KR100776704B1 - Junction structure of eyeglass parts - Google Patents

Abstract

A junction structure of eyeglass parts is provided to prevent a bonding part melted by heat from being flown to the outside of the eyeglass parts, by gathering the melt bonding part in an ingression groove part of the eyeglass parts. An eyeglass part(2) is bonded to the inside of an eyeglass frame(1) through radio frequency and resistance welding. The eyeglass part comprises a bonding part(22) and an ingression groove part(23). The bonding part contacts with the end of the eyeglass frame, and is formed with a number of contact parts(21) of the eyeglass part. The ingression groove part prevents the bonding part melted during a bonding process to the eyeglass frame from being flown to the outside of the eyeglass frame. The bonding part is comprised in an end part of a protruded part projected rather than an extended line of the contact part.

Description

Junction structure of eyeglass parts

1 is a perspective view showing the bonding structure of the spectacle component according to the first embodiment of the present invention.

2 is a cross-sectional view showing a joint portion of the joint structure of the spectacle component according to the first embodiment of the present invention.

3 is a cross-sectional view showing another example of the joint according to the first embodiment of the present invention.

Figure 4 is a perspective view showing the junction of the bonding structure of the spectacle part according to the second embodiment of the present invention.

5 is a cross-sectional view showing a joint portion of the joint structure of the spectacle component according to the second embodiment of the present invention.

6 is a cross-sectional view showing another example of the joint according to the second embodiment of the present invention.

7 is a view showing a junction of a conventional spectacle component.

<Explanation of symbols for the main parts of the drawings>

1: glasses frame

    11: glasses legs

    12: endpiece

    13: glasses frame

2: glasses parts

    21: contact

    22: junction

    23: recessed groove

    24: Triangular Feldspar

    25: ring

The present invention relates to a joint structure of the spectacle component, and more particularly to a joint structure of the spectacle component that can cleanly join the components to be bonded to the spectacle frame.

Generally, new materials such as shape memory alloy, titanium, β-titanium, etc. are used as the raw materials of the eyeglass legs, and various parts (spring hinges, triangular feldspar) joined to the eyeglass legs and end pieces (hereinafter referred to as "glass frames"). , Rings, etc.) use monel, lead-free, and nickel silver to reduce the cost of materials.

That is, several methods have been proposed for joining titanium and dissimilar metals (metals other than titanium) having different materials, and in particular, according to patent application 2001-5168 filed by the present applicant, A method is described in which a solder is placed on a joint surface of and bonded by heating with resistance heat.

However, the above method has to go through a solder working process between the titanium and the dissimilar metal, there is a problem that takes a lot of time due to the addition of the process.

In order to solve this problem, as shown in FIG. 7, a bonding solvent 200 is conventionally provided inside the hinge 100, and a bonding solvent melted through resistance welding around the bonding solvent 200 ( The guide groove 101 is provided so that the 200 does not flow down the side wall of the hinge 100.

However, it does not matter when the bonding solvent is evenly melted by resistance welding, but there is a problem that the bonding solvent flows to the outside of the hinge when melting is concentrated at any one portion.

In addition, since the contact area of the bonding solvent bonded to the eyeglass legs is very wide, there is a problem that requires a large amount of current capacity.

In addition, when bonding the spectacle frame and the spectacle parts using different materials, there is a problem in that the joint strength is lowered because the spectacle parts are bonded after the solder is formed on the surface of titanium mainly used for the spectacle frame.

Accordingly, the present invention has been invented to solve the above problems, and the bonding structure of the spectacle parts which can prevent the flow down to the outside of the spectacle parts by bringing the junction portion melted by heat to the recessed groove of the spectacle part. To provide.

In addition, it is to provide a joint structure of the spectacle component that can reduce the current capacity by reducing the contact area of the junction.

Another object of the present invention is to provide a joining structure of a spectacle part that can directly form a joint by processing the surface of the spectacle part without providing a bonding solvent.

In order to achieve the above object, the present invention, in the spectacle parts bonded to the inside of the spectacle frame through high frequency and resistance welding, the contact portion formed in contact with the end of the spectacle frame and the contact portion of the spectacle component, It is formed on both sides of the junction portion is characterized in that it consists of a recessed groove to prevent the molten junction from flowing out of the eyeglass frame in the process of bonding the junction to the spectacle frame while the junction is melted by the resistance heat.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing the bonding structure of the spectacle component according to the first embodiment of the present invention, Figure 2 is a cross-sectional view showing the junction of the bonding structure of the spectacle component according to the first embodiment of the present invention.

As shown in Fig. 1 and 2, the joining structure of the spectacle component according to the present invention is the spectacle frame 1 in the spectacle component 2 bonded to the inside of the spectacle frame 1 through high frequency and resistance welding. Contact portion 22 formed in contact with the end of the plurality of contact portion 21 of the eyeglass part 2, and formed on both sides of the junction portion 22, the junction portion 22 is melted by the heat of resistance, the junction portion 22 ) Is made of a recessed groove 23 to prevent the molten joint 22 from flowing down to the outside of the spectacle frame 1 in the process of bonding to the spectacle frame 1.

In particular, the spectacle frame 1 includes an eyeglass leg 11 and an end piece 12, and the eyeglass part 2 includes a spring hinge (not shown) and an endpiece that are joined to the inside of the eyeglass leg 11. 12 is a triangular feldspar 24 bonded to the inside of the 12, and the ring 25 and the like bonded to the end of the end piece 12 is fastened to the spectacle frame 13 and the like.

Also, by forming a plurality of joints 22 in the spectacle part 2, the entire spectacle part 2 can be evenly attached to the spectacle frame 1.

On the other hand, materials such as shape memory alloys, titanium, β-titanium, etc., which are expensive in joining the spectacle frame 1 and the spectacle component 2, are mainly used only for the spectacles 11, and are used as the material of the spectacle component 2. In order to reduce the material cost, they use either inexpensive Monel, lead-free, or nickel silver. Therefore, the joining method of the spectacles 11 and the spectacles 2 is also very important in joining different materials.

Therefore, in the method of joining the spectacle part 2 of the present invention to the spectacle frame 1, high frequency current is applied to the object to be welded and welded with heat generated at this time, or high frequency welding is used to directly weld the object to be joined. It is preferable to use resistance welding in which a current flows to melt the junction with heat generated by the contact resistance, and then presses the junction.

On the other hand, the junction 22 is formed directly on the spectacle part 2, it is preferable to use a cutting device formed with a plurality of cutting edges. Therefore, since the joint part 22 is directly formed in the spectacle part 2, the spectacle frame 1 and the spectacle part 2 can be easily joined and the bonding strength can be increased.

형상인 것이다. 따라서 접합부(22)의 접촉 면적이 넓을수록 전류 용량을 많이 필요로 하는데, 접촉 면적을 줄임으로써 전기 통전력을 증가시킬 수 있다.And the junction 22,

It is a shape. Therefore, the larger the contact area of the junction 22 requires more current capacity, the electrical current can be increased by reducing the contact area.

In particular, in FIG. 2, for convenience, the junction 22 and the recess 23 of the triangular feldspar 24 are exemplified, but the junction 22 and the recess 23 are equally applied to the ring 25.

형상인 것이다.3 is a cross-sectional view showing another example of the joint according to the first embodiment of the present invention, and the joint 22 is

It is a shape.

That is, since the end area of the junction part 22 has a narrow contact area, it consumes less current capacity than when contact contact is wide.

The recessed grooves 23 formed on both sides of the junction 22 are formed on the same line as both end surfaces of the junction 22 so that the junction 22 immediately flows by melting heat. That is, the joint 22 may be melted a lot at a time due to the immature heat control of the inexperienced worker in the process of melting the junction 22. Therefore, the melting point of the bonding portion 22 is accelerated, but by penetrating into the recessed groove 23, it is to prevent the bonding portion 22 from flowing down to the outside of the spectacle part (2).

Hereinafter, the operation and effect according to the bonding structure of the spectacle component of the present invention will be described.

As shown in FIGS. 2 and 3, the joining structure of the spectacle part does not flow out of the spectacle part 2 while the joint 22 of the spectacle part 2 bonded to the spectacle frame 1 is melted by heat. This is to prevent the structure.

In particular, the junction 22 reduces the current capacity by reducing the contact area, and the joint surface can be evenly joined as a whole by the easy melting of both sides as well as the center.

In addition, while the bonding portion 22 is bonded to the spectacle frame 1, the bonding portion 22 is melted by the resistance heat and soaks into the recessed grooves 23 formed on both sides of the bonding portion 22 so that the outside of the spectacle component 2 is applied. To prevent it from flowing down.

In addition, unlike the conventional use of a separate bonding solvent by directly forming the bonding portion 22 to be bonded to the spectacle frame 1 on the spectacle part 2, the ease of bonding as well as the processing process is simplified.

On the other hand, Figure 4 is a perspective view showing a joint portion of the joint structure of the spectacle component according to the second embodiment of the present invention, Figure 5 is a cross-sectional view showing a joint portion of the joint structure of the spectacle part according to the second embodiment of the present invention, 6 is a cross-sectional view showing another example of the joint according to the second embodiment of the present invention.

In particular, the bonding structure of the spectacle part according to the second embodiment of the present invention, except that the bonding portion is provided at the end of the projection (a) is the same as the bonding structure of the spectacle part according to the first embodiment described above. On the premise.

As shown in Fig. 4 to 6, the junction 22 is provided at the end of the protrusion (a) protruding than the extension line of the contact portion 21. Therefore, due to the formation of the protrusion (a) it is possible to improve the bonding force of the bonding portion 22 bonded to the eyeglass frame (1).

As described above, the joining structure of the spectacle part according to the present invention has an effect of preventing the flow of the spectacle part to the outside of the spectacle part in advance by collecting the joining part melted by heat into the recessed groove of the spectacle part. .

In addition, there is an effect that can increase the electrical current by reducing the contact area of the junction to reduce the current capacity.

In addition, by forming the joint directly by processing the surface of the spectacle component without separately provided with a bonding solvent, mutual bonding is easy and the bonding strength is increased to increase the production efficiency.

Claims (4)

In the spectacle part 2 bonded to the inside of the spectacle frame 1 through high frequency and resistance welding, A contact portion 22 formed in contact with an end of the spectacle frame 1 and formed in a plurality of contact portions 21 of the spectacle component 2, It is formed on both sides of the junction 22 and the junction 22 is melted by the heat of resistance while the junction 22 is bonded to the eyeglass frame 1 in the process of the molten junction 22 to the outside of the eyeglass frame 1 It is made of a recessed groove portion 23 so as not to flow down, The joining portion 22 is a joining structure of the spectacle component, characterized in that provided at the end of the protrusion (a) protruding from the extension line of the contact portion (21). delete The method of claim 1, wherein the junction 22,

Joining structure of spectacle parts, characterized by the shape. The method of claim 1, wherein the junction 22,

Joining structure of spectacle parts, characterized by the shape.

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