AIR STERILISATION APPARATUS

Organization Name

Unknown Organization

Inventor(s)

[[:Category:István Andor S�megi of Dunakeszi (HU)|István Andor S�megi of Dunakeszi (HU)]][[Category:István Andor S�megi of Dunakeszi (HU)]]

Ágnes Sipos of Dunakeszi (HU)

AIR STERILISATION APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240024529 titled 'AIR STERILISATION APPARATUS

Simplified Explanation

The air sterilizer described in the patent application consists of a housing with an air inlet unit at one end and an air outlet unit at the other end. Inside the housing, there is a spiral plate heat exchanger with an electric heating unit in the center. The heat exchanger has an air inlet duct running from the air inlet unit to the electric heater and a counterflow air outlet duct running from the electric heater to the air outlet unit. The ducts run helically next to each other.

On each side of the housing, adjacent to the air inlet unit, there is an air outlet formed. The spiral plate heat exchanger is sealed by end covers, and each end cover has an air inlet opening that connects to the air inlet duct. The end covers also have a guide hole for a temperature sensor.

The plates forming the air inlet duct and the air outlet duct in the heat exchanger are at a constant distance from each other. The end covers are equipped with heat-insulated side covers that seal the air sterilizer and create chambers that establish flow communication between the air outlet and the air inlet on the same side.

• The air sterilizer has a housing with an air inlet unit and an air outlet unit.
• Inside the housing, there is a spiral plate heat exchanger with an electric heating unit.
• The heat exchanger has helically running air inlet and air outlet ducts.
• The air sterilizer has air outlets on each side of the housing.
• The heat exchanger is sealed by end covers with air inlet openings and guide holes for temperature sensors.
• The plates in the heat exchanger maintain a constant distance between the air inlet and air outlet ducts.
• The end covers have heat-insulated side covers that create chambers for flow communication between the air outlet and air inlet on the same side.

Potential applications of this technology:

• Air sterilization in hospitals, clinics, and other healthcare facilities.
• Purification of air in industrial settings with high levels of contaminants.
• Improving indoor air quality in residential and commercial buildings.

Problems solved by this technology:

• Eliminating harmful bacteria, viruses, and other pathogens from the air.
• Removing pollutants and allergens to improve respiratory health.
• Preventing the spread of airborne diseases in enclosed spaces.

Benefits of this technology:

• Efficient air sterilization and purification.
• Compact design suitable for various settings.
• Easy installation and maintenance.
• Improved air quality leading to better health outcomes.

Original Abstract Submitted

the air sterilizer comprises a housing (), at one end of which there is an air inlet unit () in which a fan () is arranged in a fixed manner; a spiral plate heat exchanger () arranged in the housing (), in the center of which an electric heating unit () is arranged; an air outlet unit () at the other end of the housing (); wherein the spiral plate heat exchanger () has an air inlet duct () running from the air inlet unit () to the electric heater () and a counterflow air outlet duct () running from the electric heater () to the air outlet unit (), which ducts () run helically next to each other. at one end of the housing () of the air sterilizer, adjacent to the air inlet unit (), an air outlet () is formed on each side of the housing (). each side of the spiral plate heat exchanger () is sealed by an end cover. an air inlet () is formed on the end covers, which opens into the air inlet duct () running to the electric heating unit (). a guide hole is formed in the end cover for a temperature sensor in which a temperature sensor is accommodated. in the spiral plate heat exchanger (), there is a constant distance between the plates forming the air inlet duct () and the air outlet duct (). the end covers have a heat-insulated side cover on each side of the air sterilizer, which side covers are sealed to the housing () and define a respective chamber which establishes flow communication between the air outlet and the air inlet on the same side of the air sterilizer.