ADJUSTABLE SOCKET SYSTEM

Organization Name

OSSUR ICELAND EHF

Inventor(s)

Andrew Bache of Reykjavik (IS)

Martin Lund Storup of Reykjavik (IS)

Alexander Johonnuson of Kopavogur (IS)

Andri Orrason of Reykjavik (IS)

Gudmudur Karason of Reykjavik (IS)

ADJUSTABLE SOCKET SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240009009 titled 'ADJUSTABLE SOCKET SYSTEM

Simplified Explanation

The adjustable socket system described in the patent application consists of two shell components, two longitudinal supports, and a base. The system can be moved between an open configuration, which loosens the fit of the socket system, and a closed configuration, which secures the fit of the socket system on a residual limb.

The system includes a tightening system, which comprises a tensioning unit with a handle that can rotate around a rotation axis. The handle defines a moment arm and is connected to a tensioning element through a movable connection point. This connection point is located and protected between the first shell component and the first support. The tensioning element is also connected to the shell components through a control point. By rotating the handle, the movable connection point and the tensioning element can be displaced relative to the control point, thereby moving the socket system to the closed configuration.

• The adjustable socket system consists of shell components, longitudinal supports, and a base.
• It can be moved between an open configuration and a closed configuration.
• The tightening system includes a handle and a tensioning element.
• The handle can rotate around a rotation axis.
• The tensioning element is connected to the handle through a movable connection point.
• The movable connection point is located between the first shell component and the first support.
• The tensioning element is also connected to the shell components through a control point.
• Rotating the handle displaces the movable connection point and the tensioning element relative to the control point, closing the socket system.

Potential applications of this technology:

• Prosthetics: The adjustable socket system can be used in prosthetic devices to provide a secure and adjustable fit for individuals with residual limbs.
• Orthotics: The system can also be applied in orthotic devices to ensure a comfortable and customizable fit for patients with limb conditions or injuries.

Problems solved by this technology:

• Poor fit: The adjustable socket system addresses the issue of ill-fitting prosthetics or orthotics by allowing users to adjust the fit according to their specific needs.
• Lack of adjustability: Traditional socket systems may not offer sufficient adjustability, leading to discomfort and limited functionality. This technology provides a solution by allowing users to easily switch between open and closed configurations.

Benefits of this technology:

• Customizable fit: The adjustable socket system enables users to customize the fit of their prosthetics or orthotics, enhancing comfort and functionality.
• Ease of adjustment: The system's tightening mechanism, controlled by the handle, allows for easy and quick adjustments to the fit.
• Secure fit: The closed configuration of the socket system ensures a secure and stable fit, reducing the risk of slippage or discomfort during movement.

Original Abstract Submitted

an adjustable socket system includes first and second shell components and first and second longitudinal supports connected to a base. the socket system is movable between an open configuration to loosen the fit of the socket system, and a closed configuration to secure the fit of the socket system on residual limb received therein. a tightening system includes a tensioning unit having a handle defining a moment arm rotatable about a rotation axis, and a tensioning element operatively coupled to the handle via a movable connection point located and protected between the first shell component and the first support and to the shell components via a control point. rotation of the handle displaces the movable connection point and the tensioning element relative to the control point to move the socket system to the closed configuration.