In public hygiene equipment such as automatic hand sanitizer dispensers, inconsistent liquid output, excessive noise, and short lifespan are common challenges. These issues are especially critical in high-traffic environments like hospitals, airports, and commercial buildings.
With the increasing demand for touchless hygiene solutions, there is a growing need for stable, low-noise, and precisely controlled dispensing systems.
Traditional systems often suffer from uneven dispensing, leading to poor user experience.
Motor noise becomes a concern in quiet environments such as offices and healthcare facilities.
Frequent operation cycles increase wear, reducing reliability over time.
Kinmore’s solution integrates a gear motor with a controlled flow system to ensure stable performance.
The system uses a helical worm gear mechanism to reduce speed and increase torque.
Engineering value:
Smooth and stable motion
Improved torque output
Reduced mechanical fluctuation
Optimized internal design ensures consistent liquid dispensing.
Engineering value:
Prevents dripping or interruption
Ensures uniform output
Compatible with different liquid viscosities
The motor and gear system are optimized for quiet performance.
Engineering value:
Suitable for indoor public environments.
Enables effective liquid pumping
Ensures consistent dosing
Reduces vibration and sound
Voltage, speed, and torque can be tailored
Used in hospitals and airports where reliability is critical.
Suitable for malls and office buildings with high usage frequency.
Applied in kitchens and bathrooms requiring quiet operation.
In touchless hygiene systems, consistent dispensing, low noise, and long service life are essential. A solution combining worm gear motor and flow control system effectively addresses these challenges.
This approach provides a scalable and reliable option for OEM manufacturers developing next-generation hygiene devices.
