A test method for outdoor wind-induced snow drift

A test method, wind-induced technology, applied in the field of outdoor wind-induced snow drift test, can solve the problems of high wind tunnel cost, high operation cost, poor accuracy and technicality, so as to save the air cooling link, increase the reliability, The effect of low test running costs

Active Publication Date: 2018-09-18
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, there are some significant disadvantages in the application of traditional wind tunnel test techniques to study snow loads: First, the wind-induced snow drift experiments in normal temperature wind tunnels can only use snow (fine silica sand, baking soda, etc.) The physical properties of snow and real snow particles are very different; second, the wind tunnel in the climate environment is expensive, and a large amount of power support is required to create a low temperature environment, and the operating cost is too high; The size of the test and the experimental model will be greatly limited by the blocking rate; Fourth, the experimental measurement basically uses steel ruler measuring point drawing at this stage, and the accuracy and technicality are poor
These problems will have a great impact on the results of wind-induced snow drift experiments

Method used

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  • A test method for outdoor wind-induced snow drift
  • A test method for outdoor wind-induced snow drift
  • A test method for outdoor wind-induced snow drift

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Experimental program
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Effect test

Embodiment 1

[0024] like figure 1 As shown, it is a functional structural block diagram of an outdoor wind-induced snow drift test device of the present invention. An outdoor wind-induced snow drift test device includes: a fan device 1 for providing wind power; a vibration device 2 for The snow vibrates and simultaneously receives the wind force provided by the fan device 1 to simulate the snowfall environment; a model device 3 is set within the drifting range of the snow accumulation and is used for simulating the house structure.

[0025] like figure 2 , image 3 and Figure 4 As shown, they are respectively a schematic structural view, a schematic plan view and a structural schematic view of a fan device of an outdoor wind-induced snow drift test device of the present invention.

[0026] to combine figure 2 , image 3 and Figure 4 As shown, the fan device 1 includes a fan matrix group 11, and the fan matrix group 11 is an m (longitudinal)×n (transverse ) form fan matrix group,...

Embodiment 2

[0036]As described above, the outdoor wind-induced snow drift test device, the difference of this embodiment is that it combines figure 2 and image 3 As shown, the outdoor wind-induced snow drift test device also includes a flow guide device 4 and a flow stabilization device 5, and the flow guide device 4 is a connecting pipe between the fan device 1 and the flow stabilization device 5 , the vibrating device 2 is set at a certain distance from the wind direction of the flow stabilizing device 5, the flow guiding device 4 is used to make the wind field more concentrated, and the flow stabilizing device 5 is used to make the wind speed more stable. In the present invention, by setting the flow guiding device 4 and the flow stabilizing device 5, the effect of the wind field on the test cross section can be improved.

[0037] to combine figure 2 and image 3 As shown, the fan device 1 is connected to the flow guide device 4 through fasteners, the flow guide device 4 is conne...

Embodiment 3

[0042] The above-mentioned test method of an outdoor wind-induced snow drift test device includes the following steps:

[0043] (1) According to the experimental requirements, the required model member 33 is placed on the platform 31 with 0° degree α, and the angle α is recorded for the record;

[0044] (2) At least one weather station is installed on both sides of the test section along the wind direction to monitor the natural wind field, and at least one weather station is installed in an open field far away from the test section to monitor the natural wind field, and the snow is placed on the vibrating device middle;

[0045] The test of the present invention is carried out outdoors, using the low temperature environment in winter to realize the experimental simulation of real snow accumulation. Compared with the traditional environmental wind tunnel, the air cooling link is omitted, the test operation cost is low, and repeated tests can be carried out; in addition, The t...

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Abstract

The invention provides a test method for outdoor wind-induced snow drifting, comprising the following steps: (1) placing required model components to a specified angle; (2) arranging at least one weather station at each side of the along-wind direction of a test section, arranging at least one weather station in an open site away from the test section, and placing snow in a vibration device; (3) selecting the pore diameter of a sieve and setting the wind speed of fans and the vibration frequency of the vibration device according to the experiment requirements, and opening a fan device and the vibration device to simulate a snowing environment; (4) after test, measuring snow distribution using a measuring tool; and (5) sorting data, making a data analysis using an independent development program, and drawing a snow distribution contour map. The beneficial effects are as follows: an air refrigeration link is saved, the cost of test operation is low, and test can be repeated multiple times; and the test section is open, there is no limitation for the blocking rate in a wind tunnel, and the upper limit of the scale ratio of the model components is increased.

Description

technical field [0001] The invention relates to the field of wind tunnel test methods, in particular to a test method for outdoor wind-induced snow drift. Background technique [0002] With the gradual increase of extreme weather phenomena around the world, the number of roof structure collapse accidents caused by snow accumulation is also gradually increasing. Long-span and light-weight structures are structural systems sensitive to snow loads, so the value of snow loads is an important consideration in the design process. Therefore, there is an urgent application demand for snow load design methods. [0003] At present, the wind tunnel test is the main experimental technical means for scholars at home and abroad to study snow loads. Kind et al. conducted an in-depth discussion on the requirements for reproducing snow erosion and deposition phenomena in wind tunnel experiments, and focused on the reappearance of the particle motion state during the jump process, from the p...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01M9/02
CPCG01M9/02
Inventor 张清文刘盟盟范峰
Owner HARBIN INST OF TECH
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