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Novel two-cavity impact resistant isolating device used for shipborne equipment

An isolation device and impact-resistant technology, applied in mechanical equipment, shock absorbers, springs, etc., to achieve the effect of strong bearing capacity, maintaining normal operation, and improving mechanical properties

Active Publication Date: 2016-10-12
SHENYANG POLYTECHNIC UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

General isolators are difficult to meet the needs of equipment with high impact resistance in complex environments

Method used

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  • Novel two-cavity impact resistant isolating device used for shipborne equipment
  • Novel two-cavity impact resistant isolating device used for shipborne equipment
  • Novel two-cavity impact resistant isolating device used for shipborne equipment

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Embodiment Construction

[0036] Below in conjunction with accompanying drawing, the present invention will be further described:

[0037] A new two-cavity anti-shock isolation device for shipboard equipment, the device includes a support plate 2, a buffer plate 6, a box body 7 and a bottom plate 9; the support plate 2 and the top surface 7-3 of the box body 7 are connected together , the bottom plate 9 is arranged on the lower part of the box body 7 and is flexibly connected with the box body 7. The bottom plate 9 is a structure that can move along the box body 7. The buffer plate 6 is flexibly connected with the box body 7. The buffer plate 6 is arranged on the support plate 2 and the bottom plate 9 Between the buffer plate 6 is a structure that can move along the box body 7; the first cavity 14 is surrounded between the buffer plate 6, the support plate 2 and the box body 7, and between the buffer plate 6, the bottom plate 9 and the box body 7 A second cavity 15 is formed, and the side wall of the s...

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Abstract

Disclosed is a novel two-cavity impact resistant isolating device used for shipborne equipment. The novel two-cavity impact resistant isolating device is characterized in that the isolating device comprises a support plate, a buffering plate, a box and a bottom plate. Compared with the prior art, the isolating device has the outstanding advantages that (1) according to the isolating device, the buffering effect is further improved, impact isolation is conducted in combination with a high-pressure spring, and the impact isolation effect is significant; (2) the support plate has high bearing ability to the equipment, and all the size, height and bearing area of the integral structure of the isolating device can be changed along with differences of actual shipborne equipment and differences of application environments; (3) the mechanical property of the isolating device is significantly improved compared with that of traditional impact resistant isolating devices; (4) springs are easy to install, detach and replace when different loads are borne; and (5) machining is easy, maintenance is convenient, and cost is low.

Description

technical field [0001] The invention relates to an anti-shock isolation device, in particular to a novel two-cavity isolation device for shipboard equipment with an unloading impact force structure, and belongs to the field of anti-shock technology for shipboard equipment. Background technique [0002] In modern coastal defense, ships play an irreplaceable role. Ships have a wide range of tasks and complex work content. In naval warfare, ships are the main combat platform, and their importance is self-evident. In naval battles, the counter-shock generated by the ship attacking the target, or the shock caused by the explosion at a certain distance, will have a certain impact on the ship itself, resulting in the failure of internal equipment to function normally and the ship cannot work normally, or even lose fighting power. So how to improve the anti-shock ability of the equipment in the ship has always been a research task that the navies of all countries in the world atta...

Claims

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Application Information

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IPC IPC(8): F16F7/00F16F13/00
CPCF16F7/00F16F13/007
Inventor 闫明高鹏孟宪松佟玲
Owner SHENYANG POLYTECHNIC UNIV
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