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Three-pillar support-type superstructure of unmanned surface vehicle

A superstructure, support technology, applied in superstructure, ship, ship construction and other directions, can solve the problems of lack of dynamic stability, anti-overturning sensing equipment sensing efficiency, difficulty in maintaining motion stability, and reduced ship navigation performance, etc. Achieve significant anti-overturning ability, reduce sway characteristics and improve longitudinal stability

Inactive Publication Date: 2014-03-12
JIANGSU UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Most of the unmanned boats are single-hull boats. Due to their small displacement and scale, they are particularly sensitive to external wind, waves and currents. It is difficult to maintain good motion stability when sailing at high speed, especially swaying motions. Performance, dynamic stability and anti-overturning performance, poor navigation economy, low probability of normal operation under high sea conditions
This type of boat structure, especially the superstructure, does not scientifically take into account dynamic stability, anti-overturning performance, sensing efficiency of sensing equipment and other performance requirements, but only builds a simple superstructure when needed. The superstructure structure is not closed, generally there is only one layer of sensing platform, which can not protect the sensing equipment well, but also makes the stability worse, thus reducing the overall navigation performance of the ship

Method used

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  • Three-pillar support-type superstructure of unmanned surface vehicle
  • Three-pillar support-type superstructure of unmanned surface vehicle
  • Three-pillar support-type superstructure of unmanned surface vehicle

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Embodiment Construction

[0018] see Figure 1-3 , the surface unmanned vehicle includes the main hull 1, the design waterline length of the main hull 1 is L, and the design waterline width is B.

[0019] Two front pillars 2 and a rear pillar 5 are arranged on the deck 11 of the main hull 1, and the bottoms of the two front pillars 2 and a rear pillar 5 are all vertically fixed on the deck 11. Two front pillars 2 and a rear pillar 5 are fully enclosed pillar structures. Two front pillars 2 are symmetrical with respect to the left and right width direction of the main hull 1, and a rear pillar 5 is located in the middle of the main hull 1 in the left and right width direction.

[0020] The two front pillars 2 are located at the forward (1 / 6-1 / 4) L position of the midship, and the rear pillar 5 is located at the rear (1 / 6-1 / 4) L position of the midship. The bottom length L1 of the rear pillar 5 is (1 / 6-1 / 5) L, the height h of the rear pillar 5 is 2 / 3-13 / 7 of the design waterline length, the height of t...

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Abstract

The invention discloses a three-pillar support-type superstructure of an unmanned surface vehicle. Two totally-enclosed front pillars and a totally-enclosed rear pillar are vertically and fixedly arranged on a deck of a main hull; the two front pillars are symmetric relative to the left-right width direction of the main hull, and respectively located at an L position which is 1 / 6-1 / 4 in front of a midship; L is the designed waterline length of the main hull; the rear pillar is located in the middle of the left-right width direction of the main hull, and located at an L position which is 1 / 6-1 / 4 at the rear of the midship; the top part of the rear pillar is provided with a first layer sensing platform and a second layer sensing platform located above the first layer sensing platform; the first layer sensing platform and the second layer sensing platform are fixedly connected by a connecting pillar; another first layer sensing platform is connected between top parts of the two front pillars; a longitudinal horizontal member is connected between the middles of the two first layer sensing platforms. The sensing platforms are large in area, so that more facilities can be arranged, and the longitudinal stability of the unmanned surface vehicle is improved.

Description

technical field [0001] The invention relates to a water surface unmanned boat, which is used for water surface and underwater dynamic monitoring, water surface patrol and various operations, in particular to a three-column support superstructure of the water surface unmanned boat. Background technique [0002] Most of the unmanned boats are single-hull boats. Due to their small displacement and scale, they are particularly sensitive to external wind, waves and currents. It is difficult to maintain good motion stability when sailing at high speed, especially swaying motions. performance, dynamic stability and anti-overturning performance, the navigation economy is poor, and the probability of normal operation under high sea conditions is low. This type of boat structure, especially the superstructure, does not scientifically take into account dynamic stability, anti-overturning performance, sensing efficiency of sensing equipment and other performance requirements, but only b...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B63B15/00
Inventor 杨松林
Owner JIANGSU UNIV OF SCI & TECH
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