The invention concerns hearing protection devices and, more particularly, a hearing protector including a sound attenuating element and a stem extending from the sound attenuating element, the stem including multiple curved segments.
The use of hearing protective and noise attenuating devices is well known, and various types of devices are available including, but not limited to, ear muffs, semi-aural devices, and earplugs. Earplugs are often preferred for their effectiveness in attenuating sound and for comfort properties provided thereby.
An earplug generally comprises a sound attenuating element which is placed in the ear canal of a wearer to occlude the canal and thus provide a desired sound attenuation. The sound attenuating element is commonly made of a compressible, resilient material such as a foam or a rubber.
The earplug may further include a stem embedded party or entirely in the resilient sound attenuating element. The stem provides a degree of rigidity to the earplug which enables the earplug to be easily inserted and pushed into the ear canal of a user. Further, where the stem extends from the sound attenuating element, it may serve as a handle of the earplug to facilitate insertion and removal of the earplug.
Commonly, the stem is a cylindrical member which extends from the sound attenuating element along a longitudinal axis of the earplug. That is, the stem extends in a straight line rearwardly from the sound attenuating element in a collinear manner with respect to the attenuating element. Thus, the stem is available as a handle when inserting and removing the earplug. When the earplug is inserted into the ear canal, the stem extends outwardly from the ear and may be grasped and adjusted by the wearer as desired.
However, in this configuration, the stem is left exposed to inadvertent contact. For example, the user may accidentally strike the stem with their hands while adjusting their hair, attending to an itch, when adjusting clothes, etc. Further, the wearer may inadvertently contact the exposed stem while applying or adjusting headwear such as a hat, or additional safety protection equipment such as protective eyewear, a helmet, a respirator, etc. Still further, the exposed stem may be inadvertently contacted by another person or an outside object such as machinery, building structures, etc.
This type of incidental contact may slightly dislodge the stem, thus reducing the attenuation provided by the earplug. This slight dislodgement may even go unnoticed by the wearer, thus subjecting the wearer to reduced levels of attenuation over extended time periods. Such inadvertent contact may be sufficient to entirely expel the earplug from the ear canal all together, therefore exposing the wearer to all external noise until the earplug is properly re-inserted. Further, certain incidental contacts may force the stem inward toward the inner ear or may pivot the stem within the ear canal, thus causing discomfort to the wearer.
Often, these conventionally stemmed earplugs are provided in corded pairs. Each pair includes a cord extending between the stems of the respective earplugs. The cord is typically attached to the exposed rear end of the stem and extends from the earplug, at least initially, in a collinear manner with respect to the stem and the sound attenuating element. When a corded pair of earplugs is worn, the cord (like the stem) extends outwardly from the ear and generally outwardly from the head of the wearer. More specifically, the cord initially extends outwardly for a length, in line with the stem, and then curves downward and eventually drapes beneath the chin or behind the neck of the wearer. This extension of the cord essentially increases the contactable portion of the inserted earplug. When such earplug is worn, the exposed stem is vulnerable to inadvertent contact as well as the projecting portion of the cord. That is, the projecting portion of the cord may suffer unintentional tugging or tangling which could result in partial or complete dislodgement of the earplug from the ear canal.
Thus, a stem for an earplug is desired which is sufficient for handling, inserting, and removing the earplug and which is positioned and configured to reduce the incidence of inadvertent contact, even when corded.
The above discussed and other problems and deficiencies of the prior art are overcome or alleviated by the invention which provides a novel and nonobvious hearing protection device.
The invention provides a hearing protector including a sound attenuating element and a stem extending from the sound attenuating element. In an exemplary embodiment, the stem includes multiple curved segments.
The above-discussed and other features and advantages of the apparatus and method of the invention will be appreciated and understood by those skilled in the art from the following drawings and detailed description.
Referring now to the drawings wherein like elements are numbered alike in the several FIGURES:
The handle portion 12 of the stem 10 includes a proximate portion 16 and an opposing distal portion 18. As shown in
The distal portion 18 diverges from the proximate portion 16 along an axis B-B. The axis B-B is disposed at an angle θ relative to the axis A-A. The angle θ is generally greater than 90° and preferably between 110° and 140°. In the present exemplary embodiment, the angle θ is generally less than or equal to approximately 125°. In other words the axis B-B is not collinear with the axis A-A. The distal portion 18 includes a handling area 20 disposed approximately midway along a length of the portion 18. The handling area 20 comprises a contoured surface for facilitating retention of the stem 10 between fingertips of the wearer. For example, the handling area 20 may comprise an oval shaped surface having planar and/or curvilinear features. That is, the handling area 20 may be flat, convex, concave, or any combination of these. The area 20 may additionally and/or alternatively include grip features which are disposed inset or in relief relative to the feature 20, such as score lines, protuberances, etc. The handling area 20 may further include indicia, symbols, etc., such as trade names, product names, etc. These may be printed at the handling area 20 or formed thereon in relief or in an inset fashion.
The distal portion 18, in an exemplary embodiment includes an aperture 22 formed at an end opposite from the proximate portion 16. The aperture 22 extends along the axis A-A, forming a cavity within the distal portion 18. The aperture 22 and resulting cavity are generally circular in cross-section and are configured to receive and retain a cord 51 as shown in
The attachment portion 14 includes features which facilitate attachment of the sound attenuating element 52 with the stem 10. These features may include, for example, a first conical portion 24 which has a generally serially decreasing circular cross-section and tapers toward a front of the attachment portion 14, and a second conical portion 26 adjacent to the portion 24 where the portion 26 also includes a serially decreasing circular cross-section in a direction toward the front of the attachment portion 14. The portion 14 also includes a front end 28 which is generally a cylindrical member extending away from the second conical portion 26. These features 24, 26, and 28 are specifically shaped, disposed, and configured to aid in affixing the sound attenuating element 52 to the stem 10. Namely, these features 24, 26, 28 include shapes and surfaces which readily receive and retain the material which forms the sound attenuating element 52 and/or any bonding agent which may be used facilitate said affixation.
Like the earplug 50, the earplug 110 includes the aperture 22 formed in the stem 100 for receipt and retention of a cord 101, as shown in
The sound attenuating element 112 of the earplug 110 is formed preferably of a compressible, resilient slow recovery foam material such as polyvinylchloride (PVC) or polyurethane. For example, the sound attenuating element 112 may be composed of a material as that described in U.S. Pat. No. Re. 29,487 issued on Dec. 6, 1977, the contents of which are herein incorporated by reference in their entirety.
The sound attenuating element 112 may be preformed and then attached to the stem 110 by an adhesive bonding agent. Here, the bonding agent may be applied to the portion of the flange 102 which contacts the rear 114 of the attenuating element 112. Additionally and/or alternatively, the bonding agent may be applied to the front end of the attachment portion 14 and/or along the length thereof. In another embodiment, the element 112 may be formed directly on the stem 100 such that the element 112 is mechanically bonded thereto. For example, where the sound attenuating element 112 is a foam material, the element 112 may be formed in a mold around the attachment portion 14 so as to bond thereto. Here, the flange 102 serves to stop the expanding foam during formation of the element 112. The flange 102 also acts as a bonding surface and facilitates in the shaping of the resulting element 112. In an alternate embodiment, the sound attenuating element 112 may be dip-molded onto the stem 100 according to know techniques. In a further embodiment, the sound attenuating element 112 may be friction fit onto the stem 100. For example, the element 112 may be preformed to include a receptacle at an interior thereof for receiving and retaining the attachment portion 14 of the stem 100. The receptacle may include a cross-sectional area slightly smaller than that of the attachment portion 14 so as to create the friction fit when the portion 14 is inserted into the receptacle. Alternatively and/or additionally, the attachment portion 14 and the interior of the receptacle may be configured to facilitate a mating or a snap-fitting of the sound attenuating element 112 onto the stem 100. For example, the attachment portion 14 and the sound attenuating element 112 may include interlocking (i.e., male and female) features in order to facilitate the friction fit or snap-fit.
The handle portion 12 of the earplugs 50, 110 described herein may be substantially cylindrical in shape, having a generally consistent cross-sectional diameter across its length. Alternatively, the handle portion 12 can include cross-sections of variable diameter such that an area(s) of the handle 12 tapers inwardly and/or outwardly. In another embodiment, the handle portion includes a rectilinear or elliptical cross-section of consistent or variable cross-sectional area. Further, the handle portion 12 may include a combination of some or all of these configurations and/or further configurations as desired.
For example,
The stem handles 204, 254, and 304 of the earplugs 200, 250, and 300, respectively, are shown in the drawings as having a circular cross-section which is of consistent shape and size across a length of the handle. Alternatively, of course, the handles 204, 254, 304 may comprise a variably shaped and/or sized cross-section. The handles 204, 254, 304 can additionally and/or alternatively comprise the handling area 20 and the aperture 22 for receipt and retention of a cord.
The sound attenuating elements 52, 112 discussed herein may be of the push-in type, the roll-down type, or the partial roll-down type. That is, the sound attenuating elements 52, 112, in one embodiment, are inserted into the ear canal by simply placing the element at the entrance of the canal and pushing inwardly on the handle portion 12 of the stem 10, 100. In another embodiment, the sound attenuating element 52, 112 is rolled between the fingers in order to fully compress the element 52, 112 against the attachment portion 14 of the stem 10,100 prior to insertion of the element 52, 112 into the ear canal. In a further embodiment, the attenuating element 52, 112 is compressed only partially prior to insertion.
The various stems 10, 100, 202, 252, 302 described herein may be formed of a plastic or rubber material and may be formed through a molding process, and particularly, by an injection molding process.
As discussed herein in detail, the handle portion 12, 204,254,304 of the earplug 50,110,200,250,300 includes a portion which diverges from a longitudinal axis A-A of the respective sound attenuating element 52, 112 by an angle θ. As mentioned the angle θ is greater than 90°, preferably between 110° and 140°, and in one exemplary embodiment is less than or equal to about 125°. Thus, at least part of the handle portion 12, 204, 254, 304 of the stem is offset from the respective sound attenuating element 52, 112. When the earplug 50, 110, 200, 250, 300 is inserted into the ear canal of a wearer, some of the angled handle portion 12, 204, 254, 304 remains extending from the ear canal. The angled configuration of the handle portion 12, 204, 254, 304 prevents the stem from excessively protruding from the ear. That is, the angled configuration of the handle portion 12, 204, 254, 304 results in the respective stem lying naturally in the creases or spaces formed in the pinna of the external ear. Preferably, the handle portion 12, 204, 254, 304 of the inserted earplug lies in the intertragic notch of the ear formed below the tragus. As will now be discussed, the angled nature of the handle portion 12,204,254,304 allows the stem of the earplug to extend from the ear canal in an inconspicuous manner, essentially coplanar with respect to a general plane of the outer ear, thus minimizing outer exposure of the stem and hence reducing the likelihood of inadvertent contact.
The earplug 50 is shown in
As shown in
As mentioned above, the earplugs 200, 250, and 300 may include cords attached at ends of the respective stems. In such an embodiment, the curved/angled nature of the stems will direct the cord downward against the ear and mandible of the wearer, as described above with exemplary reference made to
Accordingly, the invention results in a hearing protection device which is inserted, or at least partially inserted, into the ear canal of the wearer and which includes a stem configured so as to extend from the ear canal in an angled or curved manner in or proximate to the natural creases and spaces of the outer ear such that the earplug remains close to the outer ear and, where applicable, directs the cord in a downward manner adjacent the ear, head, and neck of the wearer.
Dimensions and materials identified in this description and the attached Figures are for illustration purposes only and may vary depending upon the intended application in accordance with the teachings of the present invention. The present invention is not intended to be limited to the specific features of the Figures even though the invention encompasses the same.
Furthermore, it will be apparent to those skilled in the art that, while exemplary embodiments have been shown and described, various modifications and variations can be made to the present apparatus and method disclosed herein without departing from the spirit or scope of the invention. Accordingly, it is to be understood that the various embodiments have been described by way of illustration and not limitation.
Number | Name | Date | Kind |
---|---|---|---|
2458884 | Volkmann | Jan 1949 | A |
2717596 | Knight | Sep 1955 | A |
4314553 | Westerdal | Feb 1982 | A |
5074375 | Grozil | Dec 1991 | A |
5781272 | Bright et al. | Jul 1998 | A |
5809574 | Falco et al. | Sep 1998 | A |
6176576 | Green | Jan 2001 | B1 |
6241041 | Leigh | Jun 2001 | B1 |
7314047 | Falco | Jan 2008 | B2 |
7727433 | Knauer | Jun 2010 | B2 |
7731487 | Knauer | Jun 2010 | B2 |
7743771 | Falco | Jun 2010 | B2 |
10034798 | Falco | Jul 2018 | B2 |
20040045558 | Taylor | Mar 2004 | A1 |
20040129276 | Kuno | Jul 2004 | A1 |
20060162992 | Seville | Jul 2006 | A1 |
20070102006 | Falco | May 2007 | A1 |
Number | Date | Country |
---|---|---|
2674810 | Jan 2005 | CN |
WO 9806363 | Feb 1998 | WO |
WO 9944556 | Sep 1999 | WO |
WO 0243633 | Jun 2002 | WO |
WO 2004036953 | Apr 2004 | WO |
WO 2005122981 | Dec 2005 | WO |
WO 2006078767 | Jul 2006 | WO |
Entry |
---|
European Application No. 13180132 Extended Search Report dated Sep. 13, 2013. |
Number | Date | Country | |
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20180311077 A1 | Nov 2018 | US |
Number | Date | Country | |
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Parent | 13795790 | Mar 2013 | US |
Child | 15966014 | US | |
Parent | 11270053 | Nov 2005 | US |
Child | 13795790 | US |