Magnetic-liquid mixed suspended general experiment platform structure

A magnetic-fluid mixing suspension and experimental platform technology, applied in educational appliances, instruments, teaching models, etc., can solve problems such as incomplete solution, affect the experimental process, and time-consuming, and achieve the effect of convenient operation and simple principle.

Active Publication Date: 2016-08-31
NORTHWESTERN POLYTECHNICAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method is time-consuming, laborious, affects the experimental process, and is very inconvenient to use
Magnetic liquid hybrid levitation is a new way to simulate microgravity effects in recent years, but there are still many shortcomings in application
Among th

Method used

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Example Embodiment

[0019] The present invention will be described in further detail below in conjunction with the accompanying drawings:

[0020] See Figure 1-Figure 6 The present invention uses the inertial coordinate system as the reference coordinate system to define the horizontal plane, vertical plane and side surface of the experimental platform. The bottommost part is a cylindrical permanent magnet 11, and the outside of the cylindrical permanent magnet 1 is a cylindrical shell 2 (compared with other shells) Compared with the cylindrical housing 2, the resistance is lower, so the housing is designed as cylindrical here) for storing the cylindrical permanent magnet 1, and the cylindrical permanent magnet 1 and the cylindrical housing 2 are connected together. During the experiment, the cylindrical permanent magnet 1 (including the cylindrical permanent magnet 1 and the housing) always maintains a horizontal posture to ensure that the electromagnetic force generated is along the Z-axis direction

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Abstract

The invention discloses a magnetic-liquid mixed suspended general experiment platform structure. Through arranging an attitude coupling mechanism in an experiment platform, attitude decoupling of an experiment body and a general experiment platform structure during an experiment process is realized, loading can be performed on different types of experiment objects, and experiment body attitude maneuvering during an experiment process and real-time residual gravity compensation to an experiment body can be realized. A principle is simple, operation is convenient, carrying to different experiment bodies can be realized, and corresponding space microgravity effect experiment simulation is completed. And the structure can be used to realize the real-time residual gravity compensation to various kinds of experiment bodies. In addition, the attitude maneuvering of the experiment body during the experiment process can be realized.

Description

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Claims

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Application Information

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Owner NORTHWESTERN POLYTECHNICAL UNIV
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