FAQs - Ultrasonic Dental Cleaning Pod
Difference between manual cleaning appliance vs automatic ultrasonic UV cleaning for dental tools?
Manual cleaning of dental appliances requires hands-on effort to scrub instruments, often missing hard-to-reach areas plus the bristle on the brushes will likely scratch the surface of the dental appliances.
In contrast, the Ultrasonic Dental Cleaning Pod utilises high-frequency 42K Hz ultrasonic waves and UV LED lights to generate microscopic bubbles that penetrate deep into the crevices, effectively dislodging grime, stains, bacteria, and plaque.
This method offers deep cleaning sterilisation while being gentle and non-damaging to dental tools.
Proven over decades in dental care, ultrasonic cleaning ensures thorough sanitisation without the need for harsh scrubbing.
What dental appliances can I clean with Ultrasonic Dental Cleaning Pod?
The Ultrasonic Dental Cleaning Pod is particularly effective for a range of orthodontic appliances ensuring thorough sanitisation and cleanliness of intricate items that may have hard-to-reach areas.
Appliances include:
- Retainers
- Dentures
- Aligners and Invisalign
- Night Guards
- Bite Guards
How often should I clean my dental appliances using the Ultrasonic Dental Cleaning Pod?
You should aim to clean your dental appliances with the Ultrasonic Dental Cleaning Pod regularly to avoid plaque and bacteria buildup. If you’re using them daily, it’s best to clean them daily, but some people prefer cleaning every other day.
It is also recommended you ask your dentist or orthodontist specialist for their recommendation depending on what the appliance is for any specific advice.
Is it portable?
The Ultrasonic Dental Cleaning Pod is designed for everyday use and is both portable and compact, making it easy to transport for any lifestyle.
It’s perfect for at-home deep cleaning and can also be taken on trips, providing clinical-grade cleaning.
With a rated voltage of 12V/2A, just remember to bring the appropriate international adapters depending on your destination.