Nasal dilator with variable spring rate

Abstract

A nasal dilator strip and methods, the strip including a first layer including a cover having adhesive on a surface thereof, the cover having a first edge with a convex locating feature and a second edge opposite the first edge, the second edge being an uninterrupted edge, and a second layer having opposite surfaces, one opposite surface of the second layer being secured to the first layer, at least a portion of the other opposite surface of the second layer having adhesive to hold the two-layer nasal dilator strip in place on a user's nose, the second layer including a substantially planar resilient member, the resilient member having a constant thickness and longitudinal sides which converge from a center of the resilient member to a pair of spaced apart ends.

Description

RELATED APPLICATION[0001]This application is a continuation application of U.S. patent application Ser. No. 11 / 880,217, filed on Jul. 19, 2007, the entire contents of which are incorporated herein by reference.BACKGROUND[0002]This invention relates to an improvement to the configuration of nasal dilators such as those described in Spanish Patent No. 289,561 to Iriarti dated 15 Sep. 1986 and in the further patents discussed below. Generally speaking these dilators employ a resilient band which has an adhesive on the bottom side and sufficient length so that the resilient band can be bent over the bridge of the nose, and each end of the band becomes adhesively attached to the soft tissue on the lateral wall of the nasal passage.[0003]Bending the resilient band from its initial planar state to its deformed state with its ends in contact with the lateral walls of the nasal passages and the center of the band overlying the bridge of the nose results in forces tending to pull out on the l...

AI Technical Summary

Benefits of technology

[0023]Another improvement feature of the present invention is to configure the resilient band to reduce the width gradually from the center of the resilient band towards each end in a way that gradually reduces the spring rate of the resilient band. The thickness of the resilient band remains constant over its entire length, which simplifies the structure while keeping costs low.

[0024]A further improvement of the present invention is that the new dilator has a relatively greater width at its center with the shape of the bottom edge provided with a slight convex protrusion which points to the tip of the nose when the dilator is in use. The outer shape of the dilator is configured to optimize the location of the resilient member over the soft tissues on the outer wall of the nasal passages where the dilating forces are most effective.

[0025]Other improvements provided by the present invention are the four slits in the top soft fabric cover and the cushion layer at the boundary that separates the ends of the dilator from the intermediate structure which connects the ends of the dilator. The four slits are close to perpendicular to the longitudinal axis of the dilator and allow the top soft fabric cover and cushion layer to conform to the many different shapes of the outer walls of the nasal passages.

[0029]The improvements summarized above enhance the performance of the dilator and make the dilator more comfortable for the user as compared to prior art dilators in general and the Iriarti dilator in particular. In another embodiment the invention provides a method of {text}.

Problems solved by technology

Blockage of the nasal passages from swelling due to allergies, colds and physical deformities can lead to breathing difficulty and discomfort.

This means that the air bypasses the mucus membranes, losing the conditioning effects and causing irritation in the throat and lungs.

At night, restrictions to breathing through the nasal passages can lead to snoring and / or sleep disturbances.

In some cases, the restricted air supply can cause sleep problems brought on by a lack of oxygen.

For people with chronic blockages in the nasal passages, the alternative to correct the problem has been expensive surgery or medication.

The structure of the nose limits the options available for the design of nasal dilators.

The septum forms the wall between the two nostrils and may, if it is crooked, contribute to breathing problems.

The disadvantage to this design is that the dilator structure covers up the mucus membranes which condition the air.

Also dilators of this design are uncomfortable and can irritate the walls of the nasal passage.

This design has limited control over the resilient force on the lateral wall of each of the nasal passages, and the resilient members crossing over the bridge of the nose can cause discomfort.

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