The use of spray nozzles in the beauty industry has greatly improved the convenience and experience of products. Through atomization technology, precise and uniform spraying is achieved, which is suitable for makeup spray, sunscreen, perfume and other products. Its non-contact design ensures hygiene, quantitative control reduces waste, and the delicate spray can quickly adhere to the skin or hair to enhance the absorption effect. Innovative spray nozzle design (such as adjustable atomization and portable aerosol cans) has also expanded product functions and become the key to differentiated competition for beauty brands.

Spray nozzles are widely used in the medical industry for drug delivery, disinfection care, and wound treatment. Their precise atomization technology enables efficient and sterile liquid spraying. For example, nasal sprayers are used for vaccine or drug delivery, wound irrigation nozzles can evenly clean wounds, and disinfectant sprays are used to sterilize instruments or skin surfaces. Medical-grade spray nozzles are usually made of biocompatible materials (such as PP, PE) and have an anti-backflow design to ensure safety and hygiene standards, and improve the convenience and effectiveness of treatment.

Nozzles play an efficient and precise cleaning role in the cleaning industry and are widely used in scenarios such as surface cleaning, disinfection and decontamination. Its atomization technology can evenly spray detergent or disinfectant to cover large areas (such as floors, glass, and equipment), reduce liquid waste and improve cleaning efficiency. High-pressure nozzles are suitable for rinsing stubborn stains, while micro-mist nozzles are suitable for residue-free cleaning of delicate surfaces (such as electronic equipment and medical equipment). In addition, adjustable nozzles can switch water columns or spray modes to meet diverse cleaning needs, while environmentally friendly designs (such as water-saving and refillable) are in line with sustainable development trends.

Nozzles play a key role in the food industry, and are mainly used in automated cleaning, disinfection, and food processing. Its high-pressure rotating nozzle can efficiently clean equipment pipes and container inner walls to ensure that there are no sanitary dead corners; the atomizing nozzle can evenly spray disinfectants to meet HACCP hygiene standards; in food processing, the precise metering nozzle can realize the automated quantitative spraying of sauces and oils to improve product consistency. Food-grade nozzles are made of 316 stainless steel or FDA-certified plastic, which are both corrosion-resistant and hygienic and safe, greatly reducing the risk of contamination from manual contact, and are an indispensable key component in modern food production.

Plastic nozzles are widely used in kitchen products due to their lightweight, corrosion resistance and cost advantages. Food-grade PP/ABS nozzles (FDA certified) are commonly found in detergent bottles, oil and vinegar seasoning pots and other products. Their anti-drip design and adjustable atomization mode can accurately control the dosage and prevent cross-contamination. The nylon nozzles equipped with pull-out faucets support switching between soft mist vegetable washing and strong rinse modes, while the three-dimensional plastic spray arms of dishwashers use high-temperature resistant engineering plastics (such as PPSU) to achieve long-lasting deformation resistance in 80°C hot water. These plastic nozzles combine hygienic safety (antibacterial additives) with economy (50% lower cost than metal nozzles), making them an indispensable and practical component in modern kitchens.

Plastic nozzles are lightweight and durable, and are less prone to rust or corrosion than metal nozzles. They can adapt to humid horticultural environments for a long time, such as greenhouse irrigation, nursery spraying, and other scenarios. Secondly, plastic materials are relatively low in cost and suitable for large-scale applications, such as park greening, lawn maintenance, and other occasions that require a large number of nozzles, which can effectively reduce procurement and maintenance costs. In addition, plastic nozzles are flexible in design and can be manufactured through injection molding processes to produce a variety of water outlet modes (such as atomization, fan-shaped, rotation, etc.) to meet the watering needs of different plants, especially suitable for potted plants or flower planting that require fine management.