How to prevent the solar greenhouse from bending and collapsing
A crucial criterion for greenhouse quality is robustness. If you're not attentive, the carrying capacity of greenhouses, especially the "overwintering" management when it snows in winter, might result in losses. How can one prevent deformation and collapse of a solar greenhouse when building and using one?
Let's start by examining the elements that contribute to the distortion and collapse of the solar greenhouse. The precise analysis reveals that the less deformation and collapse, and vice versa, the higher the inclination of the greenhouse roof's front. It is clear that one of the parameters influencing the firmness of the greenhouse is the rake Angle.
There are also the following elements:
More deformation and collapse occur as building ages. Because the steel pipe has corroded over time and the pipe wall has thinned, the supporting capacity of the greenhouses has decreased. The bamboo and wood structure of the solar greenhouse is typically erected for more than three years, mostly due to the decay of the bamboo and the weakening of the supporting force brought on by deformation and collapse.
The solar greenhouse is less distorted and collapsed and has a seepage ditch in the front. Winter snow days will result in the snow on the solar greenhouse's roof sliding, with some of it sliding into the infiltration ditch to relieve pressure on the structure's front. Because the infiltration ditch is deeper and wider, the solar greenhouse rarely deforms as a result.
Timely snow removal reduces solar greenhouse deformation and collapse. The greenhouse's bearing capacity will improve as a result of the snow on its roof. After a winter snowstorm, if it is not cleaned promptly, it will quickly collapse.
Deformation and collapse are not strongly correlated with span. The span size of a solar greenhouse has no visible relationship with deformation and collapse within a given range, provided that the design is reasonable, the material choice is assured, and the construction quality is ensured.
A solar greenhouse with a column that deforms less and collapses less, depending on the column's bearing capability, can carry less weight.