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Unmanned air cushion platform of aircraft carrier free with no flight deck

A flight deck and unmanned technology, applied to air cushions, aircraft carriers, aircraft parts, etc., can solve problems such as difficulties in taking off and landing aircraft, weak aircraft carrier anti-attack capabilities, and inability to install a large number of self-defense weapons to achieve universal interchange and upgrade Combat capability, the effect of extending the range of alert

Inactive Publication Date: 2017-07-14
CHANGZHOU COLLEGE OF INFORMATION TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Traditional aircraft carriers rely on flight decks to take off and land fighter jets. Due to the limited number and length of takeoff and landing runways, it is very difficult to take off and land aircraft. Even with the most modern electromagnetic ejection technology, the number of dispatched and recovered aircraft in a short period of time is still limited. It is also not possible to install a large number of self-defense weapons, and the aircraft carrier itself has weak anti-attack capabilities
Only one or two small ship islands can be set up above the deck, and a large number of facilities and personnel can only live in the lower warehouse

Method used

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  • Unmanned air cushion platform of aircraft carrier free with no flight deck
  • Unmanned air cushion platform of aircraft carrier free with no flight deck
  • Unmanned air cushion platform of aircraft carrier free with no flight deck

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Embodiment 1

[0023] See Figure 1 to Figure 3 , The unmanned air-cushion platform of the present embodiment is used for the aircraft carrier without flight deck, including hovercraft 1, fighter jet release and recovery platform 2, fighter catcher 3, fighter fixer 4 and fighter guide locator 5.

[0024] The hovercraft 1 includes a cabin 1-1 and air cushion skirts 1-2 arranged on both sides of the cabin 1-1. The cabin 1-1 is provided with an air cushion engine 1-3, a propulsion and heading adjustment engine 1-4 and an automatic driving and control system 1-5. The air cushion engine 1-3 is connected with the air cushion skirt 1-2. The main nozzle 1-4-1 of the propulsion and course adjustment engine 1-4 is arranged at the tail of the cabin 1-1. The secondary nozzles 1-4-2 of the propulsion and course adjustment engine 1-4 are arranged on both sides of the cabin 1-1. The bottom of the cabin 1-1 of the hovercraft 1 is provided with a submersible search sonar 1-6.

[0025] Fighter flying and ...

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Abstract

The invention discloses an unmanned air cushion platform of an aircraft carrier with no flight deck. The unmanned air cushion platform comprise a hovercraft, a fighter launching and recovering platform, a fighter arrester, fighter fixators and fighter guide positioners. The fighter launching and recovering platform is fixed to the top of the hovercraft. The fighter arrester and the fighter guide positioners are mounted on the fighter launching and recovering platform. The fighter fixators are mounted in the hovercraft. The tops of the fighter fixators penetrate through the fighter launching and recovering platform. The three fighter guide positioners separately correspond to the positions of three undercarriages of a fighter. The two fighter fixators are separately located on one sides of the two fighter guide positioners corresponding to the two longitudinal double-wheel bridge-shaped rear undercarriages of the fighter. By adoption of the unmanned air cushion platform, the fighter take-off and landing problems are thoroughly solved so that the aircraft carrier can omit the flight deck and can simultaneously launch or recover fighters in a large batch mode, and the combat capacity of the aircraft carrier is greatly improved.

Description

technical field [0001] The invention relates to an unmanned air cushion platform of an aircraft carrier without a flight deck. Background technique [0002] The aircraft carrier is the weapon platform with the most deterrent force and the highest combat effectiveness in the modern navy, and its main combat weapon is the fighter jet. Traditional aircraft carriers rely on flight decks to take off and land fighter jets. Due to the limited number and length of takeoff and landing runways, it is very difficult to take off and land aircraft. Even with the most modern electromagnetic ejection technology, the number of dispatched and recovered aircraft in a short period of time is still limited. Nor can a large number of self-defense weapons be installed, and the aircraft carrier itself has weak anti-attack capabilities. Only one or two small ship islands can be set above the deck, and a large number of facilities and personnel can only live in the lower warehouse. [0003] The ap...

Claims

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Application Information

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IPC IPC(8): B63G11/00B60V3/06B64F1/02B64F1/06B64F1/22
CPCB63G11/00B60V3/06B64F1/02B64F1/06B64F1/22
Inventor 周彩根张泽
Owner CHANGZHOU COLLEGE OF INFORMATION TECH
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