MULTI-JET NOZZLE BODY

Organization Name

Aero Pump GmbH

Inventor(s)

Milena Angelika Marszalek of Mainz (DE)

Andreas Mersmann of Hochheim/Main (DE)

Sebastian Rother of Mainz (DE)

MULTI-JET NOZZLE BODY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240207871 titled 'MULTI-JET NOZZLE BODY

The abstract describes a method for producing a multi-jet nozzle body from a nozzle body blank created through injection molding or additive manufacturing. The method involves laser processing the blank to create specific features, resulting in the production of the multi-jet nozzle body.

• Nozzle body blank created through injection molding or additive manufacturing
• Laser processing used to form features such as inflow and funnel
• Production of multi-jet nozzle body with specific geometries and axes
• Nozzle geometries intersect at a point outside of the geometries
• Features created to optimize fluid flow and jet performance

Potential Applications: - Industrial spray nozzles - 3D printing applications - Fuel injection systems - Chemical processing equipment

Problems Solved: - Enhanced fluid flow control - Improved jet performance - Precision manufacturing of complex geometries

Benefits: - Increased efficiency in fluid dispersion - Enhanced precision in jet formation - Customizable design options for specific applications

Commercial Applications: - Manufacturing equipment - Aerospace industry - Automotive sector - Agriculture technology

Questions about the technology: 1. How does laser processing improve the performance of the multi-jet nozzle body? 2. What are the specific advantages of using additive manufacturing for creating the nozzle body blank?

Original Abstract Submitted

a method for producing a multi-jet nozzle body from a nozzle body blank produced by an injection molding or an additive manufacturing process, and a multi-jet nozzle body. the nozzle body blank defines a fluid chamber and is provided with at least two nozzle geometries having respective axes arranged to extend in a discharge direction and to intersect at a point of intersection outside of the nozzle geometries. the method includes processing, via laser processing, the nozzle body blank to form at least one of: an inflow arranged between one of the at least two nozzle geometries and the fluid chamber; or a funnel arranged between one of the at least two nozzle geometries and the inflow, thereby producing the multi-jet nozzle body.