20240033551. FIRE SUPPRESSION SYSTEM AND METHOD simplified abstract (Firebot, Inc.)
Contents
FIRE SUPPRESSION SYSTEM AND METHOD
Organization Name
Inventor(s)
Mark Steven Baldino of Lorton VA (US)
FIRE SUPPRESSION SYSTEM AND METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240033551 titled 'FIRE SUPPRESSION SYSTEM AND METHOD
Simplified Explanation
The abstract describes a spray system that includes a nozzle with an inlet body and an outlet body. The inlet body has an inlet surface that defines an inlet fluid channel, while the outlet body has an outlet surface and a chamber surface. The outlet surface defines at least a portion of an outlet chamber and an outlet fluid channel. The inlet fluid channel is in fluid communication with the outlet chamber via a chamber opening, and the inlet flow axis is spaced from the outlet flow axis.
- The spray system includes a nozzle with separate inlet and outlet bodies.
- The inlet body has an inlet surface that defines an inlet fluid channel.
- The outlet body has an outlet surface and a chamber surface.
- The outlet surface defines at least a portion of an outlet chamber and an outlet fluid channel.
- The inlet fluid channel is connected to the outlet chamber via a chamber opening.
- The inlet flow axis and the outlet flow axis are spaced apart.
Potential Applications:
- Agricultural spraying systems
- Industrial coating applications
- Firefighting equipment
- Cooling systems for machinery or electronics
Problems Solved:
- Efficient and controlled distribution of fluids
- Reduction of clogging or blockages in the nozzle
- Improved spray pattern and coverage
Benefits:
- Increased efficiency in fluid distribution
- Reduced maintenance and cleaning requirements
- Enhanced control over spray pattern and coverage
- Versatile application in various industries
Original Abstract Submitted
a spray system comprising a nozzle including an inlet body and an outlet body. the inlet body has an inlet surface that defines an inlet fluid channel that extends about an inlet flow axis through the inlet body from an inlet opening to a chamber opening. the outlet body has an outlet surface and a chamber surface. the outlet surface defines at least a portion of an outlet chamber and an in outlet fluid channel. the outlet chamber extends about an outlet flow axis from the chamber surface toward the outlet fluid channel. the outlet fluid channel extends about the outlet flow axis from an outlet opening toward the outlet chamber. the inlet fluid channel of the inlet body is in fluid communication with the outlet chamber of the outlet body via the chamber opening, and the inlet flow axis is spaced from the outlet flow axis.