Successful construction case of Chao One True Realm Super - body Space
15136153618
2026-03-02
As immersive trendy play experiences become a new consumer trend, the Trend One Real-World Super Space was born. Located in Zhengzhou Baolong Plaza, this project is positioned as a "full-scene immersive interactive trendy play complex," with a total construction area of 10,000 square meters. Spanning two floors, it encompasses five themed challenge scenarios and over sixty leisure and entertainment projects, making it a large-scale immersive experience space integrating technological interaction, parent-child entertainment, and leisure social interaction. The core objective of this project was to achieve a "deep integration of technology and space," balancing immersion, safety, and operational practicality. After 120 days of efficient construction, all construction tasks were successfully completed and the space was put into operation, becoming a benchmark project for the construction of immersive trendy play spaces in the region.
I. Project Overview
1.1 Basic Project Information
Project Name: ChaoOne Real-World Super-Space Construction Project Project Location: Zhengzhou Baolong Plaza (near Exit A and D of Nongye East Road Station, Line 4) Construction Area: 10,000㎡ (two floors, 5,000㎡ each) Construction Period: 120 days (including design refinement, main structure renovation, equipment installation, commissioning and acceptance) Construction Content: Main structure renovation, space zoning and decoration, sound, light and electricity system integration, interactive equipment installation, fire protection and supporting facilities construction Project Positioning: To create an immersive super-space integrating five themed challenge areas: post-apocalyptic ruins, mechanical factory, lost temple, magic forest, and interstellar miracle, as well as more than 60 kinds of leisure and entertainment projects such as go-karting, VR battle cars, and bowling, to meet the diversified entertainment needs of parents and young people.
1.2 Core Project Requirements
1. Immersive Experience: Through spatial design, sound, light, electricity, and scene recreation, an immersive interactive experience is created, achieving differentiated presentation of five themed scenes and ensuring the atmosphere and sense of immersion in each scene; 2. Safety and Compliance: Strictly adhering to commercial space construction specifications and fire safety standards, taking into account equipment operation safety and personnel activity safety, and adapting to the needs of scenes where children and adults participate together; 3. Efficient Completion: Completing simultaneous construction of multiple areas and systems within a limited construction period, ensuring both construction quality and progress, and guaranteeing the project's timely opening and operation; 4. Operational Adaptability: Fully considering the needs of later operation during construction, reserving space for equipment maintenance and optimizing pedestrian flow, ensuring the smooth operation and flexible adjustment of more than sixty entertainment projects.
II. Construction Challenges and Countermeasures
The construction challenges of this project are concentrated in four main areas: "optimization of space utilization, multi-system collaboration, accuracy of scene reproduction, and safety management." The construction team developed targeted solutions based on the characteristics of the project, and efficiently overcame the construction bottlenecks.
2.1 Challenge 1: Complex spatial layout and high utilization requirements
The project has two floors, each with a floor area of 5,000 square meters. It needs to be divided into five themed challenge areas, a leisure and entertainment area, and a supporting service area, among other functional areas. It needs to meet the layout requirements of more than sixty entertainment projects, ensure smooth pedestrian flow and avoid crowding, and reserve space for equipment installation and maintenance. The space planning is quite challenging.
Response strategy: Employ BIM digital modeling technology to conduct 3D simulation planning of the entire space, accurately divide each functional area, optimize pedestrian flow design, and ensure the functional adaptability of each area; for the five major theme scenes, adopt a "zoned construction and staggered operation" mode, prioritizing the completion of the main zoning renovation before carrying out scene detail decoration to avoid cross-construction interference; make reasonable use of the floor height advantage, adopt a layered layout in the second-floor entertainment area, optimize the placement of large equipment such as go-karts and bowling, improve space utilization, and ultimately achieve the layout goal of "full functionality, reasonable circulation, and open space".
2.2 Challenge Two: The integration of sound, light, electricity, and interactive devices is highly difficult.
The core highlight of the project is the immersive experience, which requires the integration of various devices such as VR equipment, AR interactive projection systems, full-color laser projection matrices, 3D sound fields, and dynamic lighting. It involves multiple disciplines such as electrical engineering, low-voltage electrical engineering, and multimedia, requiring multiple systems to run synchronously with a latency of ≤20ms to ensure a smooth interactive experience. At the same time, the sound, light, and electricity effects of the five themed scenes need to be presented differently, such as the industrial-style lighting of the mechanical factory, the beautiful light and shadow of the magic forest, and the atmospheric sound effects of the post-apocalyptic ruins, which requires extremely high construction precision.
Solution: Assemble a professional multi-system collaborative construction team covering electrical, low-voltage, multimedia, and equipment installation fields; conduct technical briefings in advance to clarify the installation standards and collaborative requirements of each system; adopt a "pre-embed, then install, then debug" process to pre-reserve electrical conduits and projection lines to avoid rework by chiseling walls later; introduce 5G-A streaming technology to build a low-latency network transmission platform to achieve synchronous control of multiple devices; for different themed scenarios, work with the design team to optimize sound, light, and electricity parameters, and repeatedly debug lighting, sound effects, and projection effects to ensure that the immersive experience of each scene meets the standards, ultimately achieving an immersive experience of "integrated sound, light, and cinema".
2.3 Challenge 3: High scene reproduction accuracy and complex construction process
The five themed scenes need to be reproduced 1:1 to the design effect, such as the broken walls of the post-apocalyptic ruins, the industrial components of the mechanical factory, the retro style of the lost temple, the fantasy landscape of the magic forest, and the space elements of the interstellar wonder. This involves a variety of complex processes such as the construction of irregular curved walls, the production of simulated models, and special effects decorations. At the same time, it is necessary to take into account both aesthetics and durability to avoid damage during later operation.
Solution: Produce 1:10 scale models of each themed scene in advance, confirming design details before on-site construction; select high-strength, easy-to-maintain decoration materials, and use customized templates for irregular curved walls to ensure precise design with an error of ≤3cm; invite a professional design team to be responsible for the production of scene simulation decorations, such as dinosaur models, space elements, and magic props, to enhance scene fidelity; conduct full-process monitoring and inspection during construction, adjusting details promptly to ensure the scene effect is highly consistent with the design plan, while also ensuring the sturdiness of decorative components and adapting to the needs of high-frequency personnel activities.
2.4 Challenge 4: High difficulty in security management and high compliance requirements
The project is a commercial entertainment space targeting both children and adults. It must strictly comply with fire safety regulations and be equipped with complete fire safety facilities. At the same time, it must ensure the safe installation of large entertainment equipment (such as go-karts and VR racing cars) and avoid safety hazards such as electrical faults and structural loosening. During the construction period, the construction site is densely populated with personnel and a large number of equipment, with frequent cross-operations, making safety management quite difficult.
Response strategies: Establish a comprehensive safety management system, assign dedicated safety officers, and implement a "daily inspection and weekly review" system, focusing on identifying safety hazards in electrical construction, equipment installation, and high-altitude operations; strictly adhere to fire safety regulations during construction, install fire-fighting facilities such as sprinklers, smoke detectors, and emergency lighting, demarcate fire lanes, ensure unobstructed access, and pass fire safety inspections; for the installation of large-scale entertainment equipment, invite professional equipment manufacturers to provide full guidance, strictly follow the equipment manuals during construction, and conduct multiple rounds of load testing after completion to ensure safe operation of the equipment; provide safety training to construction personnel, standardize construction operations, ensure the wearing of safety protective equipment, eliminate violations of regulations, and achieve "zero safety accidents" throughout the entire process.
III. Construction Implementation Process
The construction of this project adopts a "phased, regional, and collaborative approach" model, clearly defining the key points of construction at each stage, strictly controlling construction quality and progress, and ensuring efficient project fulfillment. The specific implementation process is divided into four stages.
3.1 Phase 1: Design Detailing and Construction Preparation (15 days)
1. Organize the design team to communicate deeply with the operator, combining the characteristics of the trendy toy industry and the project positioning, to refine the design scheme, clarify the functions of each area, scene details, and equipment layout, and complete the BIM 3D modeling and construction drawing handover; 2. Conduct on-site surveys and assessments, test the site's power supply, network coverage, and geological conditions, clean the construction site, set up temporary construction facilities, and equip the site with construction equipment and materials; 3. Assemble a construction team covering majors such as main structure, decoration, electrical, low-voltage electrical, and equipment installation, conduct technical training and safety briefings, and clarify the construction process, quality standards, and safety requirements; 4. Complete material procurement and inspection, select environmentally friendly, durable decoration materials and equipment that meet design requirements, ensure material quality standards are met, and prevent unqualified materials from entering the site.
3.2 Second Phase: Main Structure Renovation and Zoning Decoration (45 days)
1. Carry out structural modifications according to the construction drawings, including wall demolition, new wall construction, floor leveling, and ceiling construction, with a focus on completing the zoning of the upper and lower floors to ensure structural stability; 2. Advance decoration construction in sections, prioritizing the completion of basic decoration for the five themed challenge areas, decorating walls, floors, and ceilings according to scene design requirements to create the initial scene shape; 3. Simultaneously advance the decoration of supporting service areas, including reception areas, rest areas, and restrooms, ensuring complete supporting facilities to meet operational needs; 4. During construction, assign dedicated personnel for inspection, strictly control decoration quality, adjust construction details in a timely manner, ensure that the decoration effect is consistent with the design plan, and at the same time, implement environmentally friendly construction to reduce construction pollution.
3.3 Phase Three: Equipment Installation and System Integration (40 days)
1. Conduct electrical and low-voltage wiring construction, including pre-laying electrical conduits, installing distribution boxes, and laying network cables to ensure stable power supply and smooth network transmission, meeting the needs of multiple devices operating simultaneously; 2. Install audio-visual systems, including full-color laser projection matrix, 3D sound field equipment, dynamic lighting, AR interactive projection systems, etc., and complete equipment debugging to ensure the coordinated operation of multiple systems; 3. Install various entertainment equipment, including over sixty types of equipment such as VR battle cars, go-karts, bumper cars, bowling alleys, PS5, and mahjong tables. Invite equipment manufacturers to provide full guidance, complete equipment installation, debugging, and load testing to ensure normal equipment operation; 4. Complete the installation of special effects decorations and interactive devices in five major themed scenes, such as the boss machine in the post-apocalyptic ruins, the interactive obstacle course equipment in the mechanical factory, and the fantasy props in the magic forest, enhancing the immersion and interactivity of the scenes.
3.4 Phase Four: Commissioning, Acceptance and Delivery (20 days)
1. Conduct a comprehensive commissioning of the entire project, including the audio-visual systems, entertainment equipment, fire protection facilities, and network systems. Identify potential operational hazards, optimize equipment parameters, and ensure all functions meet standards. 2. Organize a joint acceptance inspection with the design, operation, and supervision teams. Compare the construction drawings and design schemes to check the construction quality, scene fidelity, equipment operation, and safety compliance. Address any issues identified during the inspection promptly. 3. Complete the fire safety inspection to ensure the project complies with fire safety regulations and obtain a fire safety acceptance certificate. 4. Clean up the construction site, provide equipment maintenance training, hand over construction documents, equipment manuals, and other relevant documents to the operator, complete project delivery, and assist the operator with pre-opening preparations.
IV. Construction Achievements and Highlights
4.1 Construction Results
1. Efficient Contract Completion: All construction tasks were completed successfully within 120 days, and the project was delivered for operation on time, 10 days ahead of schedule, ensuring a smooth opening and achieving "zero delays, zero safety accidents, and zero quality complaints." 2. Quality Compliance: The project's construction quality met national commercial space construction standards and design requirements, with a scene reproduction rate of over 98%. The sound, light, and electricity systems operated stably, and the entertainment equipment functioned normally. It passed both fire safety inspections and joint inspections. 3. Operational Suitability: The spatial layout was reasonable, with smooth pedestrian flow and reserved space for equipment maintenance. Over sixty entertainment projects could operate smoothly, meeting the diverse needs of families and young people. After opening, the project received widespread market acclaim and became a new landmark for trendy entertainment in the area. 4. Compliance and Safety: Strict adherence to fire safety regulations and construction safety standards was maintained. The project was equipped with complete fire safety facilities, and the equipment installation was safe and reliable, suitable for scenarios where children and adults could participate in activities together, ensuring safe operation throughout the entire process.
4.2 Construction Highlights
1. Digital Construction Empowerment: Utilizing BIM+GIS digital construction technology, real-time mapping between virtual construction and physical construction is achieved, enabling precise control of spatial layout and construction accuracy, reducing rework, and improving construction efficiency. 2. Multi-System Collaborative Innovation: Overcoming technical challenges such as precise positioning in large spaces and synchronous control of multiple systems, seamless collaboration of sound, light, electricity, interactive equipment, and network systems is achieved, creating an immersive "sound, light, and cinematic" experience that highlights the project's core competitiveness. 3. Precise Implementation of Scenario-Based Construction: Customized construction processes are adopted for five themed scenarios, accurately reproducing design details and creating differentiated scenario experiences, such as the atmosphere of a post-apocalyptic ruin, the beauty of a magical forest, and the technological feel of a mechanical factory, enhancing the user's immersive experience. 4. Balancing Safety and Practicality: During construction, strict safety compliance requirements are maintained while fully considering future operational needs, optimizing spatial layout and equipment installation to achieve the construction goals of "safety, practicality, aesthetics, and efficiency," laying the foundation for the project's long-term operation.
V. Project Summary
The construction project of ChaoOne's Real-World Super Space is a successful example of "integrating technology and space, and balancing quality and efficiency." Facing numerous challenges such as complex spatial layout, high difficulty in integrating multiple systems, high precision in scene recreation, and strict safety management, the construction team successfully completed the task by developing a scientific construction plan, adopting advanced construction technologies, strengthening team collaboration, and strictly controlling construction quality and safety. The result is a high-quality, highly immersive, and highly safe immersive trendy play space.
The successful construction of this project not only provides a solid guarantee for the smooth operation of the Trend One Immersive Super Space, but also accumulates valuable experience in the construction of large-scale immersive commercial and entertainment spaces. In particular, the practices in BIM digital construction, multi-system collaboration, and scenario-based construction provide a benchmark for similar projects. In the future, the construction team will continue to uphold the philosophy of "striving for excellence and pragmatic innovation," focusing on the field of immersive space construction, continuously improving construction technology and service levels, creating more high-quality construction projects, and contributing to the high-quality development of the trendy toy industry.