青島永泰氣囊工法船舶下水技術(shù)正式入庫國家科技成果庫

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青島永泰氣囊工法船舶下水技術(shù)正式入庫國家科技成果庫

近期，青島永泰船舶用品有限公司的一項科技成果——《在浮動船臺或載運駁船甲板采用氣囊工法船舶下水技術(shù)》成功通過科技部成果鑒定，并正式入庫國家科技成果登記庫。
入庫成果鏈接：https://www.tech110.net/portal.php?mod=view&aid=7989685

該項技術(shù)的研發(fā)源于對傳統(tǒng)造船與下水方式弊端的深入剖析，以及對更高效、更節(jié)能的新工藝的不斷探索。隨著全球船舶制造業(yè)的快速發(fā)展，傳統(tǒng)下水方式在占地面積、岸線依賴、施工周期、能耗成本等方面面臨諸多制約。在這一背景下，青島永泰的技術(shù)團隊開創(chuàng)性地研發(fā)出“子船通過滾動氣囊從母船下水”的新型工法。該技術(shù)通過在浮動船臺或載運駁船甲板上鋪設(shè)充氣滾動氣囊，實現(xiàn)子船的安全、高效下水。整個過程通常沿船舶縱向進行，且母船與子船的重量和尺寸比例可達1:1，即母船可承載并釋放與自身同等規(guī)模的船只。

該項技術(shù)的推廣應(yīng)用，為“海上造船”提供了切實可行的解決方案，大大減少了對岸基設(shè)施的依賴，節(jié)省了土地成本。同時，借助母船運輸并完成子船的下水操作，也顯著降低了拖帶運輸?shù)馁M用，提高了造船效率與靈活性，具有顯著的經(jīng)濟與社會效益。

目前，該技術(shù)已獲兩項國家知識產(chǎn)權(quán)保護（授權(quán)號：ZL201710181705.1），并在印尼和幾內(nèi)亞等地的多個項目中成功實施，已順利完成20余艘千噸級船舶的下水作業(yè)，獲得了業(yè)內(nèi)廣泛認可和業(yè)主的高度評價。

作為船用氣囊與護舷領(lǐng)域的領(lǐng)軍企業(yè)，青島永泰始終堅持以創(chuàng)新驅(qū)動發(fā)展，以實用引領(lǐng)變革。未來，公司將繼續(xù)深耕核心技術(shù)，不斷推進海洋工程領(lǐng)域的技術(shù)進步，助力中國智造走向更廣闊的國際舞臺。

英文原稿：

Qingdao Evergreen Maritime Earns National Recognition for Innovative Ship Launching Technology

After more than 20 years using experience, most shipyard are very familiar with the NEW technologies of marine launching airbags, which can also used as salvage airbag and water-blocking airbags, but there still are some end-users being not confident with it. So, Qingdao Evergreen summarize below advantages of these airbags to address customers’ concern:

1. Significant Cost Savings

      ? Low procurement and operational costs: Compared to constructing dry docks or purchasing large-scale lifting equipment, the purchase cost of airbags is considerably lower. Moreover, they eliminate the need for maintaining complex facilities over the long term, reducing capital investment by 30%-50%.

      ? Easy maintenance: Only regular inspections of the airbag’s exterior, valves, and other components are required, eliminating the need for specialized maintenance equipment and drastically reducing labor and time costs.

2. High Operational Flexibility and Stability

      ? Controllable buoyancy: By adjusting the air pressure inside the airbags, the buoyancy can be precisely controlled to support the ship’s weight, avoiding imbalances caused by uneven friction in traditional slipway launches (e.g., the detachment of skids leading to ship tilting, as seen in the North Korean destroyer incident).

      ? Flexible attitude adjustment: The ship’s tilt angle can be controlled by gradually deflating or inflating the airbags, ensuring a smoother launching process. For instance, the “aft tilting” technique mentioned in the references leverages gravity for a natural water entry, minimizing mechanical intervention risks.

3. Substantial Reduction in Safety Risks

      ? Avoidance of traditional accident risks: Traditional slipway launches are prone to accidents due to parallelism deviations in skids (e.g., the stern skid detaching first in the North Korean incident, causing hull damage) or sudden changes in friction coefficients. Airbags distribute risks evenly through uniform pressure bearing.

      ? Strong resistance to environmental disturbances: Airbags adapt well to changes in tides, wind, and other external factors, reducing the impact of sudden forces on the hull.

4. Outstanding Applicability and Convenience

      ? Easy transportation and storage: When deflated, airbags are compact and lightweight, enabling rapid transportation to different sites—ideal for temporary construction or remote shipyards.

      ? Versatile application: Suitable for ships of various tonnages (from small fishing boats to 5,000-ton destroyers) and complex terrains (e.g., inclined shorelines).

5. Improved Construction Efficiency

      ? Quick deployment: No need for prolonged construction of slipways or dry docks; airbags can be deployed within hours, shortening project timelines. For example, repairing the damaged hull in the North Korean incident took about two weeks, whereas airbag deployment would take only a few hours.

      ? Reusability: Airbags have a long lifespan (high-quality products can be reused over 50 times), making them suitable for multiple ship launches.

Case Comparison: Traditional Slipway vs. Airbag Launching

  ? North Korean Destroyer Incident (Traditional Slipway): Skid detachment caused hull imbalance and damage, requiring approximately two weeks for repairs.

  ? Airbag Solution: If airbags had been used, real-time attitude adjustments via pressure control could have prevented structural damage, reducing repair time to 2-3 days.

Summary

Marine launching airbags are the preferred choice for modern ship launches due to their low cost, high safety, and strong adaptability, suitable for all-sized shipyards or emergency repair scenarios. Their technical principles share similarities with water-blocking airbags for drainage pipes (e.g., the sealing performance and specification adaptability demonstrated in the Dalian case), both reflecting the flexible application of inflatable tools in engineering fields.