework tie bar 9, a framework tie bar I9-1, a framework tie bar II 9-2, a framework tie bar III 9-3, a cross beam tie bar 10, a connecting piece 11, a longitudinal beam slot 11-1, a cross beam clamping slot 11-2, a fixing plate 11-3, an oblique beam welding plate 11-4, bolts 12, foundation bolts 13 and a steel plate 14.

Detailed Description

Referring to fig. 1 to 5, the specific structure of the present embodiment is: a greenhouse supporting device with a reinforcing effect comprises a plurality of arc-shaped main frameworks 1, arc-shaped auxiliary frameworks 2 are arranged among the arc-shaped main frameworks 1, the arc-shaped main frameworks 1 are horizontally spaced by 2.7-3 meters, the span of the arc-shaped main frameworks is 12-14 meters, and the arch height is 4.7-5.8 meters; two arc auxiliary frameworks 2 are arranged between the two arc main frameworks 1, plastic shed films 4 are arranged above the arc main frameworks and the arc auxiliary frameworks, and steel plates 14 are welded at the bottom ends of the arc main frameworks 1 and are fixedly connected to the embedded concrete foundation columns 3 through foundation bolts 13; a plurality of framework lacing wires 9 are arranged between the arc main framework 1 and the arc auxiliary framework 2, and the framework lacing wires 9 are fixedly connected with the arc main framework 1 and the arc auxiliary framework 2; horizontal cross beams 5 are arranged above the inner parts of the arc-shaped main framework 1 and the arc-shaped auxiliary framework 2, the distance between each horizontal cross beam 5 and the ground is 2.6-2.7 m, and framework lacing wires I9-1 are arranged on the arc-shaped main framework 1 and the arc-shaped auxiliary framework 2 at the two ends of each horizontal cross beam 5; the upper ends of the centers of the horizontal cross beams 5 are respectively provided with a central longitudinal beam 6, the upper ends of the central longitudinal beams 6 are respectively and fixedly connected with the top ends of an arc-shaped main framework 1 and an arc-shaped auxiliary framework 2, and framework lacing wires II 9-2 are arranged on the arc-shaped main framework 1 and the arc-shaped auxiliary framework 2 at the upper ends of the central longitudinal beams 6; side longitudinal beams 7 are symmetrically arranged on two sides of a central longitudinal beam 6 connected with the arc-shaped main frameworks 1, and the upper ends of the side longitudinal beams 7 are fixedly connected with the top ends of the arc-shaped main frameworks 1 on the two sides; framework lacing wires III 9-3 are respectively arranged on the arc main framework 1 and the arc auxiliary framework 2 at the upper ends of the side longitudinal beams 7; the bottom ends of the central longitudinal beam 6 and the side longitudinal beams 7 are provided with cross beam lacing wires 10, the central longitudinal beam 6 or the side longitudinal beams 7 are fixedly connected with the horizontal cross beam 5 and the cross beam lacing wires 10 through fixed connecting pieces 11, namely the central longitudinal beam 6 or the side longitudinal beams 7, the horizontal cross beam 5 and the cross beam lacing wires 10 are vertical in pairs; the fixed connecting piece 11 is provided with a longitudinal beam slot 11-1, the side surface of the longitudinal beam slot 11-1 is fixedly connected with the bottom end of a central longitudinal beam 6 or a side longitudinal beam 7 through a bolt 12, a cross beam clamping groove 11-2 is arranged below the longitudinal beam slot 11-1, a horizontal cross beam 5 is arranged between the cross beam clamping grooves 11-2 and is fixedly connected with the side surface of the cross beam clamping groove 11-2 through the bolt 12, a fixed plate 11-3 is arranged below the cross beam clamping groove 11-2, and the fixed plate 11-3 is fixedly connected with a cross beam lacing wire 10 through the bolt 12; a plurality of diagonal draw bars 8 are arranged between the arc main framework 1 and a cross beam lacing wire 10 at the lower end of the central longitudinal beam 6, one end of each diagonal draw bar 8 is fixedly connected with the top end of a side longitudinal beam 7 in the arc main framework 2, and the other end of each diagonal draw bar 8 is fixedly connected with an oblique beam welding plate 11-4 in a fixing piece 11 at the lower end of the central longitudinal beam 6 of the arc auxiliary framework 2; four left-right symmetrical diagonal draw bars 8 are arranged between the two arc-shaped main frameworks 1, and the two diagonal draw bars 8 on each side are in a cross shape; the framework lacing wires 9 and the cross beam lacing wires 10 adopt 20mm galvanized square tubes; the diagonal draw bars 8 are round steel with the diameter of 8mm, and the connecting pieces 11 are formed by welding steel plates with the thickness of 6 mm.

Claims (6)

1. The utility model provides a greenhouse strutting arrangement of utensil reinforcing effect, includes a plurality of arc main frameworks, characterized by: an arc auxiliary framework is arranged between the arc main frameworks, and the bottoms of the arc main frameworks are fixedly connected to the embedded concrete foundation columns through foundation bolts; a plurality of framework lacing wires are arranged between the arc main framework and the arc auxiliary framework, the framework lacing wires are fixedly connected with the arc main framework and the arc auxiliary framework, horizontal cross beams are arranged above the interiors of the arc main framework and the arc auxiliary framework, central longitudinal beams are arranged at the upper ends of the centers of the horizontal cross beams, side longitudinal beams are symmetrically arranged on two sides of each central longitudinal beam, the upper ends of the central longitudinal beams are respectively and fixedly connected with the top ends of the arc main framework and the arc auxiliary framework, and the upper ends of the side longitudinal beams are fixedly connected with two sides of the top end of the arc main framework; the central longitudinal beam or the side longitudinal beams, the horizontal cross beam and the cross beam lacing wires are vertical in pairs; the fixed connecting piece is provided with longitudinal beam slots, side bolts of the longitudinal beam slots are fixedly connected with the bottom ends of the central longitudinal beams or the side longitudinal beams, cross beam slots are arranged below the longitudinal beam slots, horizontal cross beams are arranged between the cross beam slots and fixedly connected with the side bolts of the cross beam slots, fixed plates are arranged below the cross beam slots, and the fixed plates are fixedly connected with cross beam lacing wires through bolts; and a plurality of diagonal draw bars are arranged between the arc main framework and the cross beam lacing wire at the lower end of the central longitudinal beam, one end of each diagonal draw bar is fixedly connected with the top end of the side longitudinal beam in the arc main framework, and the other end of each diagonal draw bar is fixedly connected with a fixed connecting piece at the lower end of the central longitudinal beam of the arc auxiliary framework.

2. The greenhouse supporting device with the reinforcing function as claimed in claim 1, wherein: the arc main frame bottom welding steel sheet, the steel sheet passes through rag bolt fixed connection with pre-buried foundation column.

3. The greenhouse supporting device with the reinforcing function as claimed in claim 1, wherein: and framework lacing wires are arranged on the arc main framework and the arc auxiliary framework at the two ends of the horizontal cross beam, the upper end of the central longitudinal beam and the upper end of the side longitudinal beam.

4. The greenhouse supporting device with the reinforcing function as claimed in claim 1, wherein: the arc main framework is horizontally spaced by 2.7-3 meters, the span is 12-14 meters, and the arch height is 4.7-5.8 meters; two auxiliary frameworks are arranged between the two arc-shaped main frameworks, and the distance between the horizontal cross beam and the ground is 2.6-2.7 m.

5. A greenhouse supporting device with reinforcing function as claimed in claim 1, wherein: the framework lacing wires and the cross beam lacing wires are 20mm galvanized square tubes; the diagonal draw bars are made of round steel with the diameter of 8 mm.

6. The greenhouse supporting device with the reinforcing function as claimed in claim 1, wherein: the connecting piece is formed by welding 6mm thick steel plates.

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