Tianjin Central Obstetrics and Gynecology Hospital Binhai campus lighting successfully turned on

Recently, the floodlighting of the Binhai Campus project of Tianjin Central Obstetrics and Gynecology Hospital, which was constructed by China Construction Eighth Engineering Group Co., Ltd., was successfully turned on.

The project is located in the Linhai New City area of the Eco-City in Binhai New District, Tianjin, with a total construction area of approximately 63,000 square meters. After completion, it will become an integrated medical, teaching, and scientific research center. It will be based on the eco-city, serve Binhai New District, radiate to surrounding areas, and provide the best quality women's care. It provides tertiary-level hospitals, smart hospitals, and high-tech hospitals that produce medical and health care services.

The floodlighting system of the project includes more than 4,000 sets of wall washers, more than 3,000 sets of floodlights, and more than 400 sets of embedded deep-cup spotlights. It is combined with the overall people-oriented design concept and the main warm tone of the reflective materials of the facade curtain wall to achieve the best effect during the day. The building curtain wall has a comfortable feel and the warm and soft effect of floodlighting at night creates a warm and peaceful atmosphere, highlighting humanistic care.

In order to implement the "dual carbon" concept, floodlighting introduces an intelligent lighting control system, which can be controlled in different modes and time periods through preset programs, and automatically adjusts the light brightness and color temperature to ensure sufficient lighting and achieve energy conservation and emission reduction.

The medical complex building of the project is 64 meters high. In order to install high-altitude lamps accurately and safely, the project team divided into task teams and were responsible for the high and low areas according to the installation location. They avoided cross-operation problems in advance and prepared a construction plan "according to local conditions" and adopted a "line" approach. Determine the installation angle in advance through "simulation experiment" method to ensure that the lamps are installed accurately and perfectly demonstrate the floodlight design requirements.

The rail transportation system that can quickly transport medical items is a powerful tool for modern hospitals to improve work efficiency. Due to the particularity of the hospital's architectural environment and requirements, the project's various professional systems have many pipelines and complex spatial layouts. The project team used the transportation transfer station to change the track orientation, cleverly adding "wavy" tracks to ultimately meet the elevation requirements for track laying and effectively ensure the circulation of medical supplies.

The pneumatic logistics system mainly uses air pressure to transport medical items in closed pipelines. In order to ensure normal transportation, the pipeline requires a large radius of curvature when turning. Considering that the installation space required is larger in a low-altitude environment, the project team comprehensively used BIM technology to guide on-site construction, unified planning of the route arrangement of each pipeline and gas flow channel, further avoiding system operation conflicts, while meeting the special requirements of gas flow, greatly improving the safety, economy and aesthetics of the building.