SELF-LEVELING DAMPER

Organization Name

HL MANDO CORPORATION

Inventor(s)

Hyung Shik Shim of Hwaseong-Si (KR)

Ga Ram Bark of Hwaseong-Si (KR)

Hyung Nam Kim of Yongin-Si (KR)

SELF-LEVELING DAMPER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18373155 titled 'SELF-LEVELING DAMPER

Simplified Explanation:

This patent application describes a self-leveling damper that includes ribs on the diaphragm to maintain flow paths, a step portion on the upper holder to prevent blocking of a relief valve hole, and round surfaces on the lower holder to prevent damage.

• The self-leveling damper has ribs on the diaphragm to maintain flow paths.
• A step portion on the upper holder prevents blocking of a relief valve hole.
• Round surfaces on the lower holder prevent damage to the coupling portion.
• The design ensures smooth flow and prevents damage to critical components.
• The innovation improves the efficiency and durability of the damper system.

Potential Applications:

This technology can be used in various hydraulic systems, automotive suspension systems, and industrial machinery where precise control of fluid flow is required.

Problems Solved:

This technology addresses issues related to flow path blockages, damage to critical components, and inefficient fluid flow in damper systems.

Benefits:

The self-leveling damper with these features offers improved performance, increased durability, and enhanced safety in various applications.

Commercial Applications:

Potential commercial applications include automotive manufacturing, hydraulic equipment production, and industrial machinery development. This technology can improve the quality and reliability of damping systems in these sectors.

Prior Art:

Readers can explore prior patents related to self-leveling dampers, diaphragm design, and fluid control systems to understand the evolution of this technology.

Frequently Updated Research:

Stay updated on research related to fluid dynamics, material science, and mechanical engineering to enhance the design and performance of self-leveling dampers.

Questions about self-leveling dampers: 1. How does the ribbed diaphragm design improve fluid flow in the damper system? 2. What are the potential challenges in implementing this self-leveling damper technology in different industries?

Original Abstract Submitted

A self-leveling damper includes a plurality of ribs formed on an internal circumferential surface of a rectilinear portion of a diaphragm to maintain flow paths between an external tube and the diaphragm, a step portion which prevents the blocking of a relief valve hole flow path by an upper holder coupling portion and is formed on a lower surface of an upper holder, wherein an upper edge portion of each of lower holder flow paths is formed as a round surface which is a curved surface so that damage to a lower holder coupling portion may be prevented.