The present invention relates to an eyeglass lens replacement assembly, especially to an eyeglass lens replacement assembly which makes assembly and replacement of eyeglass lens more easily and conveniently, without using any tools. The design also provides quick assembly of the lens.
There are various types of eyeglasses such as optical glasses, sunglasses, sports glasses, night vision glasses, etc. Users can select glasses according to their personal needs at different time so that most of people have several pairs of glasses. For example, the sport glasses used in the daytime protects users from ultraviolet radiation while the sport glasses should allow more light to pass through due to insufficient light at night. However, to buy more eyeglasses costs a lot more money and more space is needed for eyeglasses storage.
The basic structure of the eyeglasses includes a frame which holds at least one lens. After the lens being mounted into a lens assembly hole of the frame, threaded fasteners are inserted into threaded holes of the frame beside the lens assembly hole and threaded into the frame for clamping and fixing the lens inside the lens assembly hole of the frame. Then temples are pivotally connected to two sides of the frame. The assembly of the eyeglasses is completed.
Although the lens can be clamped and fixed inside the lens assembly hole by the threaded fasteners, threaded fastener driving tools are required to tighten or release the threaded fasteners while mounting or removing the lens relative to the lens assembly hole. Thus the assembly or disassembly of the lens is inconvenient once users don't have the right tool on hand.
Thus there is room for improvement and there is a need to provide a novel eyeglass lens replacement assembly which is more convenient to use.
Therefore it is a primary object of the present invention to provide an eyeglass lens replacement assembly in which a frame, temple pivot members and a lens are connected firmly with and positioned properly by one another, without falling off easily. During assembly or replacement of the lens, not only no tools are required, related components are also assembled more quickly and conveniently.
In order to achieve the above object, an eyeglass lens replacement assembly according to the present invention mainly includes a frame, two temple pivot members and a lens.
The frame is provided with a lens connection portion, a plurality of mounting protrusions formed on the frame and located around the lens connection portion, a limiting slot formed on each of two sides of the frame, and a limiting stopper arranged in the limiting slot.
The temple pivot member is inserted and mounted in the limiting slot of the frame. An insertion slot is located concavely on a front end of the temple pivot member and provided with a positioning bulge therein. A through slot is formed on an inner side of the temple pivot member and communicating with the insertion slot while a positioning portion is pivotally connected to the through slot and provided with a limiting bulge and a locking recess which is formed on the front end of the positioning portion and locked with an inner wall surface of the insertion slot. A temple is pivotally connected to a distal end of the temple pivot member.
The lens is mounted to the lens connection portion of the frame and two sides of the lens are inserted into the insertion slots of the temple pivot members correspondingly. The lens is composed of a plurality of mounting slots, two positioning dents and two limiting notches. The mounting slots are formed on the periphery of the lens for mounting and positioning the mounting protrusions correspondingly. The two positioning dents are mounted on two sides of the lens and locked and positioned by the positioning bulges of the insertion slots while the two limiting notches are formed on two sides of the lens for locking and limiting the limiting bulges of the positioning portions.
The positioning portion of the temple pivot member is provided with a slip resistant part to which users can easily apply a force for pulling the positioning portion outward.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein:
In order to learn technical content and functions of the present invention more completely and clearly, please refer to the following embodiments with detailed descriptions and with reference to the related figures and numbers therein.
Refer to
The frame 1 consists of a lens connection portion 11, a plurality of mounting protrusions 12 formed on the frame 1 and located around the lens connection portion 11, a limiting slot 13 mounted on each of two sides of the frame 1, and a limiting stopper 14 disposed in the limiting slot 13.
The temple pivot member 2 which is inserted and mounted in the limiting slot 13 of the frame 1 includes an insertion slot 21 located concavely on a front end of the temple pivot member 2, a through slot 22 formed on an inner side of the temple pivot member 2 and communicating with the insertion slot 21, a positioning portion 23 pivoted on the through slot 22, and a temple 24 pivotally connected to a distal end of the temple pivot member 2. A positioning bulge 211 is formed in the insertion slot 21 while the positioning portion 23 is provided with a limiting bulge 231, a locking recess 232 formed on the front end of the positioning portion 23 and locked and positioned by an inner wall surface of the insertion slot 21 for positioning, and a slip resistant part 233 to which users can easily apply a force for pulling the positioning portion 23 outward.
The lens 3 is mounted to the lens connection portion 11 of the frame 1 and two sides of the lens 3 are inserted into the insertion slots 21 of the temple pivot members 2 correspondingly. The lens 3 is composed of a plurality of mounting slots 31 formed on the periphery of the lens 3 and corresponding to the mounting protrusions 12, two positioning dents 32 mounted on two sides of the lens 3 and corresponding to the positioning bulges 211 of the insertion slots 21, and two limiting notches 33 formed on two sides of the lens 3 and corresponding to the limiting bulges 231 of the positioning portions 23.
With reference to
When users want to disassemble or replace the lens 3, a force is applied to the slip resistant part 233 of the positioning portion 23 to pull the positioning portion 23 outward. Thus the limiting bulge 231 of the positioning portion 23 is r the limiting notch 33 of the lens 3. The respective mounting protrusions 12 are also separated from the corresponding mounting slots 31 around the lens 3. Thereby the lens 3 can be removed and replaced.
In summary, compared with the technique available now, the frame, the temple pivot member, and the lens of the present invention are connected and positioned firmly by the frame, the temple pivot member, and the lens in combination with one another, without falling off easily. Not only no tools are required for assembly or replacement of the lens, related components are also assembled more quickly and conveniently.
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details, and representative devices shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalent.