KR102325507B1 - Glass temperature zig - Google Patents

Abstract

The present invention relates to a jig for reinforcing glass, which minimizes a contact area between glass and a jig in a reinforcement process to reduce occurrence of cracks due to temperature deviation during cooling. According to the present invention, the jig fixing moving glass for the reinforcement process comprises: a frame having a front panel and a rear panel spaced apart from each other; and a side holder including side angles provided symmetrically on the left and right sides of the frame and having a plurality of side notches formed at predetermined intervals to accommodate edges of both ends of the glass, an inner side support and an outer side support provided at the inner and outer end parts of the side notch, respectively, and a side holder including a side jig wire connecting both the side supports to support both the side edges of the glass accommodated in the side notch. Accordingly, the left end, right end, lower end, and upper end of glass are supported by a left side jig wire, right side jig wire, lower jig wire, and upper jig wire made of the same or similar diameter, thereby providing a useful effect of preventing cracks from occurring due to thickness differences in a cooling process after the reinforcement process.

Description

Glass reinforcement jig {GLASS TEMPERATURE ZIG}

The present invention relates to a jig for reinforcing glass, and more particularly, to a jig for reinforcing glass capable of minimizing the contact portion between the glass and the jig in the reinforcing process, thereby reducing the occurrence of cracks due to temperature deviation during cooling.

As the size of the mobile market continues to expand, the technology of mobile terminals is also developing dramatically. As a representative example, a foldable smartphone is attracting attention.

Due to the nature of these foldable smartphones, OLED (Organic Light Emitting Diodes) panels are applied, and foldable smartphones to which such OLED panels are applied require ultra thin glass, a technology differentiated from existing glass. do.

Ultra-thin glass is a very thin protective glass that is attached to protect the screen of a smart device, and is approximately 30~100㎛ thick.

These ultra-thin glasses are strengthened through a chemical strengthening process.

The chemical strengthening process is strengthened by substituting sodium ions in ultra-thin glass and potassium ions in potassium nitrate solution by immersing them in a strengthening furnace containing potassium nitrate solution at 450°C for more than 3 hours.

At this time, the ultra-thin glass immersed in the strengthening furnace is fixed by a jig, which is implemented by a coil or a leaf spring provided in the frame.

However, since the above-described spring elastically presses the surface of the ultra-thin glass, there is a problem in that marks are generated on the pressurized surface.

On the other hand, in recent years, as a technology for fixing the surface of ultra-thin glass so as not to cause marks, Republic of Korea Utility Model Registration No. 20-0431657 (Registration Date: November 15, 2006) 'For thin glass used in the tempered glass manufacturing process' 'Jig' is disclosed.

As shown in FIG. 9, the above-mentioned prior art, as shown in FIG. 9, "in the jig for thin glass, is manufactured in the form of a pair of rectangular plates, and the assembly holes 31 and the fixing holes 32 are formed at regular intervals at positions corresponding to each other. formed and coupled between the support bracket 30 having a semi-circular mounting groove 33 formed in the center of the lower side thereof, and the assembly hole 31 of the support bracket 30, the seating groove 11 having a 'V' cross-section ) and a bar-shaped slot bar 10 formed at regular intervals; It is coupled between the fixing holes 32 of the support bracket 30 , and is formed in a circular rod shape and is composed of a fixing bar 20 formed to support the coupling of the support bracket 30 , and between the slot bars 10 . A jig for thin glass glass used in the tempered glass manufacturing process, characterized in that it is used in the glass tempering process by sequentially inserting the thin plate glass 40.” is the gist of the technology.

However, in the prior art described above, in the subsequent cooling and fixing process after the strengthening process, due to the difference in the cooling temperature caused by the difference in thickness between the ultra-thin glass having a thickness of 30 to 100 μm and the slot bar having a much thicker thickness than this, the ultra-thin glass There was a problem in that cracks occurred in the area in contact with.

That is, the slot bar is made of stainless steel having a predetermined thickness for use in the strengthening process of 450°C or higher. , since the thick slot bar cools slowly, cracks occur in the edge portion of the ultra-thin glass that comes into contact with the jig due to the variation in the cooling temperature.

(0001) Republic of Korea Utility Model Registration No. 20-0431657 (Registration Date: November 15, 2006) (0002) Republic of Korea Patent No. 10-1382224 (Registration date April 01, 2014) (0003) Republic of Korea Patent Registration No. 10-1985967 (Registration date May 29, 2019) (0004) Republic of Korea Patent Publication No. 10-2011-0135573 (published on December 19, 2011)

The present invention has been devised to solve the problems of the prior art as described above, and an object of the present invention is to provide a jig for reinforcing glass that can prevent cracks from occurring due to the difference in thickness between the glass and the jig in the subsequent cooling process after the strengthening process. it's about

In order to achieve the above object, the present invention provides a jig for fixing moving glass for a strengthening process, comprising: a frame provided with a front panel and a rear panel at a predetermined distance; a link bar connecting four corners of the front panel and the rear panel back and forth; and side angles provided symmetrically on the left and right sides of the frame connected by the link bar, a plurality of side notches formed at a predetermined interval to accommodate both side edge edges of the glass, and provided perpendicular to the inner and outer ends of the side notches, respectively. A side holder having an inner side support and an outer side support, and a side jig wire for connecting the vertically provided inner side support and the outer side support to support both end edges of the glass accommodated in the side notch; Inner locking grooves are formed at both side ends of the inner side support to guide the hooking of the side jig wire, and outer locking grooves are formed at both side ends of the outer side support to guide the hooking of the side jig wire, the side jig The technical idea is to connect the wire while being wound in the inner locking groove of the inner side support and then wound around the outer locking groove of the outer side support.

In this case, the side jig wire includes a left side jig wire and a right side jig wire, the outer side support includes a left outer side support and a right outer side support, and the left side jig wire is a left of the left outer side support. The twisted shape is maintained in the left outer side support while being wound at least once in the outer engaging groove, and the right side jig wire is wound at least once in the light outer engaging groove of the light outer side support in the light outer side support. Twisted shape can be maintained.

The present invention relates to a lower angle in which a plurality of lower notch are formed at predetermined intervals to accommodate the lower edge of the glass supported by the side holder, an inner and outer lower support respectively provided at inner and outer ends of the lower notch, and the lower both sides of the lower notch It may further include a lower holder having a lower jig wire for supporting the lower edge of the glass accommodated in the lower notch by connecting the support.

At this time, an inner lower engaging groove is formed at both side ends of the inner lower support to guide the engaging of the lower jig wire, and both side ends of the outer lower support are formed with an outer lower engaging groove to guide the engaging of the lower jig wire. can be

The present invention provides an upper angle in which a plurality of upper notches are formed at predetermined intervals to accommodate the upper edge of the glass supported by the lower holder, an inner upper support and an outer upper support provided at inner and outer ends of the upper notch, respectively, and the upper both sides It may further include an upper holder having an upper jig wire for supporting the lower end of the glass by connecting the support.

At this time, inner upper engaging grooves are formed on both side ends of the inner upper support to guide the engaging of the upper jig wire, and outer upper engaging grooves are formed at both ends of the outer upper support to guide the engaging of the upper jig wire. can be

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In addition, the glass may include ultra-thin glass.

According to the present invention implemented as the above-described solution, the left end, right end, lower end and upper end of the glass used in the mobile terminal, particularly the ultra-thin glass, have the same or similar diameter left-side jig wire, right-side jig wire, Since it is supported by the lower jig wire and the upper jig wire, there is a very useful effect that can prevent cracks from occurring due to the thickness difference in the subsequent cooling process after the strengthening process.

1 is a perspective view showing the overall form according to an embodiment of the present invention.
FIG. 2 is a perspective view taken from another direction of FIG. 1 ;
FIG. 3 is a cross-sectional view taken along line AA of FIG. 1 .
4 is a plan view according to an embodiment of the present invention;
5 is an enlarged view showing an enlarged portion 'B' of FIG.
Fig. 6 is a plan view showing the plane of Fig. 5;
7 is an enlarged view showing an enlarged portion 'C' of FIG.
8 is an enlarged view showing an enlarged portion 'D' of FIG.
9 is an elevation view showing the prior art.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those of ordinary skill in the art.

Accordingly, the shape of the components expressed in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same member is shown with the same reference numerals in some cases. In addition, detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

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

The jig for reinforcing ultra-thin glass according to an embodiment of the present invention is provided on both left and right sides of the frame 100 and the frame 100 to support both end edges of the ultra-thin glass (UTG), the frame 100. A lower holder 400 provided under the to support the lower edge of the ultra-thin glass (UTG), and an upper holder 500 provided on the upper portion of the frame 100 to support the upper edge of the ultra-thin glass (UTG). include

The frame 100 is a configuration constituting the framework of the present invention.

Referring to FIGS. 1 and 2 , the frame 100 is a link connecting the four corners of the front panel 110 and the rear panel 120, the front panel 110 and the rear panel 120 spaced apart at a predetermined distance, back and forth. It includes a bar 130 .

The side holders are provided symmetrically on the left and right sides of the frame 100 to support both end edges of the ultra-thin glass (UTG).

1 and 2 , the side holder includes a left side holder 200 provided on the left side of the frame 100 and a right side holder 300 provided on the right side of the frame 100 .

3 and 4, the left side holder 200 and the right side holder 300 form a symmetrical structure.

Optionally, the left side holder 200 and the right side holder 300 may be formed in plurality to stably support both side ends of the ultra-thin glass (UTG).

3 and 5, the left side holder 200 is a left side angle 210, the left side notch 211 is formed at a predetermined interval along the front-rear direction, the left side notch 211 is perpendicular to the inner end of the 211. By connecting the provided left inner side support 220, the left outer side support 230 provided perpendicular to the outer end of the left side notch 211, the left inner side support 220 and the left outer side support 230, It includes a left-side jig wire 240 supporting both end edges of ultra-thin glass (UTG).

The left-side angle 210 is formed in a '┏' cross-section as shown in FIG. 3, and left-side notch 211 of a '<' shape is formed at the same interval along the front-rear direction on one side thereof.

The left inner side support 220 is formed by bending the right end of the left side notch 211 , that is, the inner end toward the inside of the frame 100 , upward. Left inner locking grooves 221 are formed at both side ends of the left inner side support 220 to guide the locking of the left side jig wire 240 to be described later.

The left outer side support 230 is formed by bending the left end of the left side notch 211, that is, the outer end of the frame 100 toward the outside, to the upper side. Left outer locking grooves 231 are formed at both side ends of the left outer side support 230 to guide the locking of the left side jig wire 240 .

The left-side jig wire 240 has a diameter of 20-100 μm that is the same as or similar to the thickness of the ultra-thin glass (UTG), and maintains the same or similar cooling rate as the ultra-thin glass (UTG) in the subsequent cooling process after the strengthening process. do.

Referring to FIG. 5 , the left side jig wire 240 may be connected to the left outer side support 230 after being caught on the left inner side support 220 . The left side jig wire 240 is wound at least once on the left outer side support 230 while maintaining the twisted shape in the left outer side support 230, so the edge corresponding to the left end of the ultra-thin glass (UTG) part can be supported.

Optionally, the left-side jig wire 240 may be made of stainless steel having a predetermined elasticity.

Again, referring to FIGS. 3 and 5 , the right side holder 300 is a right side angle 310 formed at predetermined intervals along the front and rear directions of the right side notch 311 and the inner end of the right side notch 311 . The light inner side support 320 provided vertically, the light outer side support 330 provided vertically at the outer end of the light side notch 311, the light inner side support 320 and the light outer side support 330 are It includes a light-side jig wire 340 that connects and supports both side edge edges of ultra-thin glass (UTG).

The right side angle 310 is formed in a '┓' cross-section as shown in FIG. 3, and on one side of the right side angle 310, a '>' shaped right side notch 311 is formed at equal intervals along the front-rear direction.

The right inner side support 320 is formed by bending the left end of the right side notch 311 , that is, the inner end facing the inside of the frame 100 to the upper side. Light inner locking grooves 321 are formed at both side ends of the light inner side support 320 to guide the locking of the light side jig wire 340, which will be described later.

The light outer side support 330 is formed by bending the right end of the right side notch 311 , that is, the outer end of the frame 100 toward the outside, upward. Light outer locking grooves 331 are formed at both ends of the light outer side support 330 to guide the locking of the light side jig wire 340 .

The lightside jig wire 340 has a diameter of 20-100 μm that is the same as or similar to the thickness of the ultra-thin glass (UTG), and maintains a cooling rate that is the same as or similar to that of the ultra-thin glass (UTG) in the subsequent cooling process after the strengthening process. do.

Referring to FIG. 5 , the light side jig wire 340 may be connected to the light inner side support 320 while being wound around the light outer side support 330 . The light side jig wire 340 is wound at least once on the light outer side support 330 while maintaining the twisted shape in the light outer side support 330, so that the edge corresponding to the right end corner of the ultra-thin glass (UTG) part can be supported.

Optionally, the light side jig wire 340 may be made of stainless steel having a predetermined elasticity.

The lower holder 400 is provided under the frame 100 and functions to support the lower edge of the ultra-thin glass (UTG).

1 and 2 , the lower holder 400 may be formed in plurality to stably support the lower end of the ultra-thin glass (UTG).

Referring to FIGS. 3 and 7 , the lower holder 400 includes a lower angle 410 in which a lower notch 411 is formed at predetermined intervals along the front-rear direction, and an inner lower support provided horizontally at the inner end of the lower notch 411 . 420, the outer lower support 430 provided horizontally at the outer end of the lower notch 411, the inner lower support 420 and the outer lower support 430 are connected to support the lower end of the ultra-thin glass (UTG) It includes a lower jig wire (440).

The lower angle 410 is formed in a '┗' or '┛' section as shown in FIG. 3 , and on one side thereof, a '∨'-shaped lower notch 411 is formed at equal intervals along the front-rear direction.

The inner lower support 420 is formed by horizontally bending the upper end of the lower notch 411 , that is, the inner end facing the inside of the frame 100 . At both side ends of the inner lower support 420 , inner lower engaging grooves 421 are formed to guide the engaging of the lower jig wire 440 .

The outer lower support 430 is formed by horizontally bending the lower end of the lower notch 411 , that is, the inner end of the frame 100 facing outward. The outer lower engaging grooves 431 are formed at both side ends of the outer lower support 430 to guide the engaging of the lower jig wire 440 .

The lower jig wire 440 has a diameter of 20-100 μm that is the same as or similar to the thickness of the ultra-thin glass (UTG), and maintains the same or similar cooling rate as that of the ultra-thin glass (UTG) in the subsequent cooling process after the strengthening process. .

The lower jig wire 440 is hung on the inner lower support 420 and wound around the outer lower support 430 and connected to support the edge portion corresponding to the lower edge of the ultra-thin glass (UTG).

Optionally, the lower jig wire 440 may be made of stainless steel having a predetermined elasticity.

The upper holder 500 is provided under the frame 100 and functions to support the upper edge of the ultra-thin glass (UTG).

1 and 2 , the upper holder 500 may be formed in plurality to stably support the upper end of the ultra-thin glass (UTG).

3 and 8 , the upper holder 500 includes an upper angle 510 in which an upper notch 511 is formed at predetermined intervals along the front-rear direction, and an inner upper support provided horizontally at the inner end of the upper notch 511 . 520, an outer upper support 530 provided horizontally at the outer end of the upper notch 511, and an inner upper support 520 and an outer upper support 530 are connected to support the upper end of the ultra-thin glass (UTG) It includes an upper jig wire (540).

The upper angle 510 is formed in a '┓' cross-section as shown in FIG. 3, and a '∧'-shaped left upper notch 511 is formed at equal intervals along the front-rear direction on one side of the frame 100. It is rotatably connected up and down with a rotating shaft.

The inner upper support 520 is formed by horizontally bending the lower end of the upper notch 511 , that is, the inner end toward the inside of the frame 100 . At both ends of the inner upper support 520 , inner upper engaging grooves 521 are formed to guide the engaging of the upper jig wire 540 .

The outer upper support 530 is formed by horizontally bending the upper end of the upper notch 511 , that is, the outer end of the frame 100 facing outward. At both ends of the outer upper support 530 , outer upper engaging grooves 531 are formed to guide the engaging of the upper jig wire 540 .

The upper jig wire 540 has a diameter of 20-100 μm that is the same as or similar to the thickness of the ultra-thin glass (UTG), and maintains the same or similar cooling rate as the ultra-thin glass (UTG) in the subsequent cooling process after the strengthening process. .

The upper jig wire 540 is hung on the inner upper support 520 and wound around the outer upper support 530 to support the edge portion corresponding to the upper edge of the ultra-thin glass (UTG).

Optionally, the upper jig wire 540 may be made of stainless steel having a predetermined elasticity.

Accordingly, the left end, the right end, the lower end and the upper end of the ultra-thin glass (UTG) are the left-side jig wire 240, the right-side jig wire 340, the lower jig wire 440 and the upper jig having the same or similar diameter. Since it is supported by the wire 540, there is an advantage in that it is possible to prevent cracks from occurring due to the thickness difference in the cooling process following the strengthening process.

The embodiments of the present invention described above are merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and equivalent other embodiments are possible therefrom.

Therefore, it will be well understood that the present invention is not limited to the form mentioned in the above detailed description.

Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. Moreover, it is to be understood that the present invention covers all modifications, equivalents and substitutions falling within the spirit and scope of the invention as defined by the appended claims.

100: frame 110: front panel
120: rear panel 200: left side holder
210: left side angle 220: left inner side support
230: left outer side support 240: left side jig wire
300: light side holder 310: right side angle
320: light inner side support 330: light outer side support
340: light side jig wire 400: lower holder
410: lower angle 420: inner lower support
430: outer low support 440: lower jig wire
500: upper holder 510: upper angle
520: inner upper support 530: outer upper support
540: upper zigwire UTG: ultra-thin glass

Claims (6)

In the jig for fixing the moving glass for the strengthening process,
a frame provided with a front panel and a rear panel spaced apart from each other;
a link bar connecting four corners of the front panel and the rear panel back and forth; and
Side angles provided symmetrically on the left and right sides of the frame connected by the link bar, a plurality of side notches formed at predetermined intervals to accommodate both side edge edges of the glass, and an inner provided perpendicular to the inner and outer ends of the side notches, respectively A side support and an outer side support, a side holder having a side jig wire that connects the vertically provided inner side support and the outer side support to support both end edges of the glass accommodated in the side notch;
An inner locking groove is formed at both side ends of the inner side support to guide the hooking of the side jig wire, and an outer locking groove is formed at both side ends of the outer side support to guide the hooking of the side jig wire,
The side jig wire is a glass strengthening jig, characterized in that after being caught in the inner locking groove of the inner side support, the wire is wound around the outer locking groove of the outer side support. The method according to claim 1,
The side jig wire includes a left-side jig wire and a right-side jig wire,
The outer side support includes a left outer side support and a right outer side support,
The left side jig wire maintains a twisted shape in the left outer side support while being wound at least once in the left outer locking groove of the left outer side support,
The light side jig wire is a glass reinforcement jig, characterized in that it maintains a twisted shape in the light outer side support while being wound at least once in the light outer catching groove of the light outer side support. The method according to claim 1,
A lower angle in which a plurality of lower notches are formed at predetermined intervals to accommodate the lower edge of the glass supported by the side holder, an inner and outer lower support provided at inner and outer ends of the lower notch, respectively, and the both sides of the lower support are connected The jig for glass strengthening, characterized in that it further comprises a lower holder having a lower jig wire for supporting the lower edge of the glass accommodated in the lower notch. 4. The method according to claim 3,
At both ends of the inner lower support, inner lower engaging grooves are formed to guide the engaging of the lower jig wire,
A jig for strengthening glass, characterized in that at both ends of the outer lower support, outer lower engaging grooves are formed to guide the engaging of the lower jig wire. 4. The method according to claim 3,
An upper angle in which a plurality of upper notches are formed at predetermined intervals to accommodate the upper edge of the glass supported by the lower holder, an inner upper support and an outer upper support provided at the inner and outer ends of the upper notch, respectively, and the upper supports on both sides are connected The jig for glass strengthening, characterized in that it further comprises an upper holder having an upper jig wire to support the lower end of the glass. 6. The method of claim 5,
At both side ends of the inner upper support, inner upper locking grooves are formed to guide the hooking of the upper jig wire,
An outer upper engaging groove is formed at both side ends of the outer upper support to guide the engaging of the upper jig wire,
The side jig wire is a glass strengthening jig, characterized in that made of the same or similar diameter as the thickness of the glass.

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