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Modularized mobile airplane water taking-off and landing platform based on photovoltaic power station

A photovoltaic power station and takeoff and landing platform technology, which is applied in the field of ships, can solve the problems of unable to meet the needs of large and medium-sized aircraft takeoff and landing, and cannot meet the length requirements of 2 to 4 runways, so as to meet the needs of open sea operations, solve the problem of insufficient power supply, The effect of increasing the length

Inactive Publication Date: 2018-12-04
BEIHANG UNIV
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  • Abstract
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AI Technical Summary

Problems solved by technology

However, limited by the current ship manufacturing technology (the maximum length is usually a few hundred meters), the airport can only barely meet the length requirements of the first-class runway, and cannot meet the length requirements of the second to fourth-class runways.
Therefore, this technical solution still cannot realize the take-off and landing requirements of large and medium-sized aircraft, especially heavy transport aircraft.

Method used

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  • Modularized mobile airplane water taking-off and landing platform based on photovoltaic power station
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  • Modularized mobile airplane water taking-off and landing platform based on photovoltaic power station

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Embodiment Construction

[0016] The following is attached Figures 1 to 3 , to further illustrate a specific implementation of a modular mobile aircraft water take-off and landing platform based on photovoltaic power plants of the present invention. A modular mobile aircraft water take-off and landing platform based on a photovoltaic power station of the present invention is not limited to the description of the following embodiments.

[0017] Such as figure 1 As shown, a modular mobile aircraft takeoff and landing platform based on photovoltaic power plants includes a plurality of movable water modules connected end to end to form an aircraft takeoff and landing runway. The movable water module adopts a standardized module design method, and the same model has the same specification. When in use, according to the length requirements of the runway, select the appropriate model and quantity of modules for assembly and combination. This method has the advantages of fast construction speed, low cost, ...

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Abstract

A modularized mobile airplane water taking-off and landing platform based on photovoltaic power station comprises multiple movable water modules which are end to end to be assembled to form an airplane taking-off and landing runway; the movable water modules comprise hulls, control units, module docking units, battery arrays, energy storage battery devices and propelling devices, wherein the control units, the module docking units, the battery arrays, the energy storage battery devices and the propelling devices are mounted on the hulls; decks of the hulls are of rectangular structures; the module docking units are positioned at the front and back ends of the hulls; the two adjacent hulls are assembled and connected through the module docking units; and the battery arrays are arranged on the decks. According to the modularized mobile airplane water taking-off and landing platform based on the photovoltaic power station, through adoption of a modularized combined mode, the length of thetaking-off and landing runway can be effectively increased, and the building period and difficulty of the platform are reduced; during the taking-off and landing of an airplane, the platform can be controlled to obtain a certain initial speed so that the taking-off and landing distance of the air[plane is reduced by means of relative motion; and by laying the solar battery array on each deck, electric energy is provided for the operation of the movable water modules so that the endurance of the platform is effectively enhanced.

Description

technical field [0001] The invention belongs to the technical field of ships, and in particular relates to a modular mobile aircraft water take-off and landing platform based on a photovoltaic power station. Background technique [0002] In the development and utilization of remote sea islands and reefs, the construction and operation of offshore oil and gas platforms, ships or small seaplanes are usually used to carry out personnel commuting and material transportation guarantees, which have poor commuting convenience, small-scale transportation of materials, and long travel cycles. Disadvantages such as being disturbed by natural conditions. Although the method of land reclamation is used to build a standard runway with a length that meets the requirements for take-off and landing of medium and large aircraft, which can meet the requirements of commuting and transportation, it is costly and takes a long time to construct, and because it is a fixed facility, it is extremely...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B63B35/53B63B35/44
Inventor 孙康文郑泽伟
Owner BEIHANG UNIV
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