28, MAY, 2024 -
HJTND, received a product development request in February from our major client, Hyundai Samho Heavy Industries' Deck House Production Department, for a specialized lifting loader to be installed on a ship currently under construction. We began development and manufacturing in May and successfully delivered the product to the client.
The 200-ton lifting loader specifically developed for deck houses, which we recently completed, was initially requested as lifting equipment exclusively for the deck house of the ship. However, to enhance the equipment's versatility, it was designed to also be usable for P.E. work on individual blocks, allowing for multifaceted application.
Due to the structural characteristics of the deck house, which involves thin steel plates, we developed the lifting equipment to minimize potential damage and safety issues caused by deformation during lifting. This was achieved by designing the equipment to utilize wide lug points. Additionally, to prevent eccentric loading due to the layered structure of the deck house, we incorporated redundant ring wire connections to ensure that the equipment remains stable and does not experience eccentricity.
28, MAY, 2024 -
HJTND, received a product development request in February from our major client, Hyundai Samho Heavy Industries' Deck House Production Department, for a specialized lifting loader to be installed on a ship currently under construction. We began development and manufacturing in May and successfully delivered the product to the client.
The 200-ton lifting loader specifically developed for deck houses, which we recently completed, was initially requested as lifting equipment exclusively for the deck house of the ship. However, to enhance the equipment's versatility, it was designed to also be usable for P.E. work on individual blocks, allowing for multifaceted application.
Due to the structural characteristics of the deck house, which involves thin steel plates, we developed the lifting equipment to minimize potential damage and safety issues caused by deformation during lifting. This was achieved by designing the equipment to utilize wide lug points. Additionally, to prevent eccentric loading due to the layered structure of the deck house, we incorporated redundant ring wire connections to ensure that the equipment remains stable and does not experience eccentricity.