AIRFLOW SPLITTER, AIRFLOW SPLITTING ASSEMBLY, AND HOMOGENEOUS FLOW PRODUCING DEVICE

Organization Name

RESVENT MEDICAL TECHNOLOGY CO., LTD

Inventor(s)

Kai Qu of Shenzhen (CN)

Rongrong Zhu of Shenzhen (CN)

AIRFLOW SPLITTER, AIRFLOW SPLITTING ASSEMBLY, AND HOMOGENEOUS FLOW PRODUCING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240050685 titled 'AIRFLOW SPLITTER, AIRFLOW SPLITTING ASSEMBLY, AND HOMOGENEOUS FLOW PRODUCING DEVICE

Simplified Explanation

The abstract describes an airflow splitter that includes an inlet, an outlet, and at least two splitting members. The splitting members have small aperture ends facing the inlet and large aperture ends facing the outlet. A flow pathway is defined between the small and large aperture ends. The splitting members are sleeved sequentially, with the large aperture end of one member located in the small aperture end of the other, creating an annular gap that is communicated with the flow pathway.

• The airflow splitter is designed to divide the incoming airflow into multiple streams.
• It consists of at least two splitting members that are sleeved sequentially.
• The small aperture ends of all splitting members face the inlet, while the large aperture ends face the outlet.
• A flow pathway is defined between the small and large aperture ends.
• An annular gap is formed between adjacent splitting members and is connected to the flow pathway.

Potential applications of this technology:

• HVAC systems: The airflow splitter can be used in heating, ventilation, and air conditioning systems to distribute air more evenly.
• Wind tunnels: It can be utilized in wind tunnels to control and direct airflow for testing purposes.
• Industrial processes: The splitter can be integrated into various industrial processes that require controlled airflow distribution.

Problems solved by this technology:

• Uneven airflow distribution: The airflow splitter ensures that the incoming airflow is evenly divided, preventing areas of high or low airflow.
• Inefficient airflow utilization: By directing the airflow more effectively, the splitter helps optimize the utilization of airflow in various applications.

Benefits of this technology:

• Improved performance: The airflow splitter enhances the performance of systems or processes that rely on controlled airflow distribution.
• Energy efficiency: By evenly distributing airflow, the splitter helps reduce energy consumption and improve overall efficiency.
• Enhanced testing capabilities: In wind tunnels or other testing environments, the splitter allows for precise control and manipulation of airflow.

Original Abstract Submitted

an airflow splitter is provided. the airflow splitter includes an inlet, an outlet, at least two splitting member. the splitting member includes a small aperture end and a large aperture end opposite to each other, the small aperture ends of all the splitting members face the inlet, and the large aperture ends of all the splitting members face the outlet. a flow pathway is defined between the small aperture ends and the large aperture ends. the at least two splitting members are sleeved sequentially. in two adjacent splitting members, the large aperture end of one splitting member is located in the small aperture end of the other splitting member. an annular gap is formed between the two adjacent splitting members, and the annular gap is further communicated with the flow pathway.