WO2015034218A1 - Vitre de protection de panneau, terminal mobile qui en est équipé, et procédé de fabrication de la vitre de protection de panneau - Google Patents
Vitre de protection de panneau, terminal mobile qui en est équipé, et procédé de fabrication de la vitre de protection de panneau Download PDFInfo
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- WO2015034218A1 WO2015034218A1 PCT/KR2014/008110 KR2014008110W WO2015034218A1 WO 2015034218 A1 WO2015034218 A1 WO 2015034218A1 KR 2014008110 W KR2014008110 W KR 2014008110W WO 2015034218 A1 WO2015034218 A1 WO 2015034218A1
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- glass
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- pattern layer
- window
- curing
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/3888—Arrangements for carrying or protecting transceivers
Definitions
- the present invention relates to a panel protection window and a portable terminal including the same.
- the present invention relates to a method for manufacturing a window for panel protection.
- the display of the portable terminal substantially forms the appearance of the portable terminal. Therefore, it is necessary to prevent breakage of the display due to dropping during use or impact with the outside.
- a window can be used to protect this display. That is, a window may be used to protect the LCD or LED display panel. Of course, various types of windows may be used to protect the touch screen and the like provided on the LCD or LED display panel.
- a panel protection window W of the related art will be described in detail with reference to FIG. 1.
- the screen printing layer 1 may be formed, and the deposition layer 20 may be formed on the screen printing layer 1.
- a UV pattern layer 3 may be formed on the deposition layer 2, and an optical base film 4 may be provided on the UV pattern layer 3.
- An adhesive layer 5 is provided on the optical earth film 4, and the optical earth film 4 is adhered to the tempered glass 6 through the adhesive layer 5.
- the panel protection window W is sequentially formed of tempered glass 6, adhesive layer 5, optical earth film 4, UV pattern layer 3, deposition layer 2 and screen printing layer 1 ) Can be said to be laminated. That is, the panel protection window W has at least six layers.
- the panel protection window W has many layers, there is a problem that the manufacturing process is very complicated and not easy to manufacture. In addition, there is a limit in reducing the thickness of the overall display or the thickness of the portable terminal to which such a window is applied due to the problem of increasing the thickness of the window.
- the UV pattern layer 3 is provided for the design of the window. That is, by forming a variety of patterns in such a UV pattern layer it is possible to design a beautiful display. For example, it is possible to form metallic blue color and to implement a hairline-like design through the UV pattern layer. Thus, the front side of the display deviates from typical colors and designs, such as black or white, to enable various colors and designs.
- characters, figures, and the like may be expressed through the screen printed layer 1.
- various layers are provided between the UV pattern layer 3 and the tempered glass 6.
- various layers are also provided between the screen printing layer 1 and the tempered glass 6. That is, a gap of considerable distance may be formed between the UV pattern layer 3 or the screen printing layer 1 and the tempered glass 6.
- the gap can be visually recognized from the outside, thereby degrading product reliability.
- a problem may occur that the impact resistance is lowered due to the optical earth film (4). That is, the external force applied to the tempered glass 6 may not be absorbed through the optical earth film 4. This can be said that most of the external force is absorbed by the tempered glass 6 causes a decrease in impact resistance.
- the window W may be manufactured through the following process.
- a very thin hard coating layer may be formed on the optical earth film 4 for preventing scattering. Then, the UV pattern layer 3 having a pattern formed on the lower portion of the optical earth film 4 is adhered. The deposition layer 2 corresponding to the edge of the display is formed below the UV pattern layer 3, and then the printing layer 1 is formed.
- the optical earth film 4, the UV pattern layer 3, the deposition layer 2 and the printing layer 1 may be manufactured in the form of one sheet. After the adhesive such as OCA or PSA is adhered on the sheet, the sheet is adhered to the tempered glass 6. That is, through the lamination process, the sheet may be laminated with the tempered glass 6.
- the conventional UV pattern layer 3 was generally formed through a resin having a single curing property, that is, a UV resin having only UV curable resins. That is, it is common to apply the UV resin to the mold on which the pattern is formed to form the UV pattern layer 3 through UV irradiation.
- the UV pattern layer 3 was generally used by adhering to the optical earth film 5 through OCA, PSA, or the like, or directly adhering to the optical earth film 5.
- the present invention basically aims to solve the aforementioned problem of the conventional panel protection window.
- the UV pattern layer 30 or the screen printing layer 10 can be in close contact with the glass as much as possible to reduce the thickness, and thus a panel protection window that can effectively prevent the projection, diffusion and reflection of light To provide.
- a portable terminal including the same and a method of manufacturing the window.
- a portable terminal including the same and a method for manufacturing the window can significantly reduce the manufacturing failure rate, and improve the reliability.
- the UV pattern layer can be formed by directly adhering to the glass, to provide a UV resin that can ensure a reliable adhesive force.
- the coating step of applying a UV resin directly adhered to the lower surface of the glass A pattern layer forming step of forming a UV pattern layer through a mold having a turn formed thereon; Curing the UV pattern layer so that the UV pattern layer is directly adhered to the bottom surface of the glass; And there may be provided a method for manufacturing a panel protection window comprising a separation step of separating the glass and the adhered UV pattern layer from the mold.
- the curing step may include a UV curing step through the UV irradiation.
- the curing step may include a thermal curing step through heating.
- the UV curing step and the thermal curing step may be performed sequentially. In addition, there may be a predetermined interval between the UV curing step and the thermal curing step.
- the UV resin is a mixture of a UV curable resin and a thermosetting resin, the weight percent of the UV curable resin is greater than the weight percent of the thermosetting resin, the thermal curing step may be performed after the UV curing step.
- the bottom surface of the glass may be surface-treated to have a different surface roughness from the top surface of the glass.
- the pattern layer forming step may include a pressing step of pressing the glass and the mold to be in close contact with each other through a roller. It is preferable that the roller directly presses the mold. This minimizes the damage to the glass.
- the pattern layer forming step may include a cleaning step of vacuum suctioning and removing the UV resin overflowed during or after the pressing step.
- the separation step may include a heat curing step through heating.
- This thermal curing step can be carried out through a drying step.
- the coating step it is preferable to apply a UV resin to the mold formed pattern.
- the UV resin is preferably in close contact with the glass by rolling on the mold.
- a display panel, a touch screen pad provided on the panel, and a method of manufacturing a window provided on the pad to protect the panel and the pad A coating step of applying a UV resin directly adhered to the lower surface of the class; A pattern layer forming step of forming a UV pattern layer through a mold having a turn formed thereon; UV curing step of curing the UV resin by irradiating the UV pattern layer to the UV pattern layer to directly adhere to the UV pattern layer; A separation step of separating the glass and the adhered UV pattern layer from the mold; And after the separation step, there may be provided a method for manufacturing a panel protection window comprising a heat curing step of curing the UV resin to heat the UV pattern layer to improve the adhesion of the UV pattern layer.
- the UV resin is a mixture of a UV curable resin and a thermosetting resin, it is preferable that the weight percent of the UV curable resin is greater than the weight percent of the thermosetting resin.
- a surface processing step of processing so that the surface roughness and the glass upper surface may be performed.
- the pattern layer forming step may include a pressing step of pressing the glass and the mold to be in close contact with each other through a roller.
- the pattern layer forming step may include a cleaning step of vacuum suctioning and removing the UV resin overflowed during or after the pressing step. This cleaning step may prevent the formation of a UV pattern layer in a specific area of the glass.
- the UV pattern layer is preferably formed by curing and adhering to each glass. Through this, when the shape or structure of the glass is changed or the pattern is changed, it is possible to apply elastically only by deformation of the mold.
- the glass In order to achieve the above object, according to an embodiment of the present invention, the glass; A UV pattern layer formed directly on the bottom surface of the glass; A deposition layer formed on a bottom surface of the UV pattern layer; And it can provide a panel protection window comprising a printed layer formed on the lower surface of the deposition layer.
- the adhesion means such as OCA or the like, or the earth film for diffusing and reflecting the light between the glass and the UV pattern layer. Therefore, the thickness of the window can be significantly reduced, and the manufacturing process can be simplified, manufacturing is easy, and manufacturing cost can be reduced. Therefore, it becomes possible to manufacture a window with a remarkably low defective rate. This means that a significant effect on the premise of mass-produced windows.
- the UV pattern layer may be formed by curing the UV resin directly applied to the lower surface of the glass and directly adhering to the lower surface of the glass. That is, it is possible to form a UV pattern after applying the UV resin directly to the glass.
- the lower surface of the glass is directly adhered to the applied UV resin. That is, the UV pattern layer may be formed by directly attaching the bottom surface of the glass on the surface of the applied UV resin and then curing the UV resin to directly adhere to the bottom surface of the glass.
- the pattern of the UV pattern layer may be formed by compressing the UV resin between the glass and the mold on which the pattern is formed. That is, a pattern is formed by interposing a UV resin between the glass and the mold, and at the same time, the UV pattern layer may directly adhere to the glass.
- the application of the UV resin is important for quantitative application. This is because a UV pattern layer of uniform thickness should be formed substantially over the entire lower surface of the glass. In addition, the UV pattern layer formation needs to be excluded from a portion of the bottom surface of the glass (for example, the through hole). Therefore, the UV resin is preferably applied to the mold, not the glass. This is because it is not easy to apply by avoiding a portion such as the through hole in the application process of the UV resin.
- the glass may include a window region and a bezel region, and the UV pattern layer may be formed on the window region and the bezel region. Therefore, it may be possible to implement a beautiful design for the window and the entire display.
- the glass includes a through region such as a through hole, and the formation of the UV pattern layer in the through region is preferably excluded.
- the through hole may be provided for components such as a button, a microphone, and a speaker provided in the display.
- the UV resin preferably comprises at least two resins of different curing properties. These differences in curing properties allow for different curing mechanisms to be utilized. In addition, it becomes possible to cure the UV pattern layer through different curing mechanisms at time intervals.
- the UV resin may be a mixture of a UV curable resin and a thermosetting resin.
- the UV pattern layer can be more firmly adhered to the glass through different curing mechanisms. This is because different tissues, rather than a single tissue, are produced through different curing mechanisms, and these tissues can synergize with each other to further improve adhesion.
- the bottom surface of the glass may be surface processed by plasma discharge treatment or corona discharge treatment to improve the adhesive force of the UV resin.
- plasma discharge treatment or corona discharge treatment it is possible to artificially generate very fine surface roughness, thereby further improving the adhesive force.
- the adhesion surface area between the glass and the UV resin can be increased due to the surface roughness, and the adhesion surface can be finely formed in a wide variety of directions.
- Such surface roughness may synergize with the different curing mechanisms described above to further improve adhesive force.
- a portable terminal includes a display panel, a touch screen pad provided on the panel, and a window provided on the pad to protect the panel and the pad.
- the window of claim 1 wherein the window comprises: a glass substantially forming an outer surface of the portable terminal; A UV pattern layer formed directly on the bottom surface of the glass; A deposition layer formed on a bottom surface of the UV pattern layer; And it can provide a portable terminal including a printed layer formed on the lower surface of the deposition layer.
- the UV pattern layer is preferably adhered directly to the glass by curing the applied UV resin.
- the UV pattern layer may be directly adhered to the glass by UV curing and thermal curing of the applied UV resin.
- the UV resin preferably comprises at least two resins of different curing properties.
- the curing properties include thermosetting properties and UV curing properties
- the thermal curing may be performed after performing the UV curing. Therefore, it is preferable that the said UV resin mixes the UV curable resin which has UV hardening property, and the thermosetting resin which has thermosetting property.
- the surface is processed so that the surface roughness is different from the top surface of the glass.
- the glass In order to achieve the above object, according to an embodiment of the present invention, the glass; And a UV pattern layer formed directly on the bottom surface of the glass, wherein the UV pattern layer is formed by directly applying the UV resin to the bottom surface of the glass by UV curing and thermal curing.
- a portable terminal including the same can be provided.
- the glass In order to achieve the above object, according to an embodiment of the present invention, the glass; And a UV pattern layer adhered directly to the bottom surface of the glass, wherein the UV pattern layer formation and the UV pattern layer adhesion are performed at substantially the same time, and the UV pattern layer is formed by sequentially applying UV curing It is possible to provide a window for protecting a panel and a portable terminal including the same, which are formed by being directly adhered to the bottom surface of the glass by thermal curing.
- UV curable resin in the UV resin for forming the UV pattern layer of the panel protection window, UV curable resin; And it is possible to provide a UV resin for forming a UV pattern layer of the window for panel protection comprising a thermosetting resin having a weight percent less than the UV curable resin.
- the UV curable resin may include at least two UV curable resins different from each other.
- the panel protection window includes tempered glass, and the UV pattern layer is preferably formed by directly adhering to the tempered glass.
- the UV resin includes an initiator for initiating the polymerization reaction of the UV curable resin, wherein the weight% of the UV curable resin is 80 to 90 and the weight% of the thermosetting resin is preferably 5 to 10.
- the weight percent of the initiator is preferably 5 to 10.
- UV curable resin In order to achieve the above object, according to an embodiment of the present invention, UV curable resin; An initiator for initiating the polymerization reaction of the UV curable resin; And it comprises a thermosetting resin having a weight percent less than the UV curable resin, it can provide a UV resin for forming a UV pattern layer directly adhered to the tempered glass of the panel protective window through UV curing and heat curing. .
- the UV pattern layer 30 or the screen printing layer 10 can be in close contact with the glass as much as possible to reduce the thickness, and thus a panel protection window that can effectively prevent the projection, diffusion and reflection of light Can be provided.
- the window for panel protection which is easy to manufacture and handle can be provided. Through this, it is possible to provide a portable terminal that is easy to manufacture.
- the UV pattern layer can be formed by directly adhering to the glass, it is possible to provide a UV resin that can ensure a reliable adhesive force.
- FIG. 1 is a cross-sectional view of a conventional panel protection window
- FIG. 2 is a sectional view of a window for panel protection according to an embodiment of the present invention.
- FIG. 3 is a cross-sectional view showing an example of the appearance of forming a UV pattern layer through a mold and sticking to the glass;
- FIG. 4 is a sectional view showing another example of FIG. 3;
- FIG. 5 is a plan view showing an example of the glass shown in FIG. 4;
- FIG. 6 is a flowchart of a method for manufacturing a panel protection window according to an embodiment of the present invention.
- Figure 7 is a table showing the weight percent of the components of the UV resin according to an embodiment of the present invention.
- the panel protection window 100 may include a glass 60.
- the glass may include tempered glass which itself has impact resistance or heat resistance.
- the glass may substantially form the outer surface of the display.
- the display may form part of the outer surface of the mobile terminal or other devices. Therefore, since the panel protection window 100 forms the outer surface of the devices, it is necessary to provide a serious design.
- the UV pattern layer 30 is directly formed on the bottom surface of the glass 60. That is, it is preferable that the UV pattern layer 30 is directly formed on the glass 60 through the self-curing of the UV resin, excluding the adhesive such as PSA or OCA.
- the deposition layer 20 and the print layer 10 may be formed under the UV pattern layer 30.
- the UV pattern layer 30 may be formed by directly curing the UV resin directly applied to the bottom surface of the glass 60 to adhere to the bottom surface of the glass. However, it may be necessary to exclude the UV pattern layer 30 in some regions of the bottom surface of the glass 60 as described below. Therefore, in some cases, it may not be desirable to apply the UV resin directly to the glass 60.
- the UV pattern layer 30 may be directly adhered to the bottom surface of the glass after the UV resin is hardened by direct contact with the bottom surface of the glass on the surface of the applied UV resin.
- the UV resin may be applied directly to the glass 60 or to another object. In any case, however, the UV pattern layer 30 is directly adhered to the bottom surface of the glass 60.
- a mold may be required to form a pattern of the UV pattern layer 30. That is, a predetermined pattern is formed in the mold, and the pattern is displayed on the UV pattern layer 30.
- the glass 60 may be in close contact with the mold. That is, the coated UV resin may be interposed between the glass 60 and the mold 200. The UV resin is cured to form the UV pattern layer 30. Therefore, as the glass 60 and the mold 200 are in close contact, the UV resin is in close contact with the glass 60 and the other surface is in close contact with the mold.
- the pattern is engraved on one surface 210 of the mold. Therefore, as the UV resin before curing is brought into close contact with one surface 210 of the mold in which the pattern is engraved, the pattern may be projected onto the UV resin as it is.
- Such close contact may be performed through rolling through the roller 400. That is, compression may be performed through rolling.
- the glass 60 may be introduced into the mold through a transfer means 300 such as a picker.
- the glass 60 may be supported through the picker.
- the roller 400 is to press the mold 200. Therefore, the mold 200, the UV resin, and the glass 60 may be more closely contacted between the roller 400 and the picker, and the pattern of the mold 200 may be projected onto the UV resin. That is, the pattern of the UV pattern layer can be said that the UV resin is formed by pressing between the glass and the mold (200).
- UV resin may be applied directly to the glass 60 to form a UV pattern layer.
- the mold and the glass may be positioned in the form inverted in FIG. 3. In this case, the bottom of the glass will be located at the top. Therefore, UV resin is applied to the lower surface of the glass, and the mold 200 may move to cover the glass. Thereafter, the UV pattern layer 20 may be formed in the same form through rolling.
- various through areas 64 may be formed in the glass 60.
- the UV resin since the UV resin may be applied to the through regions 63 and 64, it may be preferable to apply the UV resin to the mold 200.
- the glass 60 may include a window area 61 and a bezel area 62.
- the window area 61 may be substantially an area where a screen is displayed, and the bezel area 62 may be an area that forms at least a part of an outer portion of the window area 61.
- the UV pattern layer 30 is preferably formed with respect to the window area 61 and the bezel area. That is, it is preferable to be formed substantially in the entire area of the glass 60. This is because the impact resistance of the glass can be improved through the UV pattern layer 30. That is, since the UV pattern layer 30 is a resin material interposed between the glass and the touch panel, the UV pattern layer 30 has its own impact resistance and shock absorption. Therefore, the UV pattern layer 30 is preferably formed in substantially the entire glass 60 to improve the characteristics as well as mechanical properties.
- the glass 60 may be provided with a through area to provide a through area 63 for a button, a through area 64 for a speaker, or the like. Therefore, it is preferable that the formation of the UV pattern layer 30 is excluded in the through regions 63 and 64.
- the UV pattern layer 30 may be formed by directly adhering to the bottom surface of the glass 60. Therefore, the improvement of adhesive force becomes very important.
- the UV resin in the molten state adheres to the glass 60 surface as it is cured. That is, it can be said that the UV resin is cured to form the UV pattern layer 30 and adheres to the surface of the glass 60 at the same time.
- the UV resin is preferably a resin having UV curing properties. That is, the resin is preferably cured through UV irradiation.
- a urethane and acrylic UV resin may be used.
- the UV resin may be mixed with at least two different UV curable resins.
- the urethane acrylate oligomer and the acrylate monomer may be included. Therefore, the resin of different tissues can be cured with a slight difference by UV irradiation. That is, by mixing different materials with each other it is possible to further enhance the adhesive force through the curing.
- the UV resin may include an initiator for initiating the polymerization reaction of the UV curable resin.
- the UV resin may be a mixture of a plurality of resins having different curing properties as well as different materials. That is, the resin of UV curing property and resin of thermosetting property may be mixed.
- the thermosetting resin may be an epoxy resin. Therefore, it is possible to vary the curing time from each other due to the difference in curing properties.
- thermosetting resin For example, after curing the UV curable resin through UV irradiation, it is possible to cure the thermosetting resin through heating. Therefore, due to the difference in the microstructure due to the difference in the material itself, due to the difference in curing time, both of them exert a synergistic effect to increase the adhesive force to each other.
- the weight percent of the UV curable resin is 80 or more and the weight percent of the thermosetting resin has an appropriate value of about 5 to 10. That is, in consideration of the prevention of deformation of the glass and the increase of the adhesive strength, it was found that the weight% of the thermosetting resin was 10 or less. It has also been found that the UV curable resins also preferably include at least two resins.
- the surface of the glass needs to be processed to increase the physical adhesion. That is, it may be necessary to surface-treat the lower surface of the glass in order to increase the adhesion area.
- fine roughness may be formed on the surface of the glass through plasma discharge treatment or corona discharge treatment.
- the molten UV resin may be drawn on such glass surface and cured. That is, the adhesion area is increased, and the direction in which the adhesion is performed may be formed in various ways. Therefore, the UV pattern layer 30 can be more firmly adhered to the glass 60 surface.
- the window 100 may be used for a portable terminal.
- the mobile terminal may include a display panel and a touch screen panel or pad provided on the panel.
- the window 100 may be provided on the touch screen panel or the pad to protect the display panel or the touch screen panel.
- the window 100 substantially forms the outer surface of the portable terminal.
- a portable terminal such as a smart phone may be formed with the entire window 100. Therefore, the probability that an external shock is transmitted to the window 100 is very high. However, as described above, since the UV pattern layer 30 is directly adhered to the lower surface of the glass 60, the impact resistance is very excellent.
- the UV pattern layer 30 may be firmly adhered to the glass 60 even in a harsh use environment.
- the UV pattern layer 30 may be formed by directly adhering to the bottom surface of the glass 60. Therefore, the improvement of adhesive force becomes very important.
- UV resins generally comprise only UV curable resins having UV curable properties.
- an initiator may be further included. This is because it is possible to form a UV pattern layer by simply curing the UV resin only through UV irradiation.
- UV resin adheres to a plastic material which is highly likely to be deformed or damaged by heat.
- it may be considered to form a UV pattern layer directly on an adhesive film such as an optical mount film or OCA. In this case, an optical mount film, an OCA film, or the like is very vulnerable to heat. For this reason, it is conceivable that UV resins use only UV curable resins having UV curing properties.
- the UV resin in the molten state is cured. That is, it can be said that the UV resin is cured to form the UV pattern layer 30 and adheres to the surface of the glass 60 at the same time. For this reason, it is preferable that the UV resin which can be used in the present embodiments is formed to adhere to the glass surface more reliably.
- the UV resin according to the present embodiment is preferably a resin having UV curing properties. That is, the resin is preferably cured through UV irradiation.
- a urethane and acrylic UV resin may be used.
- the UV resin may be mixed with at least two different UV curable resins.
- the urethane acrylate oligomer and the acrylate monomer may be included. Therefore, the resin of different tissues can be cured with a slight difference by UV irradiation. That is, by mixing different materials with each other it is possible to further enhance the adhesive force through the curing.
- the UV resin may comprise an initiator for initiating the polymerization reaction of the UV curable resin.
- the UV resin is more preferably a mixture of a plurality of resins having different curing properties as well as different materials. That is, it is more preferable to mix resin of UV curing property and resin of thermosetting property.
- the thermosetting resin may be an epoxy resin. Therefore, it is possible to vary the curing time from each other due to the difference in curing properties.
- thermosetting resin For example, after curing the UV curable resin through UV irradiation, it is possible to cure the thermosetting resin through heating. Therefore, due to the difference in the microstructure due to the difference in the material itself, due to the difference in curing time, both of them exert a synergistic effect to increase the adhesive force to each other.
- the UV pattern layer is formed directly on the glass or tempered glass.
- Such glass and tempered glass have much higher heat resistance than general plastic materials.
- the adhesive force due to heating can be further increased.
- the inventors have found that the weight percent of the UV curable resin is 80 to 90 and the weight percent of the thermosetting resin is about 5 to 10. That is, in consideration of the prevention of deformation of the glass and the increase of the adhesive strength, it was found that the weight% of the thermosetting resin was 10 or less. It has also been found that the UV curable resins are also more preferably comprised of at least two resins.
- the first UV curable resin is a urethane resin and the second UV curable resin is an acrylic resin.
- the weight% of urethane series resin is larger than the weight% of acrylic resin.
- the present inventors obtain at least two synergistic effects of preventing deformation of the glass and increasing the adhesive force through heat curing through heating of the UV resin in the range of about 30 to about 60 minutes in addition to the components and the component ratio of the UV resin. could figure out that it could.
- the UV pattern layer can be formed directly on the glass more effectively and stably by using a UV resin mixed with a UV curable resin and a thermal curable resin, rather than a general UV resin.
- a UV resin mixed with a UV curable resin and a thermal curable resin rather than a general UV resin.
- the step of applying the UV resin (S1) is performed.
- the configuration of the UV resin has been described above, and the coating may be performed directly on the window 100 or directly on the mold. However, in any case, the coating step (S1) may be said to apply a UV resin for sticking directly to the lower surface of the glass.
- a pattern layer forming step S2 of forming a UV pattern layer through a mold in which a pattern is formed may be performed.
- the pattern layer forming step (S2) may include a pressing step of pressing the glass and the mold to be in close contact with each other through a roller. Through this pressing step, the pattern engraved in the mold can be engraved in the UV resin, a UV pattern layer having a uniform thickness as a whole can be formed on the glass.
- the pattern layer forming step S2 may include a cleaning step of removing the UV resin overflowed during or after the pressing step.
- the UV pattern layer according to the present embodiment is not manufactured in the form of a sheet. That is, it is preferable that the UV pattern layer is formed by directly adhering to each of the glasses. Therefore, even when the shape of the glass, the presence or absence of the penetrating region, and the like are changed, it is possible to easily form the UV pattern layer. In addition, it becomes possible to abbreviate
- the overflow may occur at the edge portion or through region of the glass. This is because the edge shape of the glass may be a complicated shape having grooves and protrusions rather than a general quadrangular shape. Due to this overflow, a uniform UV pattern layer may not be formed, and contamination of the edge portion or the through area may occur. In addition, a uniform UV pattern layer may not be formed at this portion. Therefore, such overflowed UV resin needs to be effectively cleaned before it is cured.
- Such cleaning may be performed by vacuum suction of the overflowed UV resin, which will be described later.
- the curing step (S3) that the UV pattern layer is adhered to the glass may be performed. That is, a curing step (S3) may be performed to cure the UV pattern layer before curing so that the UV pattern layer is directly adhered to the bottom surface of the glass.
- the curing step (S3) may include a UV curing step through the UV irradiation.
- the curing step (S3) may include a thermal curing step through heating. The heating may be performed by applying microwaves.
- the UV resin may be a mixture of a UV curable resin and a thermosetting resin.
- the weight% of the said UV curable resin is larger than the weight% of the said thermosetting resin.
- the UV curing step and the thermal curing step may be performed sequentially.
- a thermal curing step may be performed after the UV curing step is performed.
- This curing step (S3) may be all performed before separating the window 100 in the mold.
- the thermal curing step may also be performed after separating the window 100 from the mold.
- a separation step S4 for separating the window 100, that is, the glass, and the UV pattern layer integrated with the glass from the mold may be performed.
- a drying step S5 may be performed.
- this drying step (S5) it is possible to further harden the UV pattern layer through heating. That is, the thermosetting step may be performed after the separation step S4.
- different curing conditions can be performed sequentially and at predetermined intervals. This difference in curing mechanism makes it possible to more firmly adhere the UV pattern layer to the glass.
- the surface treatment of the glass may be performed first before forming the UV pattern.
- the formation and adhesion of the UV pattern layer may be performed through one process. That is, when the mold and the glass are combined and separated, the formation and adhesion of such a UV pattern layer may be performed. Therefore, it is possible to omit the cumbersome and cumbersome steps of laminating the sheet for the formation of the UV pattern layer and interposing a separate adhesive means.
- the UV resin When pressing the UV pattern layer in the mold, the UV resin may overflow into the through areas 63 and 64 of the glass 60. When the overflowed UV resin is cured, a problem may occur in which the through area is blocked. In addition, the UV resin may also be cured by overflowing the edge portion or the side surface of the glass 60.
- the opening 211 for vacuum suction may be formed in the mold.
- the opening 211 may be connected to the vacuum suction pipe 500.
- the opening 211 may be formed to correspond to the through areas 63 and 64 of the glass or the edge area of the glass.
- the UV pattern layer is formed by curing and adhering to each glass. Therefore, when a change in the shape, structure, and pattern of the glass is required, it is possible to flexibly change only the mold.
- FIG. 4 shows an embodiment different from FIG. 3.
- the shape of the mold 200 may be formed to correspond to the outer shape of the glass 60.
- the protrusions 212 corresponding to the through regions 63 and 64 may be formed in the mold 200. Therefore, the UV pattern layer is not formed in the portion corresponding to the protrusion 212.
- UV resin that overflows through pressure may be generated on the edge of the protrusion 212 or the mold 200. That is, due to the pressurization, the UV resin may overflow to the upper surface of the glass 60 through the through area and the edge portion. Therefore, it is possible to vacuum suck the UV resin overflowed through the vacuum suction pipe 500 in this portion.
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- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Laminated Bodies (AREA)
Abstract
La présente invention concerne une vitre de protection de panneau et un terminal mobile qui en est équipé. La présente invention concerne également un procédé pour fabriquer une vitre de protection de panneau. Selon un mode de réalisation, la présente invention concerne le procédé de fabrication d'une vitre de protection de panneau, comprenant : une étape d'application de revêtement consistant à appliquer une résine UV, qui adhère directement sur la surface inférieure d'un morceau de verre ; une étape de formation de couche de motif consistant à former une couche de motif UV en utilisant un moule dans lequel un motif est formé ; une étape de durcissement de la couche de motif UV exécutée pour que la couche de motif UV adhère directement à la surface inférieure du morceau de verre ; et une étape de séparation consistant à séparer du moule la couche de motif UV adhérant au morceau de verre.
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR1020130105560A KR101423222B1 (ko) | 2013-09-03 | 2013-09-03 | 패널 보호용 윈도우, 이를 포함하는 휴대 단말기 및 이의 제작방법 |
KR10-2013-0105560 | 2013-09-03 | ||
KR1020130105544A KR101415605B1 (ko) | 2013-09-03 | 2013-09-03 | 패널 보호용 윈도우, 이를 포함하는 휴대 단말기 및 이의 제작방법 |
KR10-2013-0105544 | 2013-09-03 | ||
KR1020130105575A KR101423223B1 (ko) | 2013-09-03 | 2013-09-03 | 패널 보호용 윈도우의 uv 패턴층 형성을 위한 uv 수지 |
KR10-2013-0105575 | 2013-09-03 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2015034218A1 true WO2015034218A1 (fr) | 2015-03-12 |
Family
ID=52628626
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/KR2014/008110 WO2015034218A1 (fr) | 2013-09-03 | 2014-08-30 | Vitre de protection de panneau, terminal mobile qui en est équipé, et procédé de fabrication de la vitre de protection de panneau |
Country Status (1)
Country | Link |
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WO (1) | WO2015034218A1 (fr) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070071970A1 (en) * | 2001-03-15 | 2007-03-29 | Mitsui Chemical, Inc. | Laminate and display apparatus using the same |
US20090068453A1 (en) * | 2006-10-11 | 2009-03-12 | Sengshiu Chung | Impact-resistant lightweight polymeric laminates |
US20100103126A1 (en) * | 2007-03-26 | 2010-04-29 | Nissha Printing Co., Ltd. | Protective panel with touch input function for electronic instrument display window |
US20120204459A1 (en) * | 2011-02-10 | 2012-08-16 | Akira Hirai | Display Device and Method for Manufacturing the Same |
-
2014
- 2014-08-30 WO PCT/KR2014/008110 patent/WO2015034218A1/fr active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070071970A1 (en) * | 2001-03-15 | 2007-03-29 | Mitsui Chemical, Inc. | Laminate and display apparatus using the same |
US20090068453A1 (en) * | 2006-10-11 | 2009-03-12 | Sengshiu Chung | Impact-resistant lightweight polymeric laminates |
US20100103126A1 (en) * | 2007-03-26 | 2010-04-29 | Nissha Printing Co., Ltd. | Protective panel with touch input function for electronic instrument display window |
US20120204459A1 (en) * | 2011-02-10 | 2012-08-16 | Akira Hirai | Display Device and Method for Manufacturing the Same |
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