KR20120011308A - Spring hinge mechanism for eyeglasses - Google Patents

Abstract

PURPOSE: A spring hinge mechanism for an eyeglasses is provided to improve durability by preventing metal fatigue due to the repeated deformation of an elastic wire. CONSTITUTION: A spherical piece(21) is installed in the leading end of an end piece(2). The end piece is respectively arranged in both right and left terminal of an eyeglasses front frame(1). The other side globe piece(31) is installed in the spherical piece of the temple(3). Two spherical pieces are connected through an hinge and are rotatable by a main axis. An elastic wire rod is bent in the inner side of the end piece into an arch shape. The refolding end of an arm member forms the end of the elastic wire into a revered U-shape. A hook(32) is bent in the spherical piece in the other side of the temple.

Description

Spring hinge mechanism of glasses {SPRING HINGE MECHANISM FOR EYEGLASSES}

The present invention provides improved glasses, and more particularly, a simple structure, in which the biasing members are difficult to be pulled out from each other, and thus, the elastic force can be transmitted reliably, and the glasses can be improved by preventing metal fatigue due to repeated deformation of the elastic wire. Spring hinge mechanism.

When trying to detach the glasses, the free end side of the temple inevitably tends to be unreasonably extended to the outside, and this causes a great force to be applied to the base end of the temple, resulting in a failure of the glasses frame. Deformation was easy to occur.

Conventionally, as a proposal for removing such a hazard, the so-called "spring" which consists of one hinge part of the hinge which hinges a front frame and a temple so that an elastic forward and backward movement is comprised by the coil spring built in the temple base part. Hinge ”(for example, refer patent document 1).

However, since this spring hinge is generally complicated in structure and its component parts are minute, each component constituting by frequent temple opening / closing operation is worn out, and this lateral extension operation is loosened immediately, or on the contrary, sweat or sebum of the wearer, etc. In some cases, the inside of the hinge mechanism penetrated and corroded the spring, etc., making it difficult to return to the original while the temple was extended outward.

When such a failure occurs, it is necessary to replace the spring hinge, but the conventional spring hinge has a complicated structure as described above, and thus the replacement work is very cumbersome and requires fine work. There were many complaints that the cost is rising.

Japanese Patent Laid-Open No. 2001-290108 (pages 3-5, Fig. 1)

The present invention has been made in view of the above problems in conventional eyeglasses, and its object is to provide a simple structure that the biasing members are difficult to pull out from each other and to transmit the elastic force reliably, and to repeat deformation of the elastic wire rod. An object of the present invention is to provide a spring hinge mechanism for eyeglasses that can prevent metal fatigue due to improvement of durability.

The means employed by the present inventors to solve the above problems will be described with reference to the accompanying drawings.

That is, according to the present invention, the spherical body 21 is provided on the front end side of the end piece 2 arranged on the left and right ends of the spectacle front frame 1, respectively, while the base end of the temple 3 is provided. As a spectacle hinge structure provided with a mating spherical member 31 on the side, and hinged connection of these spherical parts by pivot 4 is possible.

On the inner side of the end piece 2, the elastic wire is curved in an arc and the tip thereof is folded back into a U-shape to join the arm member 5 having the folded tip 51. While placing the folded end portion 51 near the two ball parts,

The mating portion 31 of the temple 3 is formed with a hook portion 32 that is bent in a hook shape at the tip side than the pivot hole 31a,

When the temple 3 is expanded, the inner surface of the hook portion 32 is locked to the inner surface of the refolding front end portion 51 of the arm member 5 and pressurized by the bending elastic force of the arm member 5. The spring hinge mechanism of the spectacles is completed by employing technical means for biasing the temple 3 in the folding direction.

Moreover, in order to solve the said subject, in addition to the said means as needed, this invention makes the arm member 5 a pair of elastic wire rods parallel up and down, and connects these refolding front-end parts 51 * 51 together. The bridge | crosslinking part 51a was provided, and the technical means which pressurizes to the bridge | crosslinking part 51a while locking the inner surface of the hook part 32 is employ | adopted.

Moreover, in order to solve the said subject, in addition to the said means as needed, the present invention technically forms the arm member 5 integrally from the proximal end of the spherical portion 21 of the end piece 2. Adopted means.

Moreover, in order to solve the said subject, in addition to the said means as needed, the technical means of brazing bonding the arm member 5 to the inner side surface of the end piece 2 was employ | adopted.

[Effects of the Invention]

In the present invention, a spherical piece is provided on the front end side of the end pieces respectively disposed on the left and right ends of the front frame of the spectacles, while a spherical side piece is provided on the base end side of the temple, and both spherical parts are hinged so as to be pivotable. As the eyeglass hinge structure configured by

On the inner side of the end piece, an elastic wire is curved in an arc and the end portion is folded into a U-shape to join an arm member having a retracted tip portion, and the refolded tip portion is disposed near the two spherical parts. In addition,

On the other side of the temple, a hook portion bent in a hook shape is formed on the front end side of the temple rather than a pivot hole, and when the temple is expanded, the inner side of the hook portion is pressed against the inner side of the refolded front end of the arm member while pressing the arm. The temple can be biased in the folding direction by the bending elastic force of the member.

Therefore, according to the spring hinge mechanism of the present invention, since the biasing members are difficult to interlock with each other in a simple structure, the elastic force can be transmitted reliably, and the durability can be improved by preventing metal fatigue due to repeated deformation of the elastic wire rod, so that the glasses can be improved. The practical use value in is very high.

BRIEF DESCRIPTION OF THE DRAWINGS The whole perspective view which shows the glasses of embodiment of this invention.
2 is an enlarged exploded perspective view showing a hinge mechanism of an embodiment of the present invention.
It is a top view which shows the hinge mechanism of embodiment of this invention.
It is a top view which shows the hinge mechanism of embodiment of this invention.
It is a top view which shows the modification of the hinge mechanism of embodiment of this invention.

EMBODIMENT OF THE INVENTION The form for implementing this invention is demonstrated further in detail based on the figure which shows concretely as follows.

Embodiment of this invention is described based on FIG. Reference numeral 1 in FIG. 1 denotes a spectacle front frame, which is a full rim in which a rim capable of fixing a pair of lenses as shown in the drawing is symmetrically connected by a bridge. a rim type, a half rim type, a rimless type, or the like can be adopted.

In addition, what is indicated by the code | symbol 2 is an end piece, This end piece 2 is arrange | positioned at the left and right both ends of the said glasses front frame 1, respectively.

In addition, it is a temple shown by the code | symbol 3, This temple 3 is an elongate member which can be earring arrange | positioned at the front-end | tip part of the said end piece 2. As shown in FIG.

In addition, what is shown by the code | symbol 4 is an axis, and this axis | shaft 4 employ | adopts the screw engagement member which has a thread in this embodiment, It is not limited to this, A rivet shape may be sufficient.

It is to be noted that reference numeral 5 denotes a arm member, and a material having elasticity (β-titanium in the present embodiment) is formed in a curved arm shape. In this embodiment, it may be directly molded by injection molding using a metal mold, casting, metallurgy, or the like, or may be subjected to bending after molding the rod-shaped thing once.

However, in constituting the spectacle hinge structure according to the present embodiment, first, a spherical body 21 is provided on the front end side of the end piece 2 which is arranged at both left and right ends of the spectacle front frame 1, respectively. In the present embodiment, two spheres (dark bulbs) are formed as this sphere 21.

Subsequently, the mating side 31 combined with the said sphere 21 is provided in the base end side of the temple 3. In this embodiment, one counterpart (water polo) is formed as this counterpart 31. As shown in FIG. Then, these two spherical parts are hingedly connected to each other by the pivot 4. In this embodiment, this axis | shaft 4 is used as a screw member, and is comprised so that it may be screwed to the screw thread engraved on the inner peripheral surface of the hinge hole 21a and the pivot hole 31a.

And the arm member 5 is joined in the inner surface of the said end piece 2. The arm member 5 forms an arched curved portion 52 in which the elastic wire is curved in an arc, and the tip end portion is folded back into a U-shape to form a folded end portion 51. At this time, it arrange | positions so that this folding front end part 51 may be in the vicinity of the said two ball parts.

In this embodiment, the arm member 5 is made into a pair of elastic wire rods parallel to each other, and the bridge | crosslinking part 51a which connects these refolding front-end | tip parts 51 * 51 is provided.

In this embodiment, the arm member 5 can be integrally molded from the base end vicinity of the fragment 21 of the end piece 2, and manufacturing cost can also be reduced.

In addition, the mating portion 31 of the temple 3 is provided with a hook portion 32 that is bent in a hook shape at the tip side of the pivot hole 31a (see FIG. 3).

When the temple 3 is expanded, the inner surface of the hook portion 32 is connected to the inner surface (crosslinking portion 51a) of the refolded tip portion 51 of the arm member 5, as shown in FIG. By pressing while being locked, the temple 3 can be biased in the folding direction by the bending elastic force of the arm member 5. By such a configuration, the biasing members are difficult to be engaged with each other and the elastic force can be transmitted reliably.

In addition, the elastic deformation of the arched curved portion 52 and the elastic deformation of the refolded tip portion 51 can exhibit an appropriate elastic force, and can also improve durability by preventing metal fatigue due to repeated deformation of the elastic wire rod.

The present invention is schematically configured as described above, but is not determined to be limited to the illustrated embodiment, and various modifications are possible within the description of the "claims", for example, the arm member 5 is an end piece. It is not limited to carrying out integrally shaping | molding integrally from the base end part of the spherical body 21 of (2), It can also braze-bond to the inner surface of the end piece 2 (refer FIG. 5).

In addition, the male and female of the spherical body 21 and the mating spherical body 31 may be an opposite combination, and not only three spheres but five spheres may be sufficient as them.

As the material used for the arm member 5, if it is an elastic material, nickel-titanium-based superelastic alloys, stainless steel, plastics, or the like may be employed, and any of these belongs to the technical scope of the present invention.

1: glasses front frame 2: end piece
21: fragment 21a: hinge hole
3: temple 31: opponent side
31a: pivot hole 32: hook portion
4 Axis 5: No Arm
51: refolded tip 51a: crosslinked portion
52: arched bend

Claims (4)

While the spherical body 21 is provided in the front-end | tip side of the end piece 2 arrange | positioned at the left and right both ends of the spectacle front frame 1, the counterpart side 31 is provided in the base end side of the temple 3, As a spectacle hinge structure constituted by hinged spherical parts pivotally connected by a shaft 4:
On the inner side of the end piece 2, the elastic member is curved in an arc and the tip portion thereof is folded into a U shape, and the arm member 5 having the folded tip portion 51 is joined. 51 is disposed in the vicinity of the two ball parts;
The mating portion 31 of the temple 3 is formed with a hook portion 32 that is bent in a hook shape at the tip side than the pivot hole 31a;
When the temple 3 is expanded, the inner surface of the hook portion 32 is locked to the inner surface of the refolded front end portion 51 of the arm member 5 to be pressed to the bending elastic force of the arm member 5. The spring hinge mechanism of eyeglasses characterized in that the temple (3) can be biased in the folding direction. The method of claim 1,
The arm member 5 consists of a pair of elastic wire rods parallel to each other, and is provided with a bridge portion 51a for connecting the retracted tip portions 51 · 51 to each other. The spring hinge mechanism of the eyeglasses, characterized in that the pressing while the inner surface of the hook portion 32 is locked. The method according to claim 1 or 2,
The spring hinge mechanism of eyeglasses characterized in that the arm member (5) is integrally molded from the vicinity of the proximal end of the piece (21) of the end piece (2). The method according to claim 1 or 2,
The spring hinge mechanism of eyeglasses characterized by brazing bonding the said arm member (5) to the inner side surface of the said end piece (2).

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