KR100427851B1 - A method and apparatus for manufacturing the rim of a pair of spectacles - Google Patents

Abstract

The present invention relates to a method and apparatus for manufacturing a spectacle frame which can manufacture a rigid spectacle frame by increasing the bonding strength between titanium parts and dissimilar metals of non-titanium parts through a single solder joint piece. same.

In the manufacture of spectacle frames composed of dissimilar metals, the rims and legs, which are easily formed among the components of the spectacle frame, are formed of titanium metal through a conventional molding process, and the shapes of the spectacle frames are complicated. Forming the connecting member into a non-titanium metal through a conventional molding process; Forming a titanium solder strip plate and a non-titanium solder strip plate, respectively; Overlapping the titanium solder strip plate and the non-titanium solder strip plate with each other to perform spot welding at a predetermined interval to form a single double solder strip plate; Cutting the single double solder strip plate at regular intervals to form titanium solder plates and non-titanium solder plates into a single connecting solder plate; In the process of joining each other between the titanium solder portion constituting the connection solder gap piece and the connection portion of the titanium metals and between the non-titanium solder portion and the connection portion of the non-titanium metal of the connection solder slab, the connection solder lamella is formed of titanium metal. It is located between the connecting portion and the connecting portion of the non-titanium metal, between the titanium solder portion of the connecting solder piece and the connecting portion of the titanium metal, and between the non-titanium solder plate of the connecting solder piece and the connecting portion of the non-titanium metal. It characterized in that the manufacturing method of the spectacle frame consisting of a dissimilar metal connection step of bonding at the same time with the resistance solder while injecting argon gas, which is an inert gas. In addition, the spot solder plate and the non-titanium solder strip plate are overlapped and moved Are joined together to form a single double solder strip plate, and the double solder strip plate is cut and A connection solder piece production unit for forming a solder solder piece, and a component joining part for joining glasses parts of dissimilar metal to each other through the connection solder pieces to complete the frame. The connecting solder grating manufacturing unit includes a welding die in which the titanium solder strip plate and the non-titanium solder strip plate overlap each other, and are mounted on an upper side of the welding die to weld the titanium solder strip plate and the non-titanium solder strip plate to each other to form a single welding strip. A spot welding part formed of a double solder strip plate, and a cutting part mounted on an upper end of the discharge end of the welding die to cut the double solder strip plate at regular intervals to produce a connecting solder strip; The spot welding part is composed of an electrode rod mounted on the cylinder and the rod of the cylinder to be elevated, characterized in that the spectacle frame manufacturing apparatus configured to allow a current to pass between the electrode rod and the welding die to enable resistance welding.

Description

A method and apparatus for manufacturing the rim of a pair of spectacles

The present invention relates to a method and apparatus for manufacturing a spectacle frame composed of parts of dissimilar metals of titanium metal and non-titanium metal, and more specifically, to joining dissimilar metals of titanium parts and non-titanium parts through a single connecting solder grating. It relates to a spectacle frame manufacturing method and apparatus that can increase the strength to produce a robust spectacle frame.

In general, the glasses frame refers to a means for mounting the spectacle lens in front of the eye, and divided into metal frames and horn frames according to the material, the present invention relates to the metal frame of the eyeglass frame, the first described a conventional metal eyeglass frame Same as

7 shows a typical eyeglass frame, which is connected to each other via a nose leg 200 to form a pair of rims, and a pair of nose pads symmetrically mounted on the inside of the rim 100. 20 and a leg 101 fixed to the outer side of the eye rim 100 through an end piece 202, a crossing block 203, and a feldspar 204.

Therefore, the eye rim 100 and the leg 101 are the main components constituting the spectacle frame, and the parts other than the eye rim 100 and the leg 101, the leg 200, nose support 201, the end piece The 202, the crossing block 203, the feldspar 204 and the like are connection parts for connecting the main components or connecting additional components, hereinafter, the leg 200, the nose support 201, and the end piece 202. The crossing block 203 and the feldspar 204 are collectively referred to as a connecting member for convenience.

On the other hand, when manufacturing the spectacle frame composed of the above components, various manufacturing methods are used according to the material of each component, typically, a method of manufacturing the spectacle frame by molding parts only with titanium, and non-titanium parts There is a method of manufacturing by joining dissimilar metals of titanium parts to each other.

First, the manufacturing process of the spectacle frame manufactured only with parts of titanium will be described with reference to FIG. 8.

Forming the whole of the components constituting the spectacle frame with a titanium material (300), bonding each of the components through titanium soldering (301), and the respective components are bonded to plate the surface of the finished spectacle frame It is characterized by consisting of (302).

However, the titanium is widely used as a material for eyeglass frames because of its durability and light weight, but when forming parts having complex shapes such as connecting members due to the high strength of titanium, a lot of molding cost and time are wasted. I had.

In addition, there was a problem that the price of titanium frames went up due to the high price of titanium.

In addition, a manufacturing process manufactured by joining a titanium component and a non-titanium connecting member to each other will be described with reference to FIG. 9.

Among the components constituting the spectacle frame, a step 400 of forming the irim and the leg, which are easy to process parts, is made of titanium, and the connecting member, which is a complicated shape among the components constituting the spectacle frame, is formed of non-titanium metal. Step 401, the step of plating the solderable nickel on the surface of the connection portion of the titanium component parts (402), and the nickel-plated titanium component and the connecting member which is a part of the dissimilar metal to each other Step 403, removing residual nickel around the connection 404, and finally plating 405 entirely on the spectacle frame.

However, in soldering dissimilar metals as described above, the nickel plated portion is weakened by plating nickel on the connection part of the titanium component and then soldering the non-titanium connection member to each other.

Therefore, since the nickel plated portion of the connection portion is easily separated from titanium, the connection strength of the connection portion is lowered.

In addition, in plating nickel on the connection part of titanium parts, nickel plating is formed into a thin film, and in order to obtain the thickness of nickel plating required for soldering, dozens of layers of plating should be performed several times. There was also a problem that a lot of time wasted on the plating to reduce the productivity of the spectacle frame.

In addition, after plating nickel on the connection part of the titanium part and then soldering with non-titanium metal, it is necessary to go through a process of removing harmful nickel remaining on the connection part, and there are also many difficulties in removing residual nickel.

Accordingly, the present invention has been invented to solve the above problems, by forming a single connection solder lattice bonded to titanium and non-titanium solder to increase the bonding strength between the dissimilar metal made of titanium and non-titanium metal to increase the strength An object of the present invention is to provide a method and apparatus for manufacturing an eyeglass frame.

In addition, by omitting the conventional nickel plating process, there is another object that can prevent the waste of time and manpower caused by the removal of residual nickel after plating and bonding of nickel.

In addition, after the titanium part and the non-titanium part are in contact with each other, only one plating is finally performed, thereby having another purpose to simplify the manufacturing process.

The present invention for achieving the above object, in manufacturing a spectacle frame composed of dissimilar metals, among the components constituting the spectacle frame is formed of titanium metal through the conventional molding process the rim and legs And a part forming step of forming a connection member having a complicated shape among the parts constituting the spectacle frame into a non-titanium metal through a conventional molding process; Forming a titanium solder strip plate and a non-titanium solder strip plate, respectively; Overlapping the titanium solder strip plate and the non-titanium solder strip plate with each other to perform spot welding at a predetermined interval to form a single double solder strip plate; Cutting the single double solder strip plate at regular intervals to form titanium solder plates and non-titanium solder plates into a single connecting solder plate; In the process of joining each other between the titanium solder portion constituting the connection solder gap piece and the connection portion of the titanium metals and between the non-titanium solder portion and the connection portion of the non-titanium metal of the connection solder slab, the connection solder lamella is formed of titanium metal. It is located between the connecting portion and the connecting portion of the non-titanium metal, between the titanium solder portion of the connecting solder piece and the connecting portion of the titanium metal, and between the non-titanium solder plate of the connecting solder piece and the connecting portion of the non-titanium metal. It characterized in that the manufacturing method of the spectacle frame consisting of a dissimilar metal connection step of bonding at the same time with the resistance solder while injecting argon gas, which is an inert gas. In addition, the spot solder plate and the non-titanium solder strip plate are overlapped and moved Are joined together to form a single double solder strip plate, and the double solder strip plate is cut and A connection solder piece production unit for forming a solder solder piece, and a component joining part for joining glasses parts of dissimilar metal to each other through the connection solder pieces to complete the frame. The connecting solder grating manufacturing unit includes a welding die in which the titanium solder strip plate and the non-titanium solder strip plate overlap each other, and are mounted on an upper side of the welding die to weld the titanium solder strip plate and the non-titanium solder strip plate to each other to form a single welding strip. A spot welding part formed of a double solder strip plate, and a cutting part mounted on an upper end of the discharge end of the welding die to cut the double solder strip plate at regular intervals to produce a connecting solder strip; The spot welding part is composed of an electrode rod mounted on the cylinder and the rod of the cylinder to be elevated, characterized in that the spectacle frame manufacturing apparatus configured to allow a current to pass between the electrode rod and the welding die to enable resistance welding.

1 is an overall configuration diagram showing a spectacle frame manufacturing apparatus of the present invention.

Figure 2 is an overall perspective view showing a connecting solder grid piece manufacturing unit according to the present invention.

Figure 3 is a block diagram showing a connecting solder grid piece manufacturing unit according to the present invention.

Figure 4 is a schematic perspective view showing a cutting unit according to the present invention.

5 is a schematic perspective view showing a part joint according to the present invention.

6 is a process chart showing a manufacturing process according to the method of the present invention.

7 is an exploded perspective view showing a typical eyeglass frame.

8 is a ball showing the manufacturing process of the spectacle frame conventionally manufactured only with parts of titanium.

9 is a process chart showing a manufacturing process for manufacturing a spectacle frame by bonding different metals to each other in the related art.

Explanation of symbols for main parts of the drawings

1: titanium solder strip plate

2: non-titanium solder strip plate

3: double solder strip plate

4: connecting solder grating

5: connecting solder grating manufacturing unit

51: welding die

52: spot welding

521: cylinder, 522: electrode

53: cutting part

531: fixed blade, 532: operating part, 533: working blade, 534: rack,

535: drive motor, 536: pinion

54: winding part

541: winding roll

55: take out

551: take-up roll

6: component joint

61: resistance soldering machine

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 shows an apparatus for manufacturing a spectacle frame according to the present invention. First, the configuration thereof will be described.

The titanium solder strip plate 1 and the non-titanium solder strip plate 2 are overlapped to each other through spot welding, and a single double solder strip plate 3 is formed, and then the double solder strip plate 3 is formed. A resistance soldering machine 61 for joining the connecting solder piece piece manufacturing part 5 which is constantly cut to form the connecting solder piece 4 and the glasses parts of dissimilar metals through the connecting solder piece 4 to complete the glasses; A component joining portion 6 comprising a).

This will be described in more detail as follows.

FIG. 2 is an overall perspective view showing a connection solder gap production unit according to the present invention, and FIG. 3 is an overall configuration diagram of the connection solder production unit according to the present invention, wherein the connection solder gap production unit 5 is the titanium solder strip plate ( 1) and the non-titanium solder strip plate 2 are laminated and moved to the welding die 51, and the upper side of the welding die 51 is mounted on the titanium solder strip plate 1 and the non-titanium solder strip plate (2). Spot welding portion 52 to be welded to each other to produce a single double solder strip plate 3, and is mounted on the discharge end of the welding die 52 to cut the double Eoa lead strip plate 3 at regular intervals It consists of the cutting part 53 which manufactures the connecting solder grating 4.

In particular, in front of the welding die 51, a winding portion 54 having two winding rolls 541 in which the titanium solder strip plate 1 and the non-titanium solder strip plate 2 are respectively wound; It is mounted between the winding part 54 and the welding die 51 and connected to the motor so that the titanium solder strip plate 1 and the non-titanium solder strip plate 2 can be superimposed and supplied to the welding die 51. A take-out part 55 having two take-out rolls 551 is provided.

And the said spot welding part 52 is comprised from the cylinder 521 and the electrode rod 522 which is attached to and raises and lowers the rod of the cylinder 521. In addition, a current flows through the controller so that resistance welding is possible between the electrode rod 522 and the welding die 52.

In addition, as shown in Figure 4, the cutting portion 53, the fixed blade 531 formed on the upper edge of the discharge end of the welding die 51, the fixed blade 531 is in close contact with the lifting and repeating It consists of an operating part 532 including an operating blade 533. In addition, the operating unit 532 has a rack 534 is formed on the upper portion of the drive motor 535 including an operating blade (533) protruding from the bottom, and the pinion (536) rotated in engagement with the rack 534. It is composed of.

5 shows a component joint according to the present invention, wherein the component joint 6 is composed of a resistance soldering machine 61, so that the titanium solder portion and the titanium metal of the connecting solder chuck 4 can be joined to each other. Of course, the non-titanium solder portion and the non-titanium metal of the connecting solder grating 4 can be joined to each other.

Hereinafter, the manufacturing method of the present invention through the device configured as described above will be described.

1 and 6, first, among the components constituting the spectacle frame, the irim and the leg, which are easy to form, are formed of titanium metal, and among the components constituting the spectacle frame, the connection member is a complex part. Part forming step (10) of molding non-titanium metal, step (20) of forming titanium solder strip plate (1) and non-titanium solder strip plate (2), respectively, and the respective titanium solder strip plate (1) And overlapping the non-titanium solder strip plate 2 to perform spot welding at a predetermined interval to bond the single double solder strip plate 3 to the single double solder strip plate 3, and to the single double solder strip plate 3. Cutting 40 at regular intervals to form a titanium solder cub and a non-titanium solder diaphragm into a single connecting solder piece 4, between the titanium solder portion constituting the connecting solder piece and the connection portion of the titanium metals; Non-titanium solder part and non-bonding solder piece It is made of a dissimilar metal connection step (50) for bonding between the connection portions of titanium metals.

In particular, in the component manufacturing step 10, as shown in FIG. 7, among the parts of the frame of the eyeglasses, a simple shape is made of titanium metal and the eyerim 100 and the leg 101, the eyerim 100 and the leg ( Except for 101), connecting members having complicated shapes are made of metal instead of titanium.

The material used as the non-titanium metal is a material of monel, nickel silver, and stainless, and the material of non-titanium solder is monel solder, nickel silver, and stainless solder so that the monel, nickel silver, and stainless can be joined. It is appropriate to be.

In addition, after completing the component connection step 50, the plating step may be further performed according to the color of the spectacle frame.

This will be described in more detail as follows.

In the component connecting step, as shown in Fig. 5, the titanium solder portion of the connecting solder chuck 4 and the titanium solder portion 4 are placed between the connecting portion of the titanium metal and the connecting portion of the non-titanium metal. The connection between the connection portions of titanium metal and the non-titanium solder portion of the connection solder gap 4 and the connection portions of non-titanium metal is simultaneously performed.

That is, in the joining process, the resistance soldering is performed through the resistance welding machine 61, so that the connection solder lattice, the titanium metal, and the non-titanium metal can be joined at a constant temperature.

Further, in the process of performing the resistive soldering, by injecting argon gas, which is an inert gas, it is possible to improve the bonding strength by preventing the change in the structure of the joint.

As described above, the present invention has the effect of maximizing the life of the spectacles by increasing the bonding strength of the dissimilar metal through a single connecting solder grating to manufacture a rigid spectacle frame.

In addition, by omitting the nickel plating process conventionally used when joining dissimilar metals, it is possible to maximize the productivity of the spectacle frame by preventing waste of time and manpower.

In addition, by contacting dissimilar metals of titanium metal and non-titanium metal, and only one plating is finally performed, there is an effect that can reduce the cost of the product by simplifying the manufacturing process.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

Claims (15)

delete delete delete In manufacturing the spectacle frame composed of dissimilar metals, Of the parts constituting the spectacle frame, the rims and legs, which are easy to form, are formed of titanium metal through the usual molding process, and the connecting members having complicated shapes among the parts constituting the spectacle frame are made of non-titanium. A part forming step of forming a metal; Forming a titanium solder strip plate and a non-titanium solder strip plate, respectively; Overlapping the titanium solder strip plate and the non-titanium solder strip plate with each other to perform spot welding at a predetermined interval to form a single double solder strip plate; Cutting the single double solder strip plate at regular intervals to form titanium solder plates and non-titanium solder plates into a single connecting solder plate; In the process of joining each other between the titanium solder portion constituting the connection solder gap piece and the connection portion of the titanium metals and between the non-titanium solder portion and the connection portion of the non-titanium metal of the connection solder slab, the connection solder lamella is formed of titanium metal. It is located between the connecting portion and the connecting portion of the non-titanium metal, between the titanium solder portion of the connecting solder piece and the connecting portion of the titanium metal, and between the non-titanium solder plate of the connecting solder piece and the connecting portion of the non-titanium metal. Eyeglass frame manufacturing method characterized in that consisting of a dissimilar metal connection step of bonding at the same time by the resistance soldering while injecting argon gas which is an inert gas. The method of claim 4, wherein the plating is further performed after the component connection step is completed. delete The method of claim 4, wherein the non-titanium metal is nickel silver and the non-titanium solder is nickel silver solder. The method of claim 4, wherein the non-titanium metal is made of stainless and the non-titanium solder is made of stainless solder. delete delete As the titanium solder strip plate 1 and the non-titanium solder strip plate 2 overlap and move, they are joined to each other by spot welding, so that a single double solder strip plate 3 is formed and the double solder strip plate is cut constantly. And a connection part (6) for joining the soldering piece (5) for forming the connecting solder piece (4), and for joining the spectacle parts of dissimilar metal to each other through the connecting solder piece (4) to complete the frame of the glasses. ; The connecting solder gap piece manufacturing unit 5 is mounted on the welding die 51 and the upper side of the welding die 51 in which the titanium solder strip plate 1 and the non-titanium solder strip plate 2 overlap each other. And the spot weld 52 for welding the titanium solder strip plate 1 and the non-titanium solder strip plate 2 to each other to form a single double solder strip plate 3, and an upper portion of the discharge end of the welding die 52. A cutting portion 53 mounted on the cutting portion 53 for cutting the double solder strip plate 3 at regular intervals to produce a connecting solder strip 4; The spot welding part 52 may include a cylinder 521 and an electrode rod 522 mounted on and lifted from the rod of the cylinder 521. Resistance welding may be performed between the electrode rod 522 and the welding die 52. Eyeglass frame manufacturing apparatus characterized in that the current is configured to pass through. 12. The cutting blade (53) according to claim 11, wherein the cutting portion (53) is a fixed blade (531) formed at the upper edge of the discharge end of the welding die (51), and the working blade which is in close contact with the fixed blade (531) and repeats the lifting. Glasses frame manufacturing apparatus, characterized in that consisting of an operating unit 532 is included. 13. The actuator 532 of claim 12, wherein the operating portion 532 includes an operating blade 533 having a rack 534 formed thereon and protruding downward, and a pinion 536 rotated in engagement with the rack 534. Eyeglass frame manufacturing apparatus characterized in that consisting of a drive motor (535). 12. The winding unit 54 according to claim 11, wherein the front side of the welding die 51 has two winding rolls 541 on which the titanium solder strip plate 1 and the non-titanium solder strip plate 2 are respectively wound. ) And the winding portion 54 and the welding die 51, and the titanium solder strip plate 1 and the non-titanium solder strip plate 2 are superimposed on each other so as to be constantly supplied to the welding die 51. Eyeglass frame manufacturing apparatus characterized in that it is further provided with a take-up portion 55 having two take-up rolls 551 connected to the motor to enable. The apparatus of claim 11, wherein the component joint part (6) is composed of a resistance soldering machine (61).