Hopkinson pressure rod electromagnetic buffer energy absorbing device

Abstract

The invention provides a split Hopkinson pressure bar electromagnetic buffering and energy absorbing device comprising a first-layer impact bearing energy absorbing system, a second-layer impact bearing energy absorbing system and a third-layer impact bearing energy absorbing system, wherein the first-layer impact bearing energy absorbing system is composed of a first metal base, two ropes, two fixed pulleys, a first iron block, a metal connecting rod and an annular electromagnet; the second-layer impact bearing energy absorbing system is composed of an annular brake, a second spring and two groups of levers. The third-layer impact bearing energy absorbing system is composed of a second metal base, an annular electromagnet, a first spring and a second iron block. According to the split Hopkinson pressure bar electromagnetic buffering and energy absorbing device, the mechanical energy generated when an iron block connecting piece is impacted is utilized, through the force and energy conduction effects of the fixed pulleys, based on the lever principle, the pressure exerted by the annular brake on the connecting rod is enhanced, so that the friction force exerted by the annular brake on the connecting rod is increased, and therefore the buffering purpose is achieved.

Description

Technical field [0001] The invention relates to an electromagnetic buffer energy absorption device, in particular to a Hopkinson pressure bar electromagnetic buffer energy absorption device. Background technique [0002] In recent years, with the development of science and technology and the continuous improvement and update of the information industry, it has also promoted the technological progress of the research on the dynamic mechanical properties of materials, which is mainly manifested in the optimization and enhancement of the Hopkinson pressure bar technology. SHPB experimental technology. As an important technology for studying the dynamic mechanical properties of materials under low pressure, SHPB experimental pressure bar technology has the advantages of simple equipment and strong operability. However, with the increasing number of changing factors in engineering applications, the requirements for experimental accuracy have become more and more stringent. Therefore,...

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Problems solved by technology

[0003] At present, the general idea for the design of Hopkinson rod absorbing rods is to use traditional materials such as foam and rubber, and the functional design of its buffer energy absorption is relatively simple, which cannot achieve a complete buffer energy absorption effect, and its operability and economy sex is also relatively poor

From the current research on absorbing rod energy-absorbing devices, it is found that the design idea of ​​most absorbing rod energy-absorbing devices is to use the principle of piston buffering and spring shock absorption to achieve the purpose of energy-absorbing buffering, although it can be seen from the results that Purpose, considering that the impact speed of the Hopkinson rod is relatively fast and the impact strength is high, it is easy to cause local deformation of the impact rod, the rod parts fall off, and even the damage of the absorbing rod device may be caused due to the inability to dissipate the energy in time

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