端午假期期间,吴忠市利通区的宁夏民族职业技术学院 campus buzzed with activity, showcasing a bustling construction scene despite the holiday. Tower cranes swung their arms, engineering vehicles moved steadily, and hundreds of workers toiled diligently in their respective roles at the digital information education integration training building project site and the 5th and 8th dormitory buildings.
The 5-story student dormitory building was taking shape, with its fifth-floor formwork completed and workers busy tying reinforcement bars for beam-slab construction. Meanwhile, the 8th dormitory building had finished its fourth floor, with the fifth-floor formwork being fully set up. Across the road, the digital information education integration training building site was equally busy: its third floor had been entirely constructed, with work progressing on the fourth-floor beam-slab reinforcement tying.
According to the project's on-site supervisor, since construction began in early April, the team has pushed ahead full throttle to meet deadlines. As of now, the project is 10 days ahead of schedule compared to the original plan.
This project serves as a key initiative under the自治区's optimized college education layout and a core infrastructure improvement project for宁夏民族职业技术学院to enhance its teaching facilities and living conditions. With a total construction area of 20,598 square meters, the training building has four floors above ground, reaching a height of 21.5 meters with a design service life of 50 years. The two dormitory buildings, each five stories tall, stand at a total height of 21.8 meters. Once completed, they will provide 1,164 student accommodations and include supporting facilities like landscaping, water supply, heating systems, significantly improving the school's hardware conditions and addressing后勤shortcomings.
The project is characterized by its technological innovation. Full-process application of建筑信息模型 (BIM) technology has been implemented across design, construction, handover, and cost control phases, effectively resolving construction challenges and achieving precise management. The site has comprehensively adopted an intelligent construction system: automatic dust suppression via smart sprinklers linked to dust monitoring systems; solar-powered intelligent surveillance and infrared intelligent sound-light warning signs installed throughout the area for 24/7 security and proactive safety alerts.
Additionally, the site features real-time monitoring of worker activities through 4G audio-video recording devices and smart helmets. Continuous operation of limited-space gas detection systems and scaffold tilt monitoring equipment ensures advance identification of potential risks. A comprehensive tower crane safety network is established using hook visualization, integrated control centers, and intelligent access systems. Ground polishing robots are employed for precise operations, enhancing construction efficiency with technological advancements.
