KR20030047152A - Ceramics nose-pad of glasses and Manufacturing method - Google Patents

Abstract

PURPOSE: A ceramic nosepiece of glasses and its preparation method are provided, to solve the problem that a nose pad and a bridle iron are corroded or discolored by sweat and the problem that the space between the nose pad and the bridle iron becomes dirty by impurities. CONSTITUTION: The method comprises the steps of mixing 80-90 wt% of ceramic powder and 10-20 wt% of a binder, heating the mixture at 500 deg.C and stirring the heated one; pouring the mixture into a mold where a nose pad part(32a) and a bridle iron part(34a) are formed in a body, and injection molding the mixture at 500-600 deg.C; slowly heating the obtained ceramic nosepiece(30a) at 300 deg.C to remove a binder component by oxidation; removing the burr of the ceramic nosepiece; sintering the ceramic nosepiece at 1,670 deg.C for 12-17 hours; and polishing the ceramic nosepiece. Preferably the binder is a mixture of paraffin and poly(vinyl acetate) in the ratio of 1;1 by weight. Preferably the mixture comprises further about 0.02 wt% of manganese.

Description

Ceramic eye nose pad and glasses manufacturing method {Ceramics nose-pad of glasses and Manufacturing method}

The present invention relates to a ceramic eyeglass nose support and a method for manufacturing the same, and more particularly, by providing a ceramic eyeglass nose support and a method for manufacturing the nose pad portion and the saddle portion integrally molded using a ceramic, And the problem that the saddle is corroded and discolored, and that the foreign matter is caught in the connection between the nose pad and the saddle, and the far-infrared rays, which are inherent in the ceramic, can be projected to the user of the glasses. The present invention relates to a ceramic eyeglass nose support and a method of manufacturing the same.

With reference to Figures 1 and 2 looks at the configuration of the conventional eyeglasses in detail below.

The general configuration of the conventional eyeglass nose 10 is a nose support 20 including a synthetic resin nose pad 22 seated on the nose and the like of the eyeglass user and a metal saddle 24 inserted into the nose pad 22. The nose nose 26 is fastened to the saddle 24 and one end is welded with the nose 26 and the other end is the eyeglass nose (10) consisting of a hinge 28 welded to the spectacle frame.

However, in the case of the conventional eyeglass nose support 20, there is a problem that the nose pad 22 in contact with the nose of the eyeglass wearer is formed of a synthetic resin, which causes discoloration or discoloration by sweat of the eyeglass wearer, in particular, the metal saddle 24 There is a problem that the copper component of the corrosive discoloration to green and the foreign matter caught in the joint portion with the nose pad 22, and therefore, the problem of hurting the aesthetics of the glasses wearer or frequent replacement of the nose support 20. There was this.

On the other hand, in order to improve the problem of the conventional eyeglass nose support 20, there is a product in which the nose pad 22 and the saddle 24 is integrally injection molded with synthetic resin or silicone, but the synthetic resin or silicone is discolored by sweat, etc. The problem cannot be fundamentally solved, and in the case of the silicone nose pad, there was also a problem in which the mold contained in the organic material contained in the silicon.

An object of the present invention for solving the above problems, there is no corrosion-discoloration, which is a problem of synthetic resin or silicone nose pads and metal saddles, there is no problem that the foreign matter caught between the connection of the nose pad and the saddle, The present invention provides a nose pad portion and a saddle portion integrally injection molded ceramic eyeglass nose support and a method of manufacturing the same.

1 is a perspective view showing a state of use of the general eyeglass nose support

2 is a cross-sectional view of a typical eyeglass nose support

3a and 3b is a perspective view showing a ceramic eyeglass nose support according to an embodiment of the present invention

Explanation of symbols on the main parts of the drawings

10: glasses nose 20, 30a, 30b: nose rest

22 nose pads 24

26: nose 28: the hinge

32a, 32b: nose pad portion 34a, 34b: saddle portion

An embodiment of the present invention for achieving the above object will be described below.

3A and 3B are perspective views illustrating a ceramic eyeglass nose support according to an embodiment of the present invention.

The method of manufacturing a ceramic eyeglass nose support according to the present invention includes a stirring step of stirring ceramic powder and a binder, and the ceramic-binder mixture stirred in the stirring step is press-fitted into the nose support mold in which the nose pad part and the saddle part are integrally formed. Injection molding into a ceramic nose support, a plasticizing process of oxidizing a binder by placing the ceramic nose support in an electric furnace, and a burr for removing burrs (flash) of the nose support, which have undergone the plasticity process. And sintering the nose support to recrystallize the crystal grains of the ceramic nose support, and a polishing step of polishing the sintered nose support.

In addition, in the process of stirring the ceramic powder and the binder, the dye may be additionally added to impart a color to the ceramic eyeglass nose support which is a finished product.

A preferred embodiment of the method for manufacturing a ceramic eyeglass nose rest configured as described above will be described in more detail below.

Looking at the stirring process of the first step, the ceramic powder 80% ~ 90% (weight ratio) and the binder 20% ~ 10% (weight ratio) by stirring with a stirrer, at which time the binder is completely liquid by maintaining about 500 ℃ It melts and stirs evenly with the ceramic in powder form, and the fully stirred ceramic-binder mixture is solidified and then pulverized into chips to facilitate injection into the hopper of the injection molding machine.

Meanwhile, the ceramic powder as a raw material may use various types of ceramics such as alumina (Al ₂ O ₃ ), bioceramic, zirconia, and titanium, but in the present invention, alumina ceramic powder (purity 85% to 99.7%) is used. In addition, it is possible to increase the intrinsic far-infrared radiation emitted by the ceramic by adding a large amount of far-infrared radiation. Also, as a dye, manganese (pink after sintering process) can be used as a ceramic-binder mixture ( 100%) may additionally add about 0.02% by weight to give color to the product.

In addition, the binder is melted during injection molding so that the ceramic in powder form can be normally introduced into the mold through the injection molding machine, and serves to agglomerate to maintain the shape of the molded ceramic nose support. Paraffin and PVA (polyvinyl acetate) are used in a weight ratio of 1: 1.

Referring to the injection process of the second process, the ceramic-binder mixture pulverized into chips after coagulation by the stirring process is pressed into a mold in which the nose pad part and the saddle part are integrally formed by a conventional injection machine. By maintaining the injection temperature of 500 ° C ~ 600 ° C the binder component of the ceramic-binder mixture of the solidified chip form is melted again to perform lubrication and smooth injection.

Referring to the plasticity process of the third process, the ceramic nose support, in which the nose pad part and the saddle part are integrally injection molded by the injection process, functions as a lubricating agent and a coagulant, and contains a large amount of a binder harmful to the human body. Since the component swells at a high temperature such as a sintering process or causes a crack in the product, the ceramic nose support is plastic in an electric furnace which is gradually heated to 300 ° C. for about 7 days to sinter the binder component. During the process, the binder component is slowly oxidized and completely removed, leaving only pure ceramic components in the molded nose pad.

In the fourth step, the burr removing process, when the ceramic nose support goes through the sintering process, the hardness greatly increases, so that it is difficult to be processed afterwards.

Looking at the sintering process of the fifth step, by sintering the ceramic nose support for 12 to 17 hours at 1670 ℃, the grain structure of the aggregated ceramic powder is recrystallized at a high temperature, the particles of the ceramic nose support with higher hardness It is determined as a structure, and unnecessary impurities and residual binder components are also completely sintered.

Looking at the polishing step as the sixth step, by vibrating the ceramic nose support with the vibrating polisher for about three days, such as abrasive particles, a ceramic nose support having a high surface is formed.

On the other hand, the ceramic eyeglass nose support manufactured as described above, as shown in Figures 3a and 3b, the nose pads 32a and 32b and the saddles 34a and 34b are integrally formed, and the mold shape of the mold According to the present invention, the present invention is not limited to the shape of the nose pads 30a and 30b.

Looking at the effect of the present invention configured as described above, the components of the nose support 30 is a pure ceramic, there is no corrosion and discoloration due to sweat of the wearer of the glasses, and the nose pad portion and the saddle portion is integrally molded and connected parts Since it does not have a foreign matter is not caught, by adding an additional bio-ceramic to increase the far-infrared radiation radiation, which is a unique wavelength emitted by the ceramic can be directly projected to the user of the glasses.

As described above, by providing a ceramic eyeglass nose support for injection molding the nose pad part and the saddle part integrally with ceramic and a method for manufacturing the same, the nose pad part and the saddle part are corroded-discolored due to sweat of the eyewear wearer. And fundamentally solve the problem of foreign matter in the connection part of nose pad and saddle, and can project far infrared ray, which is a unique wavelength emitted by ceramic, to the user of glasses, and manganese, which is an additive, The color is processed to give a deeper color effect.

Claims (4)

A stirring step of heating and stirring the ceramic powder 80% to 90% (weight ratio) and the binder 20% to 10% (weight ratio) at 500 ° C; A molding step of heating-pressing the stirred ceramic-binder mixture in the stirring step into a nose pad mold in which the nose pad part and the saddle part are integrally formed at 500 ° C. to 600 ° C., and injection molding into a ceramic nose pad; Plasticizing step of oxidizing-removing the binder component by gradually heating the ceramic nose support to 300 ° C; A burr removing step of removing burrs (flash) of ceramic nose pads; A sintering step of sintering the ceramic nose support at 1670 ° C. for 12 hours to 17 hours; A method for producing a ceramic eyeglass nose rest, characterized by comprising a polishing step of polishing a ceramic nose rest. The method of claim 1; The ceramic powder of the stirring process is alumina ceramic powder (purity 85% ~ 99.9%), the binder is a manufacturing method of ceramic eyeglass nose support, characterized in that the paraffin and PVA (polyvinyl acetate) in a weight ratio of 1: 1. The method of claim 1 or 2; A method for producing a ceramic eyeglass nose rest, characterized in that about 0.02% by weight of manganese is added to the ceramic-binder mixture (100%). A ceramic eyeglass noserest, which is produced by the method for producing a ceramic eyeglass noserest according to claim 1.