International Floor Scrubber

  On the map of Shanghai's manufacturing landscape, we are familiar with highly automated assembly lines and contract manufacturers focused on single processes. However, between these two extremes exists another model, brimming with resilience and unique competitiveness: deeply vertically integrated flexible manufacturing. This is precisely the path Jiechi Cleaning Equipment has taken—from a steel sheet to a complete machine: cutting and welding the sheet metal themselves, rotational molding their own water tanks, and completing final assembly in their own workshop.   This path may seem "heavy," yet in the current market environment, it is the most solid answer to the demands for "multiple varieties, small batches, high quality, and fast response."   I. Why Choose the "Heavy Asset" Model of Vertical Integration? In an era where asset-light models and outsourcing are widely pursued, our insistence on keeping core manufacturing processes in-house stems from a profound understanding of the essence of the cleaning equipment industry: Combating the Inherent Challenges of "Multiple Varieties, Small Batches": Commercial cleaning equipment serves vastly different scenarios—from cleanrooms in electronics factories to heavy-duty port yards. The required size, power, materials, and functional configurations vary greatly. Standardized assembly lines excel at producing uniform products but struggle to flexibly meet endless customized needs. Our model is built for variation from the design stage. Controlling the Lifeline of Quality: Long-term equipment reliability stems from solid execution in every detail. Welding in-house ensures the strength and technique of welds in critical load-bearing structures. Rotational molding tanks in-house controls raw material quality and uniformity, eliminating weak points and leakage risks. Quality control cannot be fully outsourced; it must permeate every touchpoint from raw material to finished product. Compressing the "Innovation-to-Realization" Cycle: When a client presents a special request (like an irregular-shaped waste tank or a reinforced suction inlet), our response chain is extremely short. Engineers and workshop technicians can communicate face-to-face, enabling rapid prototyping, trial production, and adjustments, bypassing the lengthy cycles of coordinating with multiple external suppliers. This agility is itself a core technology.   II. The Picture of "Flexible Manufacturing" in a Shanghai Workshop Our workshop is a fusion of a modern "cluster of artisans" and modular production:   Sheet Metal Fabrication: The Starting Point of Precision and Strength. There are no giant stamping lines dedicated to a single product here. Instead, it's equipped with laser cutters, CNC bending machines, and skilled welders. Laser cutting ensures precise dimensions for every hole and panel, laying the foundation for assembly. The welders' craftsmanship gives the equipment its sturdy skeleton. This combination ensures precision while enabling flexible production, from single units to batches. Rotational Molding: The Art of Shaping "Durable Containers." The water tank is the "stomach" of cleaning equipment; its durability directly determines the machine's lifespan. We independently control the material formula, heating curve, and cooling process of rotational molding, ensuring uniform wall thickness, smooth corrosion-resistant inner walls, and reinforced joints. This allows us to customize anti-corrosion formulas for acidic environments or low-temperature resistant materials for frigid regions, achieving true material-level customization. Assembly and Debugging: The Final Test of System Integration. In the Shanghai assembly workshop, all self-made and externally sourced precision components (motors, electrical controls, pumps, drive systems) converge. This is where the value of "integration" is most evident: the technicians are not just assemblers but system debuggers. They ensure the seamless coupling of mechanical, hydraulic, electrical, and intelligent control systems, and conduct rigorous operational tests on every piece of equipment before it leaves the factory. This debugging, based on a deep understanding of the overall architecture, is incomparable to simple assembly-line work.   III. Core Customer Value Delivered by Vertical Integration This production model ultimately translates into tangible benefits for our customers:   Genuine Customization Capability, Not Empty Promises: We don't offer choices from a few fixed models. Instead, we create functional combinations and adaptive modifications based on your actual working conditions (floor material, stain type, space layout, budget). Whether it's adding a special filtration unit or modifying clean water tank capacity, we possess complete in-house control from blueprint to realization. Exceptional Reliability, Rooted in Full-Process Control: From incoming inspection of steel to non-destructive testing of welds and pressure testing of rotationally molded parts, every critical quality checkpoint is managed by our own team. This makes product reliability traceable and accountable, leading to lower failure rates and better total lifecycle cost. Faster Response and More Assured After-Sales Service: When equipment requires maintenance or repair, our deep knowledge of its manufacturing process and "genetics" enables more accurate diagnostics and faster spare part matching. We offer not just part replacement, but systematic maintenance advice from the maker's perspective.   Conclusion   At Jiechi, we believe true manufacturing is about imparting the right form to steel, enduring resilience to plastic, and ultimately, a stable and reliable soul to a complex system. The path of "vertical integration" we have chosen may not hum with the same efficiency as an assembly line, but it responds to the market's call for diversity, reliability, and responsiveness in a more solid, flexible, and responsible manner.   This is not just our production method; it is our promise to our customers: every piece of equipment we deliver carries control from the very source and sincerity from start to finish.

Mechanical vs. Traditional   Cleaning Methods Compared     As companies increasingly adopt professional and efficient cleaning management practices, more service providers are realizing that mechanized cleaning isn't just a flashy solution—it's a practical choice that addresses real pain points. Below, let's break down the fundamental differences between the two approaches.   Cleaning Efficiency: The Speed Difference is Plain to See 1. Traditional manual cleaning methods (such as mops and push carts) are extremely inefficient, particularly when handling large areas or high-frequency cleaning tasks. They often leave cleaning staff scrambling to keep up, with efficiency being a major concern. 2. Mechanical cleaning equipment like floor scrubbers and sweep-wash-mop combination machines typically operate at several times the efficiency of manual labor. They can cover larger cleaning areas in a shorter time, significantly boosting operational efficiency while reducing labor costs.   Cleaning Quality: Controllable and Safer   1. Manual cleaning relies on the operator's experience level, resulting in inconsistent cleaning quality and prone to missed spots or residual stains. 2. Mechanized equipment achieves stable and consistent cleaning results through standardized settings (such as brush pressure, water volume, and path planning). Hospital trials demonstrate lower cleaning variability and reduced contamination levels.   Sanitary Safety: Powerful germ elimination to reduce cross-contamination   1. Manual cleaning mops are often reused, failing to thoroughly remove dirty water and becoming potential sources of bacterial transmission. 2. Mechanical equipment simultaneously scrubs surfaces and recovers contaminated water, effectively preventing contamination spread. Additionally, brush deck and high-pressure cleaning methods more thoroughly eliminate stubborn stains, elevating hygiene standards.   Worker Health: Reducing the Burden of Physical and Occupational Injuries   1. Prolonged bending and pushing/pulling operations can lead to occupational health issues such as lower back pain and joint injuries. 2. Mechanical cleaning operations are relatively effortless, significantly reducing physical strain and making cleaning work safer and more sustainable.   Summary     Project Traditional manual cleaning Mechanized cleaning Cleaning Coverage Small, Slow Large, Fast Cleaning Quality Prone to personal influence, inconsistent standards Stable and consistent Health and Safety Rags that are reused repeatedly are prone to secondary contamination. One-step cleaning, one-step recycling, high-efficiency sterilization Employee Health High labor intensity Reduce physical exertion and enhance occupational safety