山东科学
山東科學
산동과학
SHANDONG SCIENCE
2012年
5期
58-62
,共5页
万晓正%范秀涛%周伟%陈世哲%刘世萱
萬曉正%範秀濤%週偉%陳世哲%劉世萱
만효정%범수도%주위%진세철%류세훤
浮标%型深%重心高%稳性衡准数
浮標%型深%重心高%穩性衡準數
부표%형심%중심고%은성형준수
buoy%depth of hull%height of gravitational center%stability criteria
针对整体式大型海洋资料浮标海上生存能力不强,加工制造、布放运输不便等问题,设计了一种直径为6m的组装式的大型浮标。利用船舶静力学的计算方法,确定了浮标的型深为2.2m、重心高为0.9m以及其他基本参数,并对浮标的稳性衡准数进行校核,结果满足使用要求。该设计为浮标加工质量的可控性提供了合理化依据。
針對整體式大型海洋資料浮標海上生存能力不彊,加工製造、佈放運輸不便等問題,設計瞭一種直徑為6m的組裝式的大型浮標。利用船舶靜力學的計算方法,確定瞭浮標的型深為2.2m、重心高為0.9m以及其他基本參數,併對浮標的穩性衡準數進行校覈,結果滿足使用要求。該設計為浮標加工質量的可控性提供瞭閤理化依據。
침대정체식대형해양자료부표해상생존능력불강,가공제조、포방운수불편등문제,설계료일충직경위6m적조장식적대형부표。이용선박정역학적계산방법,학정료부표적형심위2.2m、중심고위0.9m이급기타기본삼수,병대부표적은성형준수진행교핵,결과만족사용요구。해설계위부표가공질량적가공성제공료합이화의거。
We design a big assembled buoy of 6 m diameter in view of the weak viability of a big overall oceanographic data buoy and the inconvenience of its manufacture and transport. We also employ Ship Static calculation method to determine such basic parameters of the buoy as molded depth of 2.2 m and height of gravitational center of 0, 9 m. We then check the stability criteria of the assembled buoy based on the ship stability specification and obtain an assembled buoy satisfying the requirement of usage. The design provides a rational basis for the controllability of buoy manufacture quality.
