Shipbuilding

Industry Supply Chain

Upstream Industry

Midstream Industry

Downstream Industry

Raw Material Supply For The Steel Industry

Machinery and Electronic Components Manufacturing Industry

Preparation Stage Of Shipbuilding

Raw Material Supply For The Steel Industry

Metal mineral mining and beneficiation, iron smelting, steelmaking, steel processing, ferroalloy smelting, steel wire and its products, etc.

Software Manufacturing

Through digital shipbuilding software, shipbuilders can simulate the entire shipbuilding process in an integrated virtual shipyard before even cutting the first plate.

Machinery and Electronic Components Manufacturing Industry

Power machinery, lifting and transportation machinery, agricultural machinery, metallurgical and mining machinery, chemical machinery, textile machinery, instruments and meters, electronic components, etc.

Ship Assembly And Manufacturing

Transport Ships

Ships that carry passengers and cargo, also known as merchant ships. Compared with other modes of transportation, their advantages are large carrying capacity and low operating costs.

Engineering Work Vessels

Vessels specifically designed for certain above-water or underwater engineering projects, such as navigation safeguards, port operations, water conservancy construction, offshore construction, and rescue and salvage operations.

Fishing Vessels

Vessels and auxiliary vessels used for catching and harvesting aquatic plants and animals, such as vessels used for seafood processing, transportation, aquaculture, surveying, and carrying out fisheries administration tasks.

End Customers In The Shipbuilding Industry

Shipping

Passenger and cargo shipping

Ship Repair

Through digital shipbuilding software, manufacturers can simulate the entire shipbuilding process in an integrated virtual shipyard before cutting the first plate.

Ports and Wharves

Equipped with facilities and conditions for combined water and land transport, providing safe entry, exit, and berthing for ships. They serve as places for ships to moor, load and unload cargo, embark and disembark passengers, and replenish supplies.

Industry Pain Points

Traditional Equipment Is Outdated

The equipment has limited functionality, a short lifespan, and cannot guarantee personal safety.

The Processing Procedures Are Complex And Intricate

Manual welding suffers from poor consistency and low efficiency.

Serious Industrial Pollution

It has a significant impact on workers' health.

Collaborative Robot Welding Applications in Shipbuilding

System Piping

Collaborative robot welding is applied to shipboard piping systems that ensure watertightness, fire safety, seakeeping performance, and crew/passenger amenities. It performs precise welding on bilge pipes, ballast pipes, fire mains, air pipes, filling pipes, sounding pipes, water supply pipes, drain pipes, and ventilation ducts, ensuring sealing, strength, and corrosion resistance.

Keel

Collaborative robot welding is used for the ship’s keel, the primary longitudinal loadbearing structure(especially in smaller vessels), which resists longitudinal bending momentsand ensures structural strength. Focus is on welding bulb platesand other keel materials to maintain consistent joint quality.

Side Keelsons

Collaborative robot welding applies to side keelsons(longitudinal members on both sides of the keel). It handles platesand Tbarsto share longitudinal bending loadsand enhance the hull’s resistance to external forces.

Frames

Collaborative robot welding is used for frames(longitudinal members on both sides of the hull), working with sectionsand Tbarsto form a trusslike structurethat secures shell platingand increases overall structural strength.

Stem and Stern Posts

Collaborative robot welding is applied to the stemand stern postsat the bow and stern, connected to the keel. It welds platesto improve resistance to wave impact, hydrostatic pressure, longitudinal collisions, and vibrationfrom propeller operation.