Standard washing machines are typically for household use, designed for laundry items, bedding, and other household essentials; while hospital washing machines are the cleaning equipment used in hospitals.
Medical washing machines are mainly categorized by type and capacity. By type, they include semi-automatic horizontal washing machines, fully automatic washing machines, and sterilization isolation washing and drying machines. By capacity, they range from 20 kg, 30 kg, 50 kg, 70 kg, to 100 kg and beyond.

Isolation medical washing machines are equipped with microcomputer control systems, offering both automatic and manual options. They can achieve large-capacity water washing with high cleaning rates. Multiple automatic washing programs can be edited, allowing operators to simply select the appropriate program based on the laundry's specific condition. The machine's control panel can independently control the operation of various functions of the medical washing machine, with an LCD display indicating the washing progress. The purpose of laundry processing in hospitals is to remove or kill microorganism contamination, which involves three stages: water washing, sanitization, and dilution. The washing stage should ensure all fabrics are clean and hygienic by removing pollutants from the fabrics. Simultaneously, all fabrics should be chemically or thermally sanitized to kill or reduce the number of viable microorganisms. To dilute and reduce the number of viable microorganisms on the fabrics, hospital washing machines should at least perform two rinsing cycles to reduce the microbial load and remove detergents and disinfectants from the washing wastewater.

All clothing must be washed within the specified time frame. After washing, the process is dehydration and drying. The large-scale industrial drying equipment is designed to expel moisture from the clothes more quickly. A must-have feature in hospital-grade laundry equipment is the sterilization function, usually achieved through infrared sterilization or high-temperature sterilization.

The inner drum and outer shell of the hospital dryer are meticulously crafted from high-corrosion-resistant 304 stainless steel. It features an automatic control system for varying temperatures, with the entire process controlled by a computer and also includes manual operation. It ensures continuous, long-duration operation with a large capacity, and the main shaft and flange connections are all heat-treated to prevent deformation at high speeds, thereby extending the lifespan. The dryer's body and frame are connected using CO2 shielded welding technology, ensuring tight and durable joints; all structures are coated with a highly corrosion-resistant epoxy resin paint to enhance fault-free efficiency. Heating methods include steam heating and electric heating options. The development of a new model of gas-powered hospital dryer is also underway. Under the force of the fan, fresh air enters through the inlet, exchanges heat with the radiator, turns into dry hot air, and then exchanges heat with the tumbling textiles in the drum. Afterward, the air is exhausted from the dryer, and the textiles in the drum gradually evaporate moisture under the action of the dry hot air to achieve drying. Compared to steam dryers, the direct combustion hospital dryer does not require secondary conversion of heat energy, resulting in more efficient energy utilization, lower losses, and higher drying efficiency.
Our factory boasts sophisticated production equipment, scientific manufacturing processes, and a comprehensive quality control system. We provide products with dedicated service centers, offering medical washing machine models, installation and debugging, maintenance, and technical training to various hospitals.