Project Name: Zhijiang Green Chemical Industry Comprehensive Service Park (Phase I)
Project Location: Zhijiang City, Hubei Province
Client: Hubei Yaojiagang Green Chemical Investment Holding Group Co., Ltd.
Contractor: Wuhan WISCO Green Urban Technology Development Co., Ltd.
Construction Area: 234,600 square meters
Equipment Used: Fulltime Putty & Latex Paint
Spraying RobotsA "New Engine for Industrial Services" Supporting Hubei's Chemical Industry Upgrade
The Zhijiang Green Chemical Industry Comprehensive Service Park is a key provincial industrial supporting project in Hubei. Invested and constructed by the Yaojiagang Green Chemical Group, it covers a total land area of 186 mu, with a total construction area of 234,600 square meters.
Upon completion, the park will accommodate approximately 5,000 residents. Integrating office spaces, living quarters, community support services, entertainment, and sports facilities, the project aims to realize the goal of "centralized corporate development within the park and centralized residential living in the urban area," establishing a benchmark "Talent Hub" and "Digital Economy Center."
Faced with such a massive construction task, traditional manual methods struggled to meet the dual demands of tight schedules and high-quality standards. To address this, the project introduced Fulltime Spraying Robots to conduct pilot construction in the apartment buildings and basement areas, exploring a new model of intelligent construction.
A "High-Standard Construction Project" with Multiple Challenges
The construction of this project faced several key challenges:
High risks in working at heights: The basement walls are approximately 4 meters high. Traditional construction requires setting up scaffolding, posing safety hazards such as falls from heights.
Vast area and tight deadlines: With a construction area of 234,600 square meters, traditional manual methods (assuming an efficiency of 100-120㎡ per person per day) would require a massive investment of manpower and working hours.
High quality standards: As a centralized residential area for industrial talent, the project has stringent requirements for the flatness and consistency of interior wall coatings.
Fulltime Robotics Provides Comprehensive Coating Construction Solutions
The project adopted Fulltime Spraying Robots for interior wall putty and paint application, covering two typical scenarios: apartments and basements.
● Scenario 1: Building 6 Apartments (Fulltime 3.2m Putty & Latex Paint Spraying Robot)
The apartment construction scenario covers indoor ceilings and walls, utilizing the 3.2m Spraying Robot for fully automated putty application.
Ceiling Spraying
Wall Spraying
Construction Results
● Scenario 2: Basement (Fulltime 4.6m Putty & Latex Paint Spraying Robot)
The basement construction area has a floor height of approximately 4 meters. The 4.6m Spraying Robot was used to complete two coats of putty and inorganic coating application.
1st Coat of Putty / 2nd Coat of Putty
Inorganic Coating
Construction Results
Efficiency Leap and Cost Optimization Brought by Fulltime Robots
Highlights of the Hubei Zhijiang Project
Efficiency Revolution: The robots support rapid battery swapping, enabling 24-hour continuous operation with spare batteries. In fully automated mode, the daily construction area exceeds 1,000㎡, which is over 8 times that of traditional manual labor.
Material Savings: The robot's material output is precisely controllable, keeping material consumption stable at around 2kg/㎡. This results in an overall material saving of approximately 10%, significantly reducing costs in large-scale construction.
Safety Assurance: Capable of covering both wall and ceiling construction, the robots eliminate safety hazards such as falls from heights at the source, achieving intrinsic safety through "machines replacing humans."
Stable Quality: Parameters such as the robot's spraying trajectory, speed, and material output can be precisely set and kept constant. This ensures uniform coating thickness and a consistent surface finish, with overall construction quality significantly superior to traditional manual operations.
