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Solar vegetable greenhouse heat preservation equipment

A technology for vegetable greenhouses and solar energy, applied in the field of solar energy, can solve problems such as loose fixation, loose stainless steel frames, and movable stainless steel frames, and achieve the effects of avoiding uneven force, enhancing friction, and avoiding gaps

Inactive Publication Date: 2021-11-30
魏雪宇
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, the stainless steel frame and the plastic film are relatively smooth. After the plastic film is stressed, it will slide with the stainless steel frame, and the plastic film will bend inward, thereby squeezing the stainless steel, which will easily cause the stainless steel frame to move in the ground, resulting in stainless steel frame. The looseness, there is a situation where the fixation is not firm

Method used

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  • Solar vegetable greenhouse heat preservation equipment
  • Solar vegetable greenhouse heat preservation equipment
  • Solar vegetable greenhouse heat preservation equipment

Examples

Experimental program
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Effect test

Embodiment 1

[0028] Such as Figure 1-Figure 6 Shown:

[0029] The present invention is a kind of thermal insulation equipment for solar vegetable greenhouses. Its structure includes a supporting structure 1, a splicing pipe 2, and a fixed structure 3. The supporting structure 1 is embedded and fixed on the left and right sides of the splicing pipe 2, and the fixed structure 3 is installed on the supporting structure 1. At the lower end, the fixed structure 3 is provided with a force-bearing structure 31, a drilling structure 32, and a compression block 33. The compression block 33 is attached to the inner side of the drilling structure 32, and the force-receiving structure 31 is embedded in the drilling structure 32. Inside, the stressed structure 31 is located at the upper end of the compression block 33, the stressed structure 31 is installed at the lower end of the support structure 1, and the drilling structure 32 is a conical structure, which has a strong stabbing effect and can effe...

Embodiment 2

[0037] Such as Figure 7-Figure 9 Shown:

[0038] Wherein, the support structure 1 is provided with a support ring 11, a hollow groove 12, a blocking structure 13, a rubber ring 14, and an extrusion block 15, and the extrusion block 15 is attached to the outside of the support ring 11, and the support ring 11 and The rubber ring 14 is located on the same central axis, the rubber ring 14 is embedded on the outside of the extrusion block 15, the hollow groove 12 is located on the inside of the rubber ring 14, and the blocking structure 13 is engaged on the inside and outside of the rubber ring 14. The fixed structure 3 is installed on the lower end of the support ring 11. The rubber ring 14 is made of rubber material and has the characteristics of easy deformation. The blocking structure 13 outside the rubber ring 14 is attached to the plastic film to be stressed, and the plastic film is attached to the On the outside of the blocking structure 13, after being subjected to wind ...

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Abstract

The invention discloses solar vegetable greenhouse heat preservation equipment. The equipment structurally comprises supporting structures, a splicing pipe and fixing structures, the supporting structures are fixedly embedded in the left side and the right side of the splicing pipe, the fixing structures are installed at the lower ends of the supporting structures, and after the fixing structures at the lower ends of the supporting structures enter soil, the soil is broken through drilling structures; meanwhile, the surfaces of inclined structures are fully attached to the soil, spring rods on the outer sides of fixing shafts are used for supporting the outer side, resistance to the soil is prevented from being increased, the friction effect on the soil is enhanced through plastic blocks, gaps caused by sliding of the plastic blocks and the soil are prevented, friction to the interior of the soil is enhanced, and the fixing structures are prevented from easily generating a gap during inclination so as not to loosen; meanwhile, the plastic film is attached to the outer sides of blocking structures, friction resistance of the plastic film is increased, a gap is prevented from being generated between the plastic film and the outer sides of the supporting structures, the plastic film is prevented from generating too large acting force on a force bearing point borne by wind power, and uneven stress of the wind power on the plastic film is avoided.

Description

technical field [0001] The invention relates to the field of solar energy, in particular to heat preservation equipment for solar vegetable greenhouses. Background technique [0002] The solar vegetable greenhouse uses the heat insulation effect of plastic materials to allow the sun's rays to pass through the plastic film. The plastic film of the greenhouse needs a stainless steel frame to build. The stainless steel frame is curved and curved, and the cylindrical stainless steel at both ends is fixed on the ground Inside, the inner and outer sides of the plastic film are attached to the inner and outer sides of the stainless steel frame to form a pressure difference to shape the plastic film. [0003] However, the stainless steel frame and the plastic film are relatively smooth. After the plastic film is stressed, it will slide with the stainless steel frame, and the plastic film will bend inward, thereby squeezing the stainless steel, which will easily cause the stainless s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G9/14
CPCA01G9/14A01G9/1438Y02A40/25Y02P60/12
Inventor 魏雪宇
Owner 魏雪宇
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