Test bed for in-situ studies
First Claim
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1. An apparatus comprising:
- a test bed mounted on a vehicle;
a plurality of dynamic force sensors mounted on a first portion of the test bed, each of the plurality of dynamic force sensors mounted within a square of a grid;
a plurality of visual markers located on the test bed in a grid; and
a video recorder mounted inside the vehicle and directed towards the test bed to record a plurality of digital images of a plurality of impacts of the plurality of hail stones on the test bed along with the plurality of visual markers in the grid to identify, in conjunction with the plurality of markers within the plurality of digital images of the plurality of hail and of the plurality of visual markers, the orientation of each of the plurality of hail stones when each of the plurality of hail stones impact the test bed;
wherein each of the plurality of dynamic force sensors has a housing for containing a plurality of sensors connected to a piezo-electric film to detect changes in a force over time where the force is detected through a protective sheet over the piezo-electric film and is transmitted to a data processing system along with the plurality of digital images from the video recorder to calculate, for each of the plurality of hail stones, an impact force based on a correlation of the orientation with a force data from the dynamic force sensors.
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Abstract
An impact test system for collecting hail storm data comprises a vehicle, a video recorder, a container, a plurality of dynamic force sensors, an atmospheric instrument system, a mounting fixture, and a data processing system. The plurality of dynamic force sensors is capable of detecting force generated by an impact of an object. The plurality of markers is capable of being used to determine an orientation of an incoming object. The mounting fixture is capable of holding a test specimen. The data processing system is capable of collecting data from the plurality of dynamic force sensors, the atmospheric instrument system, and the video recorder.
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Citations
11 Claims
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1. An apparatus comprising:
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a test bed mounted on a vehicle; a plurality of dynamic force sensors mounted on a first portion of the test bed, each of the plurality of dynamic force sensors mounted within a square of a grid; a plurality of visual markers located on the test bed in a grid; and a video recorder mounted inside the vehicle and directed towards the test bed to record a plurality of digital images of a plurality of impacts of the plurality of hail stones on the test bed along with the plurality of visual markers in the grid to identify, in conjunction with the plurality of markers within the plurality of digital images of the plurality of hail and of the plurality of visual markers, the orientation of each of the plurality of hail stones when each of the plurality of hail stones impact the test bed; wherein each of the plurality of dynamic force sensors has a housing for containing a plurality of sensors connected to a piezo-electric film to detect changes in a force over time where the force is detected through a protective sheet over the piezo-electric film and is transmitted to a data processing system along with the plurality of digital images from the video recorder to calculate, for each of the plurality of hail stones, an impact force based on a correlation of the orientation with a force data from the dynamic force sensors. - View Dependent Claims (2, 3, 4)
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5. An impact test system comprising:
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a video recorder mounted inside a vehicle configured to record a plurality of digital images of a plurality of hail stones impacting a grid on a test bed mounted outside of the vehicle; and a data processing system that collects a plurality of data from a plurality of dynamic force sensors on the test bed and said plurality of digital images from the video recorder to calculate from the plurality of data, for each of the plurality of hail stones, an impact force based on a correlation of an orientation from the plurality of digital images with a force data from plurality of data from the dynamic force sensors. - View Dependent Claims (6, 7, 8, 9)
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10. A method for collecting hail storm data, the method comprising:
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placing a vehicle in a hail storm, wherein the vehicle has a video recorder mounted inside the vehicle that captures a plurality of digital images of a plurality of impacts of a plurality of hail stones on a plurality of dynamic force sensors on a grid of a test bed mounted on an outside portion of the vehicle; and calculating, by a processor of a data processing system connected to the plurality of dynamic force sensors and to the video recorder, for each of the plurality of hail stones that impact a dynamic force sensor on the grid, an impact force based on a correlation of the orientation from the plurality of digital images with a force data from the plurality of data from the plurality of dynamic force sensors. - View Dependent Claims (11)
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Specification