Manually adjustable spectacle temple

Optics: eye examining – vision testing and correcting – Spectacles and eyeglasses – Temples

Reexamination Certificate

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Details

C351S111000, C351S119000, C351S123000

Reexamination Certificate

active

06193368

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to spectacles. Particularly, the present invention relates to adjustable spectacle temples.
2. Description of the Prior Art
Many spectacle wearers visit optical stores or eye doctors regularly when their spectacles require adjustments of the temples. Typically, the temples, which defined broadly are the spectacle arms, are either too tight or loose on the wearer's face resulting in the spectacles causing pain and/or discomfort behind the ears, on the bridge of the nose or a general headache. Another common problem is where the temples are either too long or too short to form-fit behind the ears. In the art, the process for correcting either problem entails heating and manipulating the temple. However, the equipment for carrying out this process, along with the necessary expertise, are usually only available at the optical store or the doctor's office.
The manually-adjustable temple of the present invention alleviates the pain and discomfort associated with improperly fitted spectacles. Additionally, the manually-adjustable temples enables the spectacle wearer to manipulate and adjust the temples, without expert assistance, to achieve a constant perfect fit. This is accomplished by a temple comprising three sections having ball and socket type connections that are precision-fitted to rotate and adjust in various positions. The temples, and accordingly, the sections, are covered by oil and a water resistant jacket to allow the sections to maintain their rigidity and flexibility in spite of the friction between the ball and socket joints.
U.S. Pat. No. 3,649,106 to Hirschmann discloses a spectacle temple having two plastic sections that are mechanically interlocked to produce a sliding motion. Although the metal used in Hirschmann has extra-high elasticity and plasticity, heat and prolonged bending and twisting could effect the aforementioned properties of the metal and plastic.
In contrast, the present invention relies on more robust ball and socket type connections to provide enhanced flexibility and durability. The manually-adjustable temple of the present invention is covered with oil and a water-resistant rubber jacket. This adds needed comfort to the wearer as opposed to the often hard plastic covering found in temples known in the prior art. The precision fitted ball and socket connections are more reliable than the Hirschmann temples because they will not lose their rigidity after frequent adjustments. The three ball and socket connections address the temple, the top of the ear and the curved back portion of ear, all sensitive areas for spectacle wearers. Also, the multiple ball and socket type connections on the temple sections lessens the bending motion required for any particular joint, thereby by prolonging the life of each ball and socket connection.
U.S. Pat. No. 2,538,830 to Collinson discloses a temple for spectacle frames made of plastic. The ear-engaging portion of the temple is made relatively narrow, having a width not exceeding its thickness. This narrow portion is in the nature of a neck that joins the wide portions of the temple at either end. The narrow portion is equally inset from the two edges of the temple, the shoulders being rounded so that the edges of the narrow portion merge into those of adjacent portions. Between the shoulders, the edges are parallel affording a length of the temple for bending to adjust to individual wearers.
In contrast, the present invention has three adjustable temple sections as opposed to a narrowed section. This provides for a different type of adjustment. Additionally, the three adjustable sections of the present invention are covered with oil and a water resistant rubber jacket. The three sections, which are micro-machined ball and socket joints or connections, provide for increased flexibility as compared to the single narrowed section of Collinson.
U.S. Pat. No. 1,524,321 to Stevens et al. discloses a spectacle temple where flexibility is attained utilizing a flexible reinforcing rod. The rod is covered with a fabric, preferably in the form of a tube, that is slipped over the rod. The fabric is then enclosed in a non-metallic member for aesthetic reasons. The non-metallic member is bored to form a tube, whereby the rod may be extended through the bore to reinforce the fabric and the non-metallic member. The fabric and the reinforcing rod may be bent to the desired shape of the temple either before or after the non-metallic tube is applied.
In contrast, the present invention consist of three flexible sections, where each section consist of ball and socket-type joints. Each ball and socket connection is precision-fitted to provide flexibility but also sufficiently rigid to maintain proper temple positioning. Over time, the rod in the Stevens' temple will lose its rigidity due to adjustments that will be made. This is not true in the present invention where each ball and socket joint may be adjusted a significant number of times without any significant loss in rigidity. The ball and socket joints, in fact, will not lose their rigidity because the balls are designed to rotate in a socket for the purpose of adjustment. A rod, in contrast, whether metal or not, will lose rigidity and be unable to maintain a desired temple position over time.
U.S. Pat. No. 5,078,485 to Aiba et al discloses an eyeglass temple having an outer plastic cover and a metal core arm comprised of a metal having high elasticity such as Ni—Ti. Different properties are imparted to the metal core in the arm portion of the temple and the ear piece portion of the temple by applying different heat treatments to the metal core. According to the disclosure, the metal core has extra-high elasticity in the straight arm portion of the temple and plasticity in the curved ear piece, such that the ear piece can be freely bent to fit the shape and size of the wearer.
In contrast, the inner core of the present invention is an extra high elasticity metal having three sections, each section having machined ball and socket joints. The flexibility of the temple, therefore, is only partially dependent on the highly elastic nature of the metal and. Temple flexibility in the present invention is provided primarily by the ball and socket connections of the inner metal core. Predetermined bends in the metal core also enhance the customized fitting capability of the present invention. Also, as previously noted, the heating of and persistent bending and twisting of a temple such as that disclosed in Aiba will eventually effect the elasticity and plasticity properties of the metal and plastic.
U.S. Pat. No. 4,074,932 to Thill disclose temples made of a material which is substantially rigid at atmospheric temperatures but ductile at temperatures above atmospheric temperature, and a weighting material encapsulated in the material of which the temples are made which is substantially rigid at atmospheric temperatures but liquid at the temperature at which the temples are ductile. Thill also discloses a method of fitting eyeglasses having the aforementioned temples whereby the temples are heated until they are ductile and the weighting material is liquid, shaping the temples while they are ductile and the weighting material is liquid, and cooling the temples to solidify the weighting material and to make the material of the temples substantially rigid.
The present invention is designed especially to overcome the problems that Thill presents. First, the temples of the present invention do not require heating in order to be manipulated. The Thill temples are especially problematic in this regard because exact temperatures must be achieved to liquefy the encapsulated weighted material to make the temples ductile and subsequently to cool the weighted material and to make the temples rigid. The present invention eliminates any need for heating and cooling the temples. Moreover, the present invention eliminates the need for any special equipment required for the heating and cooling processes

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