What Is Robot UVC?

Ultraviolet (UV) radiation is light with shorter wavelengths than visible light and longer wavelengths than X-rays. Ultraviolet rays can be divided into three parts: UVA, UVB, and Robot UVC:


Longer wavelength than visible light and shorter wavelength than UVB. Found in sunlight. Can penetrate clouds and glass windows. The highest concentrations of UVA are found near the equator, where it accounts for up to 95% of all UV exposure.


Found in sunlight, especially at higher altitudes in tropical latitudes with little ozone layer protection. Can burn skin, causing sunburn. Less likely to cause skin cancer than UVA, but is more likely to cause melanoma (a more serious form of skin cancer). Can also burn eyes if not filtered out by sunglasses or other protective eyewear.


In the use of UVC, the main focus is on the fumigation and disinfection of medical supplies and textiles. Use strong short-wave UV lamps that emit only this range of UV radiation to fight bacteria, fungi, and viruses.

And the protagonist of this blog is neither UVA nor UVB, it is UVC with powerful uses! Robot UVC is an emerging smart technology that combines robotics and UVC. It is more intelligent and can do more things for people.

UVC Can Be Used In Disinfection Robot:

UVC is a form of ultraviolet light that is used to inactivate microorganisms in water. The use of UVC devices for disinfection can be traced back to the early 1900s when it was discovered that UV radiation could kill bacteria and viruses.

Today, we have many different types of instruments using UVC technology in a variety of settings. They include:

UV Disinfection Robots:

Utilizing a combination of UVC light and oxygen, this type of robot can disinfect a room by generating large amounts of ozone gas which increases the effectiveness of the UVC light. The UV Disinfection Robot uses UV-C light to disinfect rooms or other enclosed spaces quickly and efficiently against airborne pathogens such as influenza virus, tuberculosis, measles virus, and other microorganisms that may be present on surfaces within the room.

Ultraviolet Washing Machines:

This type of washing machine utilizes UV light to eliminate organic stains from laundry by destroying microorganisms on fabrics. In addition to helping disinfect clothing, these machines can also help reduce allergens such as pollen and dust mites from being released into the air during the drying process.

UVC Sanitation Robot:

The use of UVC sanitation robots is becoming more common in hospitals, hotels, and food preparation areas where there is a high risk for cross-contamination. These systems are automated, usually, run on batteries, and are designed to disinfect surfaces with minimal effort from the user or operator. They are also safe for use around people who have compromised immune systems or other health concerns that keep them away from harsh chemicals like bleach or peroxide solutions.

UVC Lamps Vs Traditional Germicidal Lamps:

People always get it to work in the form of UVC lamps. So if compared with traditional germicidal lamps, what is the difference between them?

UVC lamps are used for disinfection purposes, to kill all kinds of microbes ranging from bacteria to viruses. These microbes are responsible for various diseases. These UV rays are invisible to human eyes but can be seen with the help of special glasses.

On the other hand, traditional germicidal lamps use mercury vapor or sodium chloride vapor as a source for producing UV rays. They are also known as high-intensity discharge (HID) lamps that use xenon gas or argon gas as an ionizing medium to generate UV light at high pressure in a glass tube filled with mercury vapor or sodium chloride vapor.

The main difference between UVC lamps and traditional germicidal lamps is that they use different types of gases and sources like mercury or sodium chloride vapor. UVC lamps are more efficient at converting electrical energy into light, which results in less heat being generated. This makes them ideal for use in industrial applications where high temperatures are not tolerated. Germicidal lamps also require a much higher voltage (50-60 kV) to start glowing than UVCs (15-20 kV).

Features Of The Robot UVC:

Robot UVC such as UV Disinfection Robots is widely used by hospitals and clinics, etc. Here are its features:

Powerful Indoor Disinfection:

It can perform automatic mobile multi-point disinfection indoors. It can even perform laser mapping on a super-large area of 40,000 square meters. It can achieve the purpose of indoor disinfection in an efficient and cost-effective way.

Automatically Avoid Obstacles To Protect People:

The machine has precise infrared body sensors that automatically turn the lights on and off. In this way, the UV Disinfection Robot can precisely avoid obstacles and prevent UV rays from harming the skin of the operator or other people. At the same time, it also has the function of second-level intelligent obstacle avoidance, which will quickly and accurately carry out indoor autonomous route planning.


This Robot has 6 tubes of 90cm Philips UV-C UV tubes with a lifespan of 8000 hours. That is to say, it can meet the long-term use needs of many scenarios. The UV disinfection robot can also support a variety of systems, such as water treatment, pool water disinfection, and air purification. It is an ideal choice for industrial enterprises like food processing plants and electronic factories that need reliable disinfection equipment.


If you buy this instrument, you will find it easy to use. Equipped with an independent cloud service platform, it allows operators to conduct long-distance navigation deployment, saving time for people use. The operation is simple and convenient. The robot can be operated using a mobile phone APP or a remote control device. It is easy to operate and highly efficient.


I believe that when you see this, you will have a deeper understanding of Robot UVC: it is of great help to people. If you want to know more about Robot UVC, you can check more news on this website.