devices for eyewear and eyeglasses providing in situ adjustability to stabilize and maintain positioning of the eyewear and/or eyeglasses on a user are disclosed. The devices are further suitable for use in conjunction with a retainer strap and/or integrated with a retainer strap. The devices are further suitable for integration into the manufacture of eyewear and/or eyeglasses. Embodiments of the device and methods of employing the same are set forth.
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16. An adjustable device that stabilizes and maintains the position of eyewear on a user comprising:
said eyewear comprising a rigid or semi-rigid housing with a bridge located over and/or above a user's nose, said housing containing clear barrier(s) located over user's eyes, and said housing having attached temples that position said eyewear onto the head and nose of said user;
at least one mound having more than one radius wherein said mound is located on said temples of the eyewear; and
adjustment means on said mounds to achieve an optimal radius for interference fitment between said mound and the user's head to maintain and stabilize position of said eyewear from displacement in multi-vectored directions away from user's head and nose;
said mound is integrated into the manufacture of said temples of said eyewear.
1. An adjustable device that stabilizes and maintains the position of eyewear on a user, said eyewear including a rigid or semi-rigid housing with a bridge positioned over and/or above a user's nose and temples connected to said housing extending distally away from connection to each side of said housing, said temple(s) terminating in an accessible posterior open end towards the user's ear(s) when said eyewear is situated on the user's head, the adjustable device comprising:
a mound with a channel and having more than one radius;
wherein said mound is located on said temples of said eyewear;
wherein said mound has an adjustment means to achieve an optimal radius of said mound providing an interference fitment between said mound and the user's head; and
wherein the interference fitment of said device maintains and stabilizes the positioning of said eyewear from displacement in multi-vectored directions away from on the user's nose and head.
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15. A method for eyewear retention that stabilize and maintain positioning of eyewear on a user utilizing an adjustable device in
attaching said device with a multi-radius mound onto distal section of the temple(s);
placing said eyewear onto the nose and head of said user to determine if an adjustment is required for optimal interference fitment between said mound and head of said user;
adjusting said device by rotating said mound in situ on a temple to obtain radius for said optimal interference fitment when said adjustment is required;
or adjusting said device by moving said mound in situ anteriorly or posteriorly to obtain radius for said optimal interference fitment; and
replacing said eyewear onto nose and head of said user to maintain said eyewear in a position for optimal visual acuity.
17. The device of
18. The device of
19. The device of
20. The device of
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This application claims priority under 35 U.S.C. §119 to provisional application U.S. Ser. No. 61/978,430 filed Apr. 11, 2014, all of which is herein incorporated by reference in their entirety.
The present invention relates to the fields of eyewear and eyeglasses and the term eyewear shall be used to represent all known eyewear, including sunglasses, visual acuity correcting eyeglasses, safety eyewear and all other eyewear that are commonly used. More specifically, the invention relates to device(s) that can be adjusted in situ to allow stabilizing and maintaining the position of eyewear on the user. It can also be used in conjunction with a retainer strap and/or be integrated with a retainer strap. Lastly it can be integrated into the manufacture of eyewear. The present invention provides devices and methods of employing these novel elements.
Various commercial products and/or patents are available for stabilizing and maintaining the position of eyewear on a user. These references can be separated into several classes: 1. tubular cylindrical devices that are added to temples to retain glasses on a user; 2. tubular cylindrical devices added to temples that include a curved retainer that is positioned behind a user's ears; 3. curved discs that fit onto temples and are positioned around the mastoid bone; and 4. hybrid adjustable retainer straps that prevent eyewear from falling off a user and contain elements of devices that maintain the position of eyewear on a user, such as tubular cylindrical elements with or without curved elements.
U.S. Patents relevant to the first class of using tubular cylindrical devices to stabilize and maintain position of eyewear include U.S. Pat. Nos. 2,626,538; 5,002,381; 5,054,903; 8,733,926; and U.S. Patent Application 2005/0286013. They show an ear contact tubular or cylindrical element that can slide onto the temple(s) of eyewear to preclude slippage of eyewear forward and downward on a user's nose and face. All involve a non-adjustable one size radius tubular concentric device intended to maintain interference fitment between the user's head and the temples containing the tubular device. If the size is not correct for optimal interference fitment, the tubular device would have to substitutes for one with a different radius for optimal interference fitment. U.S. Pat. No. 5,054,903 shows another example of a tubular segment on a temple to prevent slippage of the glasses forward on a user's nose and face. The tubular segment is positioned in a recess to keep it in place from moving forward or backwards. This invention also lacks the ability to increase the radius of the tubular segment in situ without exchanging to a different radius-sized tubular segment. U.S. Pat. No. 8,733,926 shows a cylindrical or other shaped columns, such as hexagonal, rectangular or square prisms, to fit onto the distal ends of temples of eyewear. It teaches a column that fits on the distal ends of the temples and includes a channel that is located at the center of the column, and does not teach off-centered channels, such as an eccentric shape with different radii that could be rotated on temples to obtain the best radius of the column for optimal interference fitment of temples on a user. A single radius cylinder or column located on eyewear temples may not retain the eyewear from moving forward because the connecting means located between temples and the eyewear lens component, have lateral movement capability to permit eyewear to be worn for users with different head sizes. As a consequence the single radius of a concentric column or column device placed on the eyewear temple may not allow adequate interference fitment of the eyewear on a user. Moreover a single radius cylinder or column on eyewear temples are often positioned on the upper ledge of the ear between the user's head and pinnae. There is less interference fitment means to retain the eyewear in that location and additionally that location forces the pinnae laterally creating an unpleasant aesthetic appearance for a user.
The second class involves using a tubular part with a curved element placed on temples and are located behind a user's ears. U.S. Pat. Nos. 2,626,538; 6,000,795; and 6,450,640 describe examples of this class. The tubular contact member are designed with one diameter located on the temples and have a downward member that curves concavely to conform to the upper posterior surface of the base of the ear. In essence the tubular elements have one radius which precludes adjustment in situ to a different radius to improve contact between the user's head and the tubular element. In addition although the curved element holds the eyewear from moving forward away from a user's nose and face, it has a single radius that cannot be adjusted in situ to another more optimal radius to minimize anterior and/or lateral movement, and thereby stabilize and maintain the position of eyewear on a user. Moreover these devices do not provide easy pivoting means to permit superior eyewear positioning onto the top of a user's head or forehead and do not provide means to maintain and stabilize interference fitment of eyewear when positioned in that location.
The third class represented by U.S. Pat. No. 7,862,168 utilizes curved disc extensions attached to the distal ends of the temples where they are located onto the mastoid bones of the user. This device has one thickness/radius and cannot be switched in situ to a different thickness or radius to adjust for best fitment to preclude anterior or lateral movement of the eyewear on a user. Moreover these devices do not provide easy pivoting means to permit superior eyewear positioning onto the top of a user's head or forehead and do not provide means to maintain and stabilize interference fitment of eyewear when positioned in that location.
The fourth class are hybrid devices that stabilize and maintain position of eyewear in combination with adjustable retainer straps attached to temples which wrap around the posterior aspect of a user's head. U.S. Pat. No. 4,133,604 shows a retainer strap with a tubular element that fits onto temples. U.S. Pat. Nos. 4,657,364 and 5,002,381 have a curved element for positioning behind a user's ears and an adjustable retainer strap. U.S. Pat. Nos. 3,502,396; 3,879,804; 6,941,619; 7,399,079; and 7,845,795 all include a retainer strap that is adjustable to hold the eyewear tightly on the user's head. U.S. Pat. No. 4,133,604 has a tubular element with a retainer integrated onto it for slippage onto temples. U.S. Pat. No. 6,053,612 shows a tubular member on temples in combination with a retainer strap. U.S. Patent Application 2013/0077043 has a modular temple connecting accessory with a non-rotatable single radius temple element. The devices in this class teach a single radius cylindrical part that cannot change radius in situ to improve interference fitment with the user's head.
Despite the various products and/or patents known to stabilize and/or maintain the position of eyewear on a user, there remains a need for a device providing improved stabilization and adjustability. It is against this backdrop of products and written description that the present invention is set forth, notably overcoming the combined limitations of products in the state of the art.
It is an advantage of the invention to provide a device on eyewear that permits a user to adjust the device in situ, thereby stabilizing and maintaining the position of the eyewear on a user.
It is an advantage to provide a device on eyewear that can be adjusted by rotating the device in situ and/or move the device anteriorly or posteriorly on the temples to obtain an optimal radius interference fitment for maintaining contact between the user's head and the device, thereby stabilizing and maintaining the position of the eyewear on a user.
It is an advantage to provide a device on eyewear that will permit a user to exercise vigorously and reduce likelihood of eyewear from moving off from its optimal position on a user's head and nose.
It is an advantage to provide a device that will stabilize and maintain positioning of eyewear on a user when the eyewear is located on the user's nose, face and head or when the eyewear has been moved to the user's forehead or top of the head.
It is an advantage to provide a device that can stabilize and maintain user intended positions of eyewear on a user's nose, face and head or on top of a user's head or forehead and minimize dislocating from those intended positions.
It is advantage to provide a device on eyewear which can be integrated with a retainer strap and/or allow rotation of the device on temples without causing the retainer strap to curl on itself.
It is an advantage to include ridges and/or grooves and/or any roughened pattern on the exterior surface of device on eyewear to allow improved grip for the user to rotate or move the device in situ on the temples.
It is an advantage to add groves or gutter-like patterns onto the surface of the device that will allow water or perspiration beads to drain off or away from the device and thereby stabilize and maintain the position of eyewear on a user.
It is an advantage for a device to be integrated into eyewear temples thereby adding a multi-radius eccentric structure that can be rotated or moved laterally in situ on eyewear temples by a user to obtain the optimal radius interference fitment for maintaining contact between the user's head and the device.
Other objects, advantages and features of the present invention will become apparent from the following specification taken in conjunction with the accompanying drawings.
In an aspect, the present invention discloses novel devices capable of in-situ adjustment means to improve stabilizing and maintaining the position of eyewear on a user. In an aspect, the invention describes two in-situ adjustment means involving mound(s) that can be used alone or in combination. Both adjustment means rely on utilizing more than one radius of a mound that will permit in situ improved interference fitment of the eyewear on a user's head and thereby minimize displacement of the eyewear from a user. One adjustment means involves rotating a mound with more than one radius on temples. The other adjustment means provides for anterior/lateral advancement of a mound with incremental or different radii. Both allow the device to obtain the optimal radius interference fitment to preclude easy displacement of eyewear from a user.
The term in-situ in this application is used to describe an eyewear device(s) comprised of multi-radius mound(s) which can be adjusted on location, meaning the adjustment occurs without removing the mound device(s) from the eyewear. However, in some circumstances a user may elect to access a different radius of the multi-radius mound by first removing the mound from the eyewear, then reattaching the same mound to the eyewear so that a different mound radius can contact the user's head to optimize stabilizing and maintaining the position of eyewear on the user. Hence, the term in-situ has a broader definition for adjustment means in this application.
In an aspect, the present invention to stabilize and maintain positioning of eyewear on a user can: 1. be added as accessories to eyewear; 2. be integrated into eyewear manufacture; and 3. be integrated with a retainer strap.
While multiple applications and embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes illustrative embodiments for applications of the invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not restrictive.
Various embodiments of the present invention will be described in detail with reference to the drawings, wherein like reference numerals represent like parts throughout the several views. Reference to various embodiments does not limit the scope of the invention. Figures represented herein are not limitations to the various embodiments according to the invention and are presented for exemplary illustration of the invention.
In an aspect, the invention describes device(s) suitable for in situ adjustments. In a further aspect, the invention describes device(s) for stabilizing and maintaining the position of eyewear on a user.
The embodiments of this invention are not limited to the particular embodiments of the devices depicted, which can vary and are understood by skilled artisans. It is further to be understood that all terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting in any manner or scope. For example, as used in this specification and the appended claims, the singular forms “a,” “an” and “the” can also include plural referents unless the content clearly indicates otherwise.
The devices of the present invention may comprise, consist essentially of, or consist of the components described herein as well as other components and elements. As used herein, “consisting essentially of” means that the device may include additional components, but only if the additional components do not materially alter the basic and novel characteristics of the claimed devices. It should also be noted that, as used in this specification and the appended claims, the term “configured” describes a device that is constructed or configured to perform a particular task or adopt a particular configuration. The term “configured” can be used interchangeably with other similar phrases such as arranged and configured, constructed and arranged, adapted and configured, adapted, constructed, manufactured and arranged, and the like.
Eyewear 14, as depicted in
A compressible cylindrical mound, referred to as mound 19, is added onto the temples 16 of eyewear,
When positioned correctly, the mound 19 on the distal section 42 of temples 16 creates an interference fitment with the lateral-posterior bone structure of the user's head, such as on the mastoid and/or the occipital bone(s). The contact interference fitment of the mound 19 with the user's head will be located slightly posterior and superior to the superior ledge of the external ear. However due to different configurations of temples and user's heads, the interference fitment can occur anywhere in contact to and/or close to and/or posterior to the user's ears.
The mound 19 added to the temples 16 can have different configurations and has more than one radius to accomplish in situ stabilizing and maintaining the position of eyewear on a user. The radius can be varied by simply rotating the mound 19 on the temples 16.
In another non-limiting embodiment of the device as seen in
Other geometric mound shapes can be used to rotate the mound 19 circumferentially to obtain an optimal radius for interference fitment on the use's head. A circumferential cylindrical shape could be reduced to almost a ring shape (not shown) with eccentric radii. The mound shapes must not impede in the ability to rotate different radiuses on the temple to allow optimal interference fitment against the user's head. In a preferred embodiment, the rotational capacity should be 360 degrees to allow the user to rotate the mound 19 circumferentially clockwise or counterclockwise to obtain the radius that permits the best interference fitment between the user's head and the mound 19. However less than a 360 degree circumferential rotation can be designed with an eccentric mound 19 and still obtain the best radius interference fitment for the mound against the user's head. However if any shape is used it must be first, a functional shape that permits comfortable contact between the mound 19 and the user's head, and secondly be a shape that doesn't impair rotation to allow other radii to interpose between the user's head and mound 19.
Beneficially, the mound 19 can be retained in place even if the eyewear gets wet from water related activities, from rain or from perspiration, such as during vigorous exercise. This occurs because of any or all of the following reasons: 1. optimizing contact of the mound 19 with the user's head by rotating the mound to obtain the radius that achieves a comfortable interference fitment of the temples with user's head; and, 2. the mound can have grooves or gutters on its external surface which permit water to drain away similar to the effect created by automobile tire tread.
The optimal interference fitment also minimizes eyewear from slipping down the user's nose and face in multi-vectored directions, especially anteriorly, inferiorly and laterally, and thereby maintains the proper positioning of lenses on a user to maintain ideal visual acuity.
In another embodiment,
The previously described rotating radius adjustment means and the incremental radius adjustment means of the mound 19 can be manufactured in combination or made so that each adjustment means can exist by itself. The posterior end of the mound 19 can be closed off so the mound 19 cannot be moved too far anteriorly to preclude its ability to create an interference fitment. However, this could preclude using the full anterior adjustment means of the mound 19 with incremental radiuses 43. It is also understood that the mound 19 could have incremental radiuses 43 located 360 degrees around the entire circumference of the mound 19, so that the user simply advances the mound anteriorly on the distal section 42 of temple(s) 16 to achieve the best interference fitment as described. However the aesthetic effect of the larger radii being visible on the lateral side of the mound 19 may not be as pleasing compared to having the incremental radii located on the medial side of the mound 19 where they would not be easily visible.
As seen in
It is possible to integrate a retainer strap 40 with or without a tightening means 38, such as the commercially available Croakie® retainer straps, in combination with the mound 19, as shown in
In another embodiment of a retainer strap 40 in combination with a mound 19, the clamping means 37 shown in
Although not shown the MRMCM 37 could have incremental radii (seen in
A typical commercial clamping means 37 in
Manufacturers of eyewear can integrate or add mounds having more than one radius to a separate distal section 42 of temple(s),
A non-rotatable multi-radius mound can also be integrated into the manufacture of the distal temple section 42 (not shown). For example, it is possible to manufacture a mound with more than one radius into the manufacture of temples. The multi-radius mound 19 would be positioned into a window formed in the wall of the distal temple section 42. One side of the mound would expose a large radius on the lateral side of the temple and the medial side of the temple wall would expose a smaller radius of the mound. When the distal temple section 42 is integrated with a proximal temple section 44, if the contacting radius of the mound 19 does not produce a good interference fitment, then the distal temple section 42 can be separated by reversing the attaching means from the proximal temple section 44. This allows the user to flip over the temple to the contralateral side, so that radius of the mound becomes the medial side of the distal temple section 42. Reattachment of the distal temple section 42 with the proximal temple section 44 then allows the previously contralateral mound radius to contact the user's head to provide improved interference fitment with the user's head. The positioning of the mound having two radii in this example could be set with a mound that does not have a channel as it could fit firmly into the stem window by mechanical interference fitment means. The mound would be configured so that one side has a larger radius protrusion in relation to the temple 40 and the other side would have a smaller protrusion radius. However an eccentric mound could have a channel with a slit, so that it would slip over and around a bar in the window or other similar configuration to position it in the window of the temple.
Another embodiment to integrate eccentric mounds 19 into temple manufacture are shown in
All publications and patent applications in this specification are indicative of the level of ordinary skill in the art to which this invention pertains. All publications and patent applications are herein incorporated by reference to the same extent as if each individual publication or patent application was specifically and individually indicated as incorporated by reference.
The inventions being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the inventions and all such modifications are intended to be included within the scope of the following claims.
Yakos, David, Wanderer, Alan, Carlstrom, Seth
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