WO2009093857A2 - Security glass and a production method therefor - Google Patents
Security glass and a production method therefor Download PDFInfo
- Publication number
- WO2009093857A2 WO2009093857A2 PCT/KR2009/000348 KR2009000348W WO2009093857A2 WO 2009093857 A2 WO2009093857 A2 WO 2009093857A2 KR 2009000348 W KR2009000348 W KR 2009000348W WO 2009093857 A2 WO2009093857 A2 WO 2009093857A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- glass
- mesh
- security
- laminated
- silicon pad
- Prior art date
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Classifications
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C27/00—Joining pieces of glass to pieces of other inorganic material; Joining glass to glass other than by fusing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B17/00—Layered products essentially comprising sheet glass, or glass, slag, or like fibres
- B32B17/06—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material
- B32B17/10—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin
- B32B17/10005—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing
- B32B17/10009—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing characterized by the number, the constitution or treatment of glass sheets
- B32B17/10036—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing characterized by the number, the constitution or treatment of glass sheets comprising two outer glass sheets
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B17/00—Layered products essentially comprising sheet glass, or glass, slag, or like fibres
- B32B17/06—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material
- B32B17/10—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin
- B32B17/10005—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing
- B32B17/10165—Functional features of the laminated safety glass or glazing
- B32B17/10247—Laminated safety glass or glazing containing decorations or patterns for aesthetic reasons
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B17/00—Layered products essentially comprising sheet glass, or glass, slag, or like fibres
- B32B17/06—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material
- B32B17/10—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin
- B32B17/10005—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing
- B32B17/10165—Functional features of the laminated safety glass or glazing
- B32B17/10376—Laminated safety glass or glazing containing metal wires
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B17/00—Layered products essentially comprising sheet glass, or glass, slag, or like fibres
- B32B17/06—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material
- B32B17/10—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin
- B32B17/10005—Layered products essentially comprising sheet glass, or glass, slag, or like fibres comprising glass as the main or only constituent of a layer, next to another layer of a specific material of synthetic resin laminated safety glass or glazing
- B32B17/10807—Making laminated safety glass or glazing; Apparatus therefor
- B32B17/10816—Making laminated safety glass or glazing; Apparatus therefor by pressing
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C17/00—Surface treatment of glass, not in the form of fibres or filaments, by coating
- C03C17/28—Surface treatment of glass, not in the form of fibres or filaments, by coating with organic material
-
- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C27/00—Joining pieces of glass to pieces of other inorganic material; Joining glass to glass other than by fusing
- C03C27/06—Joining glass to glass by processes other than fusing
- C03C27/10—Joining glass to glass by processes other than fusing with the aid of adhesive specially adapted for that purpose
Definitions
- the present invention relates to an anti-theft glass and a method for manufacturing the same, and more specifically, the anti-theft glass is used for windows or doors to improve the durability against strong impacts, as well as to demonstrate the security function even if the glass breaks.
- the present invention relates to a security glass and a method of manufacturing the same, which block intrusion and at the same time, provide another functionality beyond simple use as a door material.
- the glass used as the material of the door is used for the purpose of allowing natural light to enter the room.
- the glass used as described above is simply a glass (hereinafter referred to as "molding plate glass") used as a material of a window or a door, and is divided into tempered glass to which the security function is given.
- Molded plate glass of the glass is mainly used as a material of the window that is weak to impact and hardly occurs in use, and tempered glass is used as an entrance door in which shock is frequently generated during use.
- the molded plate glass and tempered glass which are divided into windows and door materials, have a great difference in durability, and a significant difference in security ability is shown.
- the tempered glass is produced by heating the formed plate glass to 500 to 600 Β° C. close to the softening temperature, quenching by compressed cooling air, compressing and straining the glass surface and tensilely straining the interior.
- the tempered glass prepared as described above is not easily broken even in the case of a moderate impact, and thus has excellent security.
- the molded plate glass has a weak force to withstand external shocks, it is inevitable to install a separate security window for a separate security on the window frame of the window using the molded plate glass material.
- the security window used to be installed on the window is a metal window of the material, which causes a problem that does not harmonize with the surrounding environment.
- both the molded plate glass and tempered glass have different advantages and disadvantages, both the molded plate glass and tempered glass are generally manufactured in achromatic transparent color, so that the design of the door is differentiated through glass (molded glass and tempered glass).
- the differentiation of the door could be expected by the design of a character using materials of different materials such as color film paper.
- the differentiation of the door through other materials has a disadvantage in that the character designed on the door is discolored or falls off to feel messy.
- tempered glass has a balance of strength within the glass itself, so that even if one side (edge) is cut a little, the whole part is destroyed by the size of adzuki bean grain. There is a problem to install a security shutter separately.
- the invention disclosed in Korean Patent Application No. 20-0191602 was previously filed.
- the glass (2) is used for glass used in a glass window or a partition by using a glass such as a building.
- the above design is described that the glass plate material is not easily broken even when there is a large impact from the outside by a synthetic resin sheet inserted in the center, so that when the glass window is applied by applying the same, there is no need for a separate security frame.
- the design has a problem that the synthetic resin plate is also broken so that crime is not made.
- the present invention disclosed in Korean Patent Application Publication No. 2001-0017985 discloses that the method of manufacturing a decorative safety laminated glass sheet includes (a) maintaining a horizontal surface with the color-etched glass sheet 1 facing upwards and outwards. Place on a workbench. (B) The metal plate (3) subjected to the corrosion process is placed on the glass plate (1) in which the design is harmoniously color-etched. (C) The transparent liquid resin adhesive (4) is evenly applied on the glass plate material (1) appropriately color-etched. (D) The transparent glass sheet 3 is slowly bonded to prevent bubbles from forming.
- the decorative safety laminated glass sheet material subjected to the above steps is dried at room temperature or a suitable method.
- an opaque metal sheet is placed on a color-etched glass sheet, and then a transparent liquid resin adhesive is applied to the glass sheet to bond the transparent glass sheet.
- the invention is formed in harmony with the design by color etching on one glass plate material is to be a decorative glass inside the building, to prevent the scattering of the glass plate material when broken.
- the invention is to be used as a simple decorative glass plate material that complements the weakness of the simplicity and durability and strength of the existing color etching glass plate design.
- Korean Patent Application Publication No. 1997-0042365 discloses that the method of manufacturing a decorative glass plate is washed with a glass surface to be processed for decorative glass plate, dried, and then screened with a UV ink-containing UV mesh screen 150 mesh Using the above screen, a predetermined letter or figure is printed on the glass surface, irradiated for about 2 to 5 minutes at about 60 Β° C. of an ultraviolet dryer, dried, and then made into a mirror.
- the invention is to achieve a decorative effect beautifully the appearance by screen printing with UV ink on the glass surface.
- the glass plate as described above has a problem in that it cannot be used as a security glass as a decorative glass plate that can make the appearance beautiful.
- the applicant of the present application does not need to separately install a security iron window on a window frame that is constructed on a window using glass as a material, and does not need to separately install a security shutter at an entrance of a store where an entrance door is installed by tempered glass. It has come to develop security glass that shows perfect security effect.
- An object of the present invention is to provide a security glass and a method of manufacturing the same, which can be used for windows or various doors to improve durability against strong impacts, as well as to prevent intrusion by outsiders by exhibiting a security function even if glass breakage occurs. Is in.
- Another object of the present invention is to use a security glass formed by the silicon pad is embedded in the ad text and the design UV printed on both sides or one side between two sheets of glass as a door material ( β β )
- the purpose of the present invention is to diversify the design of the door through glass used as a material, and to provide a security glass and a method of manufacturing the same, which can be used as an interior product.
- Still another object of the present invention is to provide an anti-theft glass and a method for manufacturing the same, by printing various designs such as advertisement texts and designs printed on a mesh inside the anti-theft glass.
- Another object of the present invention is a mesh that is impossible to cut the method glass by a manual cutter inside, so as to eliminate the inconvenience of the construction of having to separately install a security window or a security shutter as a security means, as well as to block the intrusion of outsiders. It is possible to provide an anti-theft glass and a method of manufacturing the same, which does not require additional costs for security.
- the present invention for achieving the above object, in the method for manufacturing a security glass, the first process (S1) for cutting the glass to have a suitable size according to the purpose of use, and the mesh (mesh) like the glass for use purposes According to the second step (S2) of cutting to have a suitable size, and the third step (S3) of washing the foreign substances generated while cutting the glass and the mesh using a washing machine, and hardened when exposed to ultraviolet rays on the surface of the mesh.
- the fourth process (S4) for printing the ad text and the design by UV ink
- the fifth process (S5) for bonding the silicon pads on the upper and lower surfaces of the mesh, and the silicon pads between the glass and the glass
- the pad is melt hardened and the mesh and oil
- the present invention is a method for manufacturing a security glass, the first step (S11) for cutting the glass to have a suitable size according to the purpose of use, and the security film and the mesh (mesh) like the glass to have a suitable size according to the purpose of use
- an eighth process (S18) in which the mesh, the security film, and the glass are integrally laminated a ninth process (S19) in which the mesh and the security film are laminated, and the laminated glass is compressed by a vacuum compressor. Characterized in that the tenth process (S20) of forming a security glass.
- the present invention in the security glass, two pieces of glass cut to have a suitable size according to the purpose of use, the mesh cut to the glass size, and UV ink cured when exposed to ultraviolet rays on the surface of the mesh ad text and design It is characterized in that the printed surface, the silicon pad laminated on the upper and lower surfaces of the mesh, and the glass is integrally laminated on the upper and lower surfaces of the silicon pad, respectively.
- the security glass in the security glass, two pieces of glass cut to have a suitable size according to the purpose of use, a transparent security film cut to the glass size, a mesh cut to the glass size, and the surface of the mesh to ultraviolet rays
- Each of the silicon pads laminated on the upper and lower surfaces of the laminated silicon pads is characterized in that the glass is integrally laminated.
- the security glass and the manufacturing method thereof are used for windows or various doors to improve durability against strong impacts, as well as to prevent external invasion by exhibiting a security function even if glass breakage occurs. It can be effective.
- the door material is used as a door material using a security glass formed by a silicon pad, a mesh printed with advertisement text and a pattern UV printed on both sides or one side between two pieces of glass is used. In order to diversify the design of the door through the glass, the performance as an interior product can be exhibited.
- the method glass is a mesh that cannot be cut by a manual cutter inside, it eliminates the trouble of construction, which requires additional installation of a crime prevention window or a security shutter, which prevents the intrusion of outsiders. It is a very useful invention that does not cost extra.
- FIG. 1 is a manufacturing process diagram for manufacturing a security glass of the present invention.
- Figure 2 is an exploded perspective view of the security glass of the present invention.
- Figure 3 is a security glass configuration of the present invention.
- Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention.
- FIG. 5 is an exploded perspective view of a security glass of another embodiment of the present invention.
- Figure 6 is a security glass configuration of another embodiment of the present invention.
- Figure 7 and Figure 8 is an illustration of a state where the security glass according to the present invention is used.
- FIG. 1 is a manufacturing process chart for producing a security glass of the present invention
- Figure 2 is an exploded perspective view of the security glass of the present invention
- Figure 3 is a security glass configuration diagram of the present invention.
- Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention
- Figure 5 is an exploded perspective view of the security glass of another embodiment of the present invention
- Figure 6 is a security glass configuration diagram of another embodiment of the present invention 7 and 8 are exemplary views of a state in which a security glass according to the present invention is used.
- the method for manufacturing a security glass of the present invention the first process (S1) for cutting the glass to have a suitable size according to the purpose of use, and using a mesh (mesh) like the glass
- a second step (S2) of cutting to have a suitable size according to the purpose a third step (S3) of washing foreign substances generated while cutting the glass and the mesh using a washing machine, and energy of ultraviolet rays on the surface of the mesh
- a sixth step (S6) of placing the mesh pad with the silicon pads mixed therein between the glass and the glass, and adding the mesh again a seventh step (S7) of placing the glass on the heater in the state in which the glass is bonded; By starting the machine Heating the silicon pad to melt-harden the silicon pad, and an eighth process (S8) in which
- the glass is plain glass or tempered glass.
- the silicon pad is heated to a temperature of 300-400 Β° C. for 1-2 hours with a heater to melt-harden the silicon pad, and the mesh and the glass are integrally laminated.
- the mesh is stainless steel, which is a corrosion resistant steel that is not rust, does not corrode, and is not easily cut, and is divided into 16 small holes in 1 cm square in all sizes.
- ad texts and prints are formed on both sides or one side.
- the UV ink is generally composed of a photopolymerizable resin (origoma and reactive diluent), a photopolymerization initiator, a pigment, an auxiliary agent, a polymerization inhibitor and the like.
- the present invention screens the glass 10 and the mesh 20, which is a material to be used as security glass, as shown in FIG.
- the glass 10 and the mesh (20) selected as described above is prepared to cut to have a suitable size.
- the mesh 20 is divided into 16 pieces in a width of 1 cm in all directions to form small holes.
- the mesh 20 is not rusted, does not corrode even chemicals, and stainless steel, which is not easily cut, is excellent in security.
- the foreign substances generated while cutting the glass 10 and the mesh 20 are removed by using a washing machine to remove foreign substances.
- the glass 10 and the mesh 20 cut as described above are buried with foreign matters such as chips or dust generated in the cutting process, and the foreign matters are used for the air spray which is a washing machine.
- the surface of the mesh 20 is printed with a variety of designs, such as advertising text and designs with UV ink that is cured when exposed to ultraviolet rays.
- the silicon pad 40 is applied to both sides of the printing surface 30 on the mesh 20.
- the silicon pad 40 is inserted into the mesh 20, the paper 20 is put together again.
- the glass 10 is placed on a heater in a state of being bonded, and the heater is operated to heat the bonded silicon pad 40 to melt-harden the silicon pad 40 and the mesh 20. And glass 10 are integrally laminated.
- heating the silicon pad 40 at a temperature of 300-400 Β° C. with a heater for 1-2 hours may cause the silicon pad 40 to melt and enter the small holes of the mesh 20 to be laminated and the glass 10 to be laminated together.
- the bubbles are generated to gradually escape to the outside so that the bubbles are not formed inside the glass 10 and the mesh 20 when they are laminated by the silicon pad 40.
- the printing surface 30 printed on the mesh 20 is clearly visible when viewed from the outside.
- the glass 10 in which the mesh 20 is firmly laminated is cooled.
- the mesh 20 is compressed to form a security glass 100 by compressing the glass 10 firmly laminated therein with a vacuum compressor.
- Security glass 100 manufactured as described above is to be used as illustrated in Figures 7 and 8 as a material ( β ) of the window or door.
- the glass 10 is plain glass or tempered glass.
- the mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut.
- the mesh 20 is divided into 16 pieces in a size of 1 cm in all directions to form small holes.
- the silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1-2 hours to melt-harden the silicon pad 40 and to be laminated through the small holes of the mesh 20. It will be united together.
- the mesh 20 is formed on both sides or one side of the printing surface 30 printed with advertising text and drawings.
- Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention
- Figure 5 is an exploded perspective view of another embodiment of the security glass
- Figure 6 is another embodiment of the present invention An example of the security glass configuration.
- FIG. 4 to 5 describes a method for producing a security glass of another embodiment of the present invention as follows.
- Security method for manufacturing a security glass of the present invention is the first step (S11) for cutting the glass to have a suitable size according to the purpose of use, and cutting the security film and mesh (mesh), such as the glass to have a suitable size according to the purpose of use
- the pads are melt cured and
- the eighth process (S18) of the city and the crime prevention film and the glass is integrally laminated, the ninth process (S19) of cooling the glass laminated with the mesh and the crime prevention film, and by compressing the laminated glass with a vacuum compressor It consists of a tenth process (S20) of forming the glass.
- the glass is plain glass or tempered glass.
- the silicon pad is heated at a temperature of 300-400 Β° C. for 1-2 hours with a heater to melt-harden the silicon pad, and the mesh, the security film, and the glass are integrally laminated.
- the mesh is stainless steel, which is a corrosion resistant steel that is not rust, does not corrode, and is not easily cut, and is divided into 16 in 1 cm width in all sizes to form small holes.
- the mesh is formed on both sides or one side of the ad text and print.
- the UV ink is generally composed of a photopolymerizable resin (origoma and reactive diluent), a photopolymerization initiator, a pigment, an auxiliary agent, a polymerization inhibitor and the like.
- the present invention screens the glass 10 and the mesh (20) and the security film (50) which is a material to be used as security glass as shown in FIG.
- the mesh (20) and the anti-theft film (50) selected as described above is cut and prepared to have a suitable size.
- the said glass 10 it is suitable to use 4-6 mm thickness, and it is not necessary to limit the thickness of the glass 10 to the thickness which mentioned above.
- An anti-ballistic film may be used in place of the anti-theft film 50.
- the mesh 20 is divided into 16 pieces in a width of 1 cm in all directions to form small holes.
- the mesh 20 is not rusted, does not corrode even chemicals, and stainless steel, which is not easily cut, is excellent in security.
- the foreign substances generated while cutting the glass 10, the mesh 20, and the anti-theft film 50 are cleaned by using a washing machine to remove foreign substances.
- the glass 10 and the mesh 20 and the security film 50 which are cut as described above, may have foreign substances such as chips or dust generated during the cutting process, and the foreign matter may be a washing machine. Will be used.
- the surface of the mesh 20 is printed with a variety of designs, such as advertising text and designs with UV ink that is cured when exposed to ultraviolet rays.
- the silicon pads 40 are placed on the upper and lower surfaces of the printing surface 30 on the mesh 20 by placing the security film 50 and the silicon pads 40 respectively.
- the glass 10 is placed on a heater in a state of being bonded, and the heater is operated to heat the bonded silicon pad 40 to melt-harden the silicon pad 40 and the mesh 20. And the security film 50 and the glass 10 will be integrally laminated.
- heating the silicon pad 40 at a temperature of 300-400 Β° C. with a heater for 1-2 hours may cause the silicon pad 40 to melt and enter the small holes of the mesh 20 to be laminated and the glass 10 to be laminated together.
- the bubbles are generated to gradually escape to the outside so that the bubbles are not formed inside the glass 10 and the mesh 20 when they are laminated by the silicon pad 40.
- the printing surface 30 printed on the mesh 20 is clearly visible when viewed from the outside.
- the glass 10 that is firmly laminated in the mesh 20 and the security film 50 is cooled.
- the glass 10 firmly laminated in the mesh 20 and the security film 50 is compressed by a vacuum compressor to form the security glass 100.
- Security glass 100 manufactured as described above is to be used as illustrated in Figures 7 and 8 as a material ( β β ) of the window or door.
- two pieces of glass 10 cut to have a suitable size according to the purpose of use, and the transparent cut to the glass size Security film 50, the mesh 20 cut to the size of the glass 10, and the printed surface (30) printed ad text and pattern with UV ink that is cured when exposed to ultraviolet rays on the surface of the mesh (20) ),
- the silicon pad 40 laminated on the upper and lower surfaces of the mesh 20, the security film 50 on the upper and lower surfaces of the silicon pad 40, and the upper and lower surfaces of the security film 50.
- the silicon pads 40 respectively laminated on the glass pads and the glass 10 are integrally laminated on the upper and lower surfaces of the laminated silicon pads 40, respectively.
- the glass 10 is plain glass or tempered glass.
- the mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut.
- the mesh 20 is divided into 16 pieces in a size of 1 cm in all directions to form small holes.
- the silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1 to 2 hours to melt and harden the silicon pad 40, and the upper surface and the upper surface of the mesh 20 and the security film 50. Will be united together.
- the mesh 20 is formed on both sides or one side of the printing surface 30 printed with the ad text and design.
- the security glass 100 as described above is not only intended to diversify the design of the door through the glass used as the material of the door as used in the window or the door, but also exhibits performance as an interior product, as well as mesh.
- the advertising effect printed on the advertisement text and pattern can also create additional value that can be expected, and since it is a mesh that cannot be cut by a manual cutter, it is necessary to add a security window or a security shutter which is a security means. Eliminating the inconvenience of construction, as well as blocking the intrusion of outsiders is very useful without the additional cost for crime prevention.
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Materials Engineering (AREA)
- Organic Chemistry (AREA)
- Ceramic Engineering (AREA)
- Joining Of Glass To Other Materials (AREA)
- Laminated Bodies (AREA)
- Securing Of Glass Panes Or The Like (AREA)
Abstract
The present invention relates to security glass, and to a production method therefor. More specifically, it relates to security glass used in windows and various types of doors, which not only has improved resistance to strong impacts but which also, even when damaged, exhibits a security function and blocks ingress of outsiders while at the same time being given additional functionality beyond the ways in which simple door materials are used. The invention also relates to a production method for such security glass. The present invention is a security-glass production method, characterised in that it comprises: a first process (S1) of cutting glass to an appropriate size in accordance with the intended use; a second process (S2) of cutting a mesh to an appropriate size in accordance with the intended use, as with the glass; a third process (S3) of washing detritus generated while cutting the glass and mesh, using a washing machine; a fourth process (S4) of printing advertising copy and images onto the surface of the mesh, using a UV ink which cures when exposed to ultraviolet radiation; a fifth process (S5) of provisionally attaching silicone pads on the upper and lower surfaces of the mesh; a sixth process (S6) of placing the mesh, to which the silicone pads have been provisionally attached, and further provisionally attaching it between one abovementioned glass and another; a seventh process (S7) of placing the assembly up on a heating device in the state in which the glass is provisionally attached; an eighth process (S8) of integrally combining the mesh and glass by activating the heating device and heating the provisionally attached silicone pads such that the said silicone pads melt and cure; a ninth process (S9) of cooling the glass to which the mesh has been attached; and a tenth process (S10) of compressing the glass with the attachment by means of a vacuum compressor and forming security glass.
Description
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μ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ κ΄ ν κ²μΌλ‘μ, λ³΄λ€ μμΈνκ²λ μ°½λ¬Έ λλ κ°μ’
λμ΄μ μ¬μ©λμ΄μ§λ λ°©λ²μ λ¦¬λ‘ κ°ν 좩격μ λν λ΄κ΅¬μ±μ ν₯μμν΄μ λ¬Όλ‘ μ 리 νμμ΄ μΌμ΄λλλΌλ λ°©λ²κΈ°λ₯μ΄ λ°νλμ΄ μΈλΆμΈ μΉ¨μ
μ μ°¨λ¨ν¨κ³Ό λμμ λ¨μν λμ΄ μμ¬λ‘μμ μ°μμμμ λ²μ΄λ λ λ€λ₯Έ κΈ°λ₯μ±μ΄ λΆμ¬λ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ κ΄ν κ²μ΄λ€.The present invention relates to an anti-theft glass and a method for manufacturing the same, and more specifically, the anti-theft glass is used for windows or doors to improve the durability against strong impacts, as well as to demonstrate the security function even if the glass breaks. The present invention relates to a security glass and a method of manufacturing the same, which block intrusion and at the same time, provide another functionality beyond simple use as a door material.
μΌλ°μ μΌλ‘ λμ΄μ μμ¬(θ³ζ)λ‘ μ¬μ©λλ μ 리λ μ€λ΄μ μμ°κ΄μ΄ μ μ
λμ΄ μ§ μ μλλ‘ νκΈ° μν λͺ©μ μΌλ‘ μ¬μ©λμ΄μ§κ² λλ€.In general, the glass used as the material of the door is used for the purpose of allowing natural light to enter the room.
μκΈ°μ κ°μ΄ μ¬μ©λμ΄μ§λ μ 리λ λ¨μν μ°½λ¬Έ λλ λμ΄μ μμ¬λ‘ μ°μ¬μ§λ μ 리(μ΄ν "μ±ννμ 리" λΌν¨)κ° μλκ° νλ©΄, λ°©λ² κΈ°λ₯μ΄ λΆμ¬λ κ°νμ λ¦¬λ‘ λλΆ λλ€.The glass used as described above is simply a glass (hereinafter referred to as "molding plate glass") used as a material of a window or a door, and is divided into tempered glass to which the security function is given.
μκΈ° μ 리 μ€ μ±ννμ 리λ 좩격μ μ½ν΄ μ¬μ©μ€μ 좩격 λ°μμ΄ κ±°μ μΌμ΄λμ§ μλ μ°½λ¬Έμ μμ¬(θ³ζ)λ‘ μ£Όλ‘ μ¬μ©λμ΄μ§κ³ , κ°νμ 리λ μ¬μ©μ€μ μΆ©κ²©μ΄ λΉλ°νκ² λ°μνλ μΆμ
μ© λμ΄λ‘ μ¬μ©λμ΄μ§κ² λλ€.Molded plate glass of the glass is mainly used as a material of the window that is weak to impact and hardly occurs in use, and tempered glass is used as an entrance door in which shock is frequently generated during use.
μκΈ°μ κ°μ΄ μ°½λ¬Έκ³Ό μΆμ
μ© λμ΄ μμ¬λ‘ κ΅¬λΆ μ¬μ©λμ΄μ§λ μ±ννμ 리μ κ°νμ 리λ κ·Έ λ΄κ΅¬μ±μλ ν° μ°¨μ΄κ° μμ΄ λ°©λ² λ₯λ ₯μλ νμ ν μ°¨μ΄κ° λνλκ² λλ€.As described above, the molded plate glass and tempered glass, which are divided into windows and door materials, have a great difference in durability, and a significant difference in security ability is shown.
μκΈ° κ°νμ 리λ μ±ννμ 리λ₯Ό μ°νμ¨λ(θ»εζΊ«εΊ¦)μ κ°κΉμ΄ 500βΌ600 βλ‘ κ°μ΄νκ³ , μμΆν λκ°κ³΅κΈ°μ μν΄ κΈλμμΌ μ 리 νλ©΄λΆλ₯Ό μμΆλ³νμν€κ³ λ΄λΆλ₯Ό μΈμ₯λ³νμμΌ μ μ‘°νκ² λλ€.The tempered glass is produced by heating the formed plate glass to 500 to 600 Β° C. close to the softening temperature, quenching by compressed cooling air, compressing and straining the glass surface and tensilely straining the interior.
μκΈ°μ κ°μ΄ μ μ‘°λλ κ°νμ 리λ μ¬λ§ν 좩격μλ μ½κ² νμλμ΄μ§μ§ μμ λ°©λ² κΈ°λ₯μ΄ μ°μνλ€.The tempered glass prepared as described above is not easily broken even in the case of a moderate impact, and thus has excellent security.
λ°λ©΄, μ±ννμ 리λ μΈλΆμΆ©κ²©μ 견λλ νμ΄ μ½ν΄ μκΈ° μ±ννμ 리λ₯Ό μμ¬λ‘ μ΄ μ°½λ¬Έμ μ°½νμ λ³λμ λ°©λ²μ μν λ³λμ λ°©λ²μ°½ μ€μΉκ° λΆκ°νΌν μ€μ μ΄λ€.On the other hand, the molded plate glass has a weak force to withstand external shocks, it is inevitable to install a separate security window for a separate security on the window frame of the window using the molded plate glass material.
μκΈ°μ κ°μ΄ μ°½λ¬Έμ μ€μΉ μ¬μ©λμ΄μ§λ λ°©λ²μ°½μ κ·Έ μ¬μ§μ΄ κΈμμΈ μ² μ°½μ΄μ΄μ μ£Όλ³ νκ²½κ³Ό μ‘°νλ‘κ² μ΄μΈμ΄μ§μ§ λͺ»νλ λ¬Έμ μ μ μΌκΈ°νκ² λλ€.As described above, the security window used to be installed on the window is a metal window of the material, which causes a problem that does not harmonize with the surrounding environment.
μκΈ°μμ κΈ°μ ν μ±ννμ 리μ κ°νμ 리λ κ°κΈ° λ€λ₯Έ μ₯λ¨μ μ κ°μ§κ³ μμΌλ, μ±ννμ 리μ κ°νμ 리 λͺ¨λλ κΈ°λ³Έμ μΌλ‘ 무μ±μμΈ ν¬λͺ
μΌλ‘ μ μ‘°λλ κ²μ΄ μΌλ°μ μ΄μ΄μ μ 리(μ±ννμ 리μ κ°νμ 리)λ₯Ό ν΅ν λμ΄μ λμμΈ μ°¨λ³ν λ±μ κΎν μ μμμΌλ©°, λμ΄μ λμμΈ μ°¨λ³νλ₯Ό κΎνκΈ° μν΄μλ μμ νλ¦μ§μ κ°μ λ€λ₯Έ μμ¬μ μμ¬(θ³ζ)λ₯Ό μ΄μ©ν μΊλ¦ν° λ±μ λμμΌλ‘ λμ΄μ μ°¨λ³νλ₯Ό κΈ°λν μκ° μμλ€.Although the above-mentioned molded plate glass and tempered glass have different advantages and disadvantages, both the molded plate glass and tempered glass are generally manufactured in achromatic transparent color, so that the design of the door is differentiated through glass (molded glass and tempered glass). In order to differentiate the design of the door, the differentiation of the door could be expected by the design of a character using materials of different materials such as color film paper.
μκΈ°μ κ°μ΄ νλ¦μ§ λ±κ³Ό κ°μ λ€λ₯Έ μμ¬λ₯Ό ν΅ν λμ΄μ μ°¨λ³νλ μ¬λ¨λμ΄ λμ΄μ λμμΈλ μΊλ¦ν°κ° μμμ΄ λ³μλκ±°λ λ¨μ΄μ§λ νμμ΄ λ°μνμ¬ μ§μ λΆν¨μ λλΌκ² λλ λ¨μ μ κ°μ§κ³ μλ€.As described above, the differentiation of the door through other materials, such as film paper, has a disadvantage in that the character designed on the door is discolored or falls off to feel messy.
ννΈ, κ°νμ 리λ μ 리 μμ²΄κ° λ΄λΆμμ νμ κ· νμ μ μ§νκ³ μκΈ° λλ¬Έμ νμͺ½(λͺ¨μ리)μ΄ μ‘°κΈ μ λ¨λμ΄λ μ μ²΄κ° ν₯μ ν¬κΈ°μ ννΈμΌλ‘ νκ΄΄λλ μ±μ§μ κ°μ§κ³ μμ΄ μκ° λ±μμλ μμ μ λ¬Όνμ μμ νκ² λ³΄νΈνκΈ° μν΄μλ λ°©λ²μ
ν°λ₯Ό λ³λλ‘ μ곡ν΄μΌ νλ λ¬Έμ μ μ κ°μ§κ³ μλ€.On the other hand, tempered glass has a balance of strength within the glass itself, so that even if one side (edge) is cut a little, the whole part is destroyed by the size of adzuki bean grain. There is a problem to install a security shutter separately.
μ’
λμλ κ΅λ΄μμ μ μΆμλ λ±λ‘λ²νΈ 20-0191602νΈμ κ°μλ κ³ μ λ΄μ©μ μ΄ν΄λ³΄λ©΄, ν©μ±μμ§νμ΄ λ΄μ₯λ λ°©λ²μ 리μ μμ΄μ, 건물 λ±μ μ 리λ₯Ό μ¬μ©νμ¬ μ 리창 λλ μΉΈλ§μ΄ λ±μ μ¬μ©νλ μ 리μ μμ΄μ, μ 리(2)+ν©μ±μμ§ν(synthetic resin sheet)(3)+ μ 리(2)λ₯Ό μ μ°©λ ₯μ΄ κ°ν λ³Έλ(4) λ±μΌλ‘ λΆμ¬νμ¬ ν κ°μ νμ¬λ‘ ꡬμ±νμ¬μ λλ κ²μ νΉμ§μΌλ‘ νλ€.In the related art, the invention disclosed in Korean Patent Application No. 20-0191602 was previously filed. In the security glass having a synthetic resin board embedded therein, the glass (2) is used for glass used in a glass window or a partition by using a glass such as a building. + Synthetic resin sheet (3) + It is characterized in that the glass (2) is composed of one plate by spraying with a bond (4) having a strong adhesive strength.
μκΈ° κ³ μμ μ 리νμ¬λ κ°μ΄λ°μ μ½μΈλ ν©μ±μμ§ν(synthetic resin sheet)μ μνμ¬ μΈλΆμ ν° μΆ©κ²©μ΄ μκ² λλλΌλ μ½κ² κΉ¨μ§μ§ μμμ μ΄λ₯Ό μ μ©νμ¬ μ 리창 λ±μ μ μν κ²½μ°, λ³λμ λ°©λ²ν λ±μ νμ§ μμλ λλ€κ³ κΈ°μ¬λμ΄ μμΌλ, μκΈ° κ³ μμ ν° μΆ©κ²©μ μν΄ μ λ¦¬κ° κΉ¨μ§κ² λλ©΄ ν©μ±μμ§νλ νμλλ―λ‘ λ°©λ²μ΄ μ΄λ£¨μ§μ§ μκ² λλ λ¬Έμ μ μ΄ μλ€.The above design is described that the glass plate material is not easily broken even when there is a large impact from the outside by a synthetic resin sheet inserted in the center, so that when the glass window is applied by applying the same, there is no need for a separate security frame. When the glass is broken by a large impact, the design has a problem that the synthetic resin plate is also broken so that crime is not made.
λν, μ’
λμλ κ΅λ΄μμ μ μΆμλ 곡κ°λ²νΈ νΉν 2001-0017985νΈ κ°μλ λ°λͺ
λ΄μ©μ μ΄ν΄λ³΄λ©΄, μ₯μμ© μμ μ ν© μ 리νμ¬ μ μ‘° λ°©λ²μ (κ°) μΉΌλΌμμΉλ μ 리νμ¬(1)λ₯Ό μμ² λΆλΆμ μλ‘ ν₯νκ²νμ¬ μνμ μ μ§ν μμ
λμμ λλλ€. (λ) λΆμ곡μ μ κ±°μΉ κΈμνμ¬(3)λ₯Ό λμμΈμ΄ μ‘°νλ‘κ² μΉΌλΌμμΉλ μ 리νμ¬(1) μμ μ¬λ € λλλ€. (λ€) ν¬λͺ
ν μ‘체ν μμ§μ μ°©μ (4)λ₯Ό μ λΉλ μΉΌλΌμμΉλ μ 리νμ¬(1)μμ κ³¨κ³ λ£¨ λν¬ μν¨λ€. (λΌ) ν¬λͺ
ν μ 리 νμ¬(3)λ₯Ό κΈ°ν¬κ° μκΈ°μ§ μλλ‘ μ²μ²ν μ μ°©μν¨λ€. μκΈ° λ¨κ³λ₯Ό κ±°μΉ μ₯μμ© μμ μ ν© μ 리νμ¬λ₯Ό μμ¨ λλ μ λΉν λ°©λ²μΌλ‘ 건쑰 μν¨λ€.In addition, in the related art, the present invention disclosed in Korean Patent Application Publication No. 2001-0017985 discloses that the method of manufacturing a decorative safety laminated glass sheet includes (a) maintaining a horizontal surface with the color-etched glass sheet 1 facing upwards and outwards. Place on a workbench. (B) The metal plate (3) subjected to the corrosion process is placed on the glass plate (1) in which the design is harmoniously color-etched. (C) The transparent liquid resin adhesive (4) is evenly applied on the glass plate material (1) appropriately color-etched. (D) The transparent glass sheet 3 is slowly bonded to prevent bubbles from forming. The decorative safety laminated glass sheet material subjected to the above steps is dried at room temperature or a suitable method.
μκΈ°μ κ°μ λ°λͺ
μ μΉΌλΌμμΉλ μ 리νμ¬μ λΆν¬λͺ
ν κΈμνμ¬λ₯Ό λκ³ μκΈ° μ 리νμ μ ν¬λͺ
ν μ‘체ν μμ§μ μ°©μ λ₯Ό λν¬νκ³ λμ ν¬λͺ
ν μ 리νμ¬λ₯Ό μ μ°©μν¨ κ²μ΄λ€.Β In the above invention, an opaque metal sheet is placed on a color-etched glass sheet, and then a transparent liquid resin adhesive is applied to the glass sheet to bond the transparent glass sheet.
μκΈ° λ°λͺ
μ νμͺ½ μ 리νμ¬μ μΉΌλΌμμΉμ νμ¬ λμμΈ μ‘°νλ₯Ό μ΄λ£¨κ² νμ±λ κ²μΌλ‘ νμμ μ 리νμ¬μ λΉμ°μ λ°©μ§νλ 건μΆλ¬Ό λ΄,μΈμ₯ μ₯μμ λ¦¬μΈ κ²μ΄λ€.The invention is formed in harmony with the design by color etching on one glass plate material is to be a decorative glass inside the building, to prevent the scattering of the glass plate material when broken.
μκΈ° λ°λͺ
μ κΈ°μ‘΄ μΉΌλΌμμΉ μ 리νμ¬ λμμΈμ λ¨μν¨κ³Ό λ΄κ΅¬μ± λ° κ°λμ μ·¨μ½μ μ 보μν λ¨μν μ₯μμ© μ 리νμ¬λ‘ μ¬μ©λλ κ²μ΄λ€.The invention is to be used as a simple decorative glass plate material that complements the weakness of the simplicity and durability and strength of the existing color etching glass plate design.
λν, μ’
λμλ κ΅λ΄μμ μ μΆμλ 곡κ°λ²νΈ νΉν 1997-0042365νΈ κ°μλ λ°λͺ
λ΄μ©μ μ΄ν΄λ³΄λ©΄, μ₯μμ© μ 리νμ μ μ‘°λ°©λ²μ μ₯μμ© μ 리ν κ°κ³΅ν μ 리νλ©΄μ μμΈνμ¬ κ±΄μ‘°ν ν, μμΈμ μ΄ ν¨μ λ UVμν¬λ‘ μ€ν¬λ¦° λ§λͺ© 150λ©μ¬ μ΄μμ μ€ν¬λ¦°μ μ¬μ©νμ¬ μ 리νλ©΄μ μμ μ λ¬Έμλ λν λ±μ μΈμνμ¬ μμΈμ 건쑰기μ μ½ 60βμμ 2βΌ5λΆμ λ μ‘°μ¬νμ¬ κ±΄μ‘°μν¨ ν μ κ²½ μμ
μ νμ¬ μμ±λλ κ²μ΄λ€.In addition, in the related art, the present invention disclosed in Korean Patent Application Publication No. 1997-0042365 discloses that the method of manufacturing a decorative glass plate is washed with a glass surface to be processed for decorative glass plate, dried, and then screened with a UV ink-containing UV mesh screen 150 mesh Using the above screen, a predetermined letter or figure is printed on the glass surface, irradiated for about 2 to 5 minutes at about 60 Β° C. of an ultraviolet dryer, dried, and then made into a mirror.
μκΈ° λ°λͺ
μ μ 리νλ©΄μ UVμν¬λ‘ μ€ν¬λ¦° μΈμλ₯Ό νμ¬ μΈκ΄μ λ―Έλ €νκ² μ₯μν¨κ³Όλ₯Ό μ»μ μ μλ κ²μ΄λ€.The invention is to achieve a decorative effect beautifully the appearance by screen printing with UV ink on the glass surface.
μκΈ°μ κ°μ μ 리νμ μΈκ΄μ λ―Έλ €νκ² ν μ μλ μ₯μ μ 리νμΌλ‘ λ°©λ²μ λ¦¬λ‘ μ¬μ©ν μ μλ λ¬Έμ μ μ΄ μλ€.The glass plate as described above has a problem in that it cannot be used as a security glass as a decorative glass plate that can make the appearance beautiful.
λ°λΌμ, λ³Έμ μΆμμΈμ μ 리λ₯Ό μμ¬λ‘ μ¬μ©νλ μ°½λ¬Έμ μ곡λλ μ°½νμ λ°©λ²μ© μ² μ°½μ λ³λ μ곡ν νμκ° μκ³ , κ°νμ 리μ μν΄ μΆμ
μ© λμ΄κ° μ€μΉλλ μμ λ±μ μΆμ
ꡬμ λ°©λ²μ
ν°λ₯Ό λ³λ μ곡νμ§ μκ³ λ μλ²½ν λ°©λ² ν¨κ³Όλ₯Ό λνλ΄λ λ°©λ²μ 리λ₯Ό κ°λ°νκΈ°μ μ΄λ₯΄λ λ€.Therefore, the applicant of the present application does not need to separately install a security iron window on a window frame that is constructed on a window using glass as a material, and does not need to separately install a security shutter at an entrance of a store where an entrance door is installed by tempered glass. It has come to develop security glass that shows perfect security effect.
λ³Έ λ°λͺ
μ λͺ©μ μ μ°½λ¬Έ λλ κ°μ’
λμ΄μ μ¬μ©λμ΄μ§λ λ°©λ²μ λ¦¬λ‘ κ°ν 좩격μ λν λ΄κ΅¬μ±μ ν₯μμν΄μ λ¬Όλ‘ μ 리 νμμ΄ μΌμ΄λλλΌλ λ°©λ²κΈ°λ₯μ΄ λ°νλμ΄ μΈλΆμΈ μΉ¨μ
μ μ°¨λ¨ν μ μλ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ μ 곡ν¨μ μλ€. An object of the present invention is to provide a security glass and a method of manufacturing the same, which can be used for windows or various doors to improve durability against strong impacts, as well as to prevent intrusion by outsiders by exhibiting a security function even if glass breakage occurs. Is in.
λ³Έ λ°λͺ
μ λ€λ₯Έ λͺ©μ μ λ μ₯μ μ 리 μ¬μ΄μ μλ©΄ λλ νΈλ©΄(ηι’)μ κ΄κ³ λ¬Έμ λ° λμμ΄ UVμΈμλ λ©μ(mesh)κ° μ€λ¦¬μ½ν¨λμ μν΄ λ§€μ
νμ±λ λ°©λ²μ 리λ₯Ό λμ΄ μμ¬(θ³ζ)λ‘ μ΄μ©ν¨μ λ°λΌ λμ΄μ μμ¬λ‘ μ°μ¬μ§λ μ 리λ₯Ό ν΅ν λμ΄μ λμμΈ λ€μνλ₯Ό κΎν¨μ λ¬Όλ‘ μΈν
λ¦¬μ΄ μ νμΌλ‘μμ μ±λ₯μ΄ λ°νλ μλ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ μ 곡ν¨μ μλ€.Another object of the present invention is to use a security glass formed by the silicon pad is embedded in the ad text and the design UV printed on both sides or one side between two sheets of glass as a door material (θ³ ζ) The purpose of the present invention is to diversify the design of the door through glass used as a material, and to provide a security glass and a method of manufacturing the same, which can be used as an interior product.
λ³Έ λ°λͺ
μ λ λ€λ₯Έ λͺ©μ μ λ°©λ²μ 리 λ΄λΆμ λ©μ(mesh)μ μΈμλ κ΄κ³ λ¬Έμ λ° λμ λ±μ λ€μν λμμΈμ μΈμνμ¬ κ΄κ³ ν¨κ³Όλ₯Ό λ릴 μ μλ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ μ 곡ν¨μ μλ€.Still another object of the present invention is to provide an anti-theft glass and a method for manufacturing the same, by printing various designs such as advertisement texts and designs printed on a mesh inside the anti-theft glass.
λ³Έ λ°λͺ
μ λ λ€λ₯Έ λͺ©μ μ λ°©λ²μ 리λ₯Ό λ΄λΆμ μλ μ λ¨κΈ°μ μν μ λ¨μ΄ λΆκ°ν λ©μ(mesh)μ΄μ΄μ λ³λλ‘ λ°©λ²μλ¨μΈ λ°©λ²μ°½ λλ λ°©λ²μ
ν°λ₯Ό λΆκ° μ곡νμΌ νλ μ곡μμ λ²κ±°λ¬μμ ν΄μν¨μ λ¬Όλ‘ μΈλΆμΈμ μΉ¨μ
μ μ°¨λ¨ν μ μμ΄ λ°©λ²μ μν μΆκ° λΉμ©μ λ€μ΄μ§ μμλ λλ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ μ 곡ν¨μ μλ€.Another object of the present invention is a mesh that is impossible to cut the method glass by a manual cutter inside, so as to eliminate the inconvenience of the construction of having to separately install a security window or a security shutter as a security means, as well as to block the intrusion of outsiders. It is possible to provide an anti-theft glass and a method of manufacturing the same, which does not require additional costs for security.
μκΈ°ν λͺ©μ μ λ¬μ±νκΈ° μν λ³Έ λ°λͺ
μ, λ°©λ²μ 리 μ μ‘°λ°©λ²μ μμ΄μ, μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S1)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S2)κ³Ό, μκΈ° μ 리μ λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S3)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S4)κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό κ°ν©μ§νλ μ 5κ³Όμ (S5)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S6)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ €λλ μ 7κ³Όμ (S7)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S8)κ³Ό, μκΈ° λ©μκ° ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S9)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S10)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ νΉμ§μΌλ‘ νλ€.The present invention for achieving the above object, in the method for manufacturing a security glass, the first process (S1) for cutting the glass to have a suitable size according to the purpose of use, and the mesh (mesh) like the glass for use purposes According to the second step (S2) of cutting to have a suitable size, and the third step (S3) of washing the foreign substances generated while cutting the glass and the mesh using a washing machine, and hardened when exposed to ultraviolet rays on the surface of the mesh The fourth process (S4) for printing the ad text and the design by UV ink, the fifth process (S5) for bonding the silicon pads on the upper and lower surfaces of the mesh, and the silicon pads between the glass and the glass A sixth step (S6) of putting the mesh back and adding the paper again, a seventh step (S7) of placing the glass on the heater in a state where the glass is laminated, and operating the heater to heat the bonded silicon pad to heat the silicon. The pad is melt hardened and the mesh and oil The eighth process (S8) of integrally laminating, the ninth process (S9) of cooling the glass on which the mesh is laminated, and the tenth process (S10) of compressing the laminated glass with a vacuum compressor to form a security glass (S10). It is characterized by consisting of.
λ³Έ λ°λͺ
μ λ°©λ²μ 리 μ μ‘°λ°©λ²μ μμ΄μ, μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S11)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ°©λ²νλ¦κ³Ό λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S12)κ³Ό, μκΈ° μ 리μ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S13)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S14)κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό λκ³ κ°ν©μ§νλ μ 5κ³Όμ (S15)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S16)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ €λλ μ 7κ³Όμ (S17)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ λ°©λ²νλ¦κ³Ό μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S18)κ³Ό, μκΈ° λ©μμ λ°©λ²νλ¦μ΄ ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S19)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S20)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ νΉμ§μΌλ‘ νλ€.The present invention is a method for manufacturing a security glass, the first step (S11) for cutting the glass to have a suitable size according to the purpose of use, and the security film and the mesh (mesh) like the glass to have a suitable size according to the purpose of use The second process (S12) for cutting, the third process (S13) for washing the foreign matter generated while cutting the glass, security film and the mesh using a washing machine, and the UV ink cured when exposed to ultraviolet rays on the surface of the mesh A fourth step (S14) of printing the ad text and the drawing with a second step (S15) of placing the silicon pads on the upper and lower surfaces of the mesh and laminating the silicon pads between the glass and the glass. The sixth step (S16) of putting the security film and the mesh and re-adding, the seventh step (S17) of placing the glass on the heater in the state that the glass is laminated, and the heater to operate the heated silicon pad The silicone pad melt cured And an eighth process (S18) in which the mesh, the security film, and the glass are integrally laminated, a ninth process (S19) in which the mesh and the security film are laminated, and the laminated glass is compressed by a vacuum compressor. Characterized in that the tenth process (S20) of forming a security glass.
λ³Έ λ°λͺ
μ λ°©λ²μ 리μ μμ΄μ, μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λ μ₯μ μ 리μ, μκΈ° μ 리 ν¬κΈ°λ‘ μ¬λ¨ν λ©μμ, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ ν©μ§νλ μ€λ¦¬μ½ν¨λμ, μκΈ° μ€λ¦¬μ½ν¨λμ μ,νλ©΄μ κ°κ° μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λ κ²μ νΉμ§μΌλ‘ νλ€.The present invention, in the security glass, two pieces of glass cut to have a suitable size according to the purpose of use, the mesh cut to the glass size, and UV ink cured when exposed to ultraviolet rays on the surface of the mesh ad text and design It is characterized in that the printed surface, the silicon pad laminated on the upper and lower surfaces of the mesh, and the glass is integrally laminated on the upper and lower surfaces of the silicon pad, respectively.
λ³Έ λ°λͺ
μ λ°©λ²μ 리μ μμ΄μ, μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λμ₯μ μ 리μ, μκΈ° μ 리 ν¬κΈ°λ‘ μ¬λ¨ν ν¬λͺ
ν λ°©λ²νλ¦κ³Ό, μκΈ° μ 리 ν¬κΈ°λ‘ μ¬λ¨ν λ©μμ, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ ν©μ§λ μ€λ¦¬μ½ν¨λμ, μκΈ° μ€λ¦¬μ½ν¨λμ μ,νλ©΄μ λ°©λ²νλ¦κ³Ό, μκΈ° λ°©λ²νλ¦μ μ,νλ©΄μ κ°κ° ν©μ§λ μ€λ¦¬μ½ν¨λμ, μκΈ° ν©μ§λ μ€λ¦¬μ½ν¨λμ μ,νλ©΄μ κ°κ° μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λ κ²μ νΉμ§μΌλ‘ νλ€.According to the present invention, in the security glass, two pieces of glass cut to have a suitable size according to the purpose of use, a transparent security film cut to the glass size, a mesh cut to the glass size, and the surface of the mesh to ultraviolet rays A printed surface printed with an ad text and a pattern cured by exposure to UV ink, a silicon pad laminated on upper and lower surfaces of the mesh, a security film on upper and lower surfaces of the silicon pad, and an upper and lower surfaces of the security film Each of the silicon pads laminated on the upper and lower surfaces of the laminated silicon pads is characterized in that the glass is integrally laminated.
μμ ν λ°μ κ°μ΄ λ³Έ λ°λͺ
μ λ°λ₯Έ λ°©λ²μ 리 λ° κ·Έ μ μ‘°λ°©λ²μ, μ°½λ¬Έ λλ κ°μ’
λμ΄μ μ¬μ©λμ΄μ§λ λ°©λ²μ λ¦¬λ‘ κ°ν 좩격μ λν λ΄κ΅¬μ±μ ν₯μμν΄μ λ¬Όλ‘ μ 리 νμμ΄ μΌμ΄λλλΌλ λ°©λ²κΈ°λ₯μ΄ λ°νλμ΄ μΈλΆμΈ μΉ¨μ
λ₯Ό μ°¨λ¨ν μ μλ ν¨κ³Όκ° μλ€.As described above, according to the present invention, the security glass and the manufacturing method thereof are used for windows or various doors to improve durability against strong impacts, as well as to prevent external invasion by exhibiting a security function even if glass breakage occurs. It can be effective.
λν, λ μ₯μ μ 리 μ¬μ΄μ μλ©΄ λλ νΈλ©΄(ηι’)μ κ΄κ³ λ¬Έμ λ° λμμ΄ UVμΈμλ λ©μ(mesh)κ° μ€λ¦¬μ½ν¨λμ μν΄ λ§€μ
νμ±λ λ°©λ²μ 리λ₯Ό λμ΄ μμ¬(θ³ζ)λ‘ μ΄μ©ν¨μ λ°λΌ λμ΄μ μμ¬λ‘ μ°μ¬μ§λ μ 리λ₯Ό ν΅ν λμ΄μ λμμΈ λ€μνλ₯Ό κΎν¨μ λ¬Όλ‘ μΈν
λ¦¬μ΄ μ νμΌλ‘μμ μ±λ₯μ΄ λ°νλ μ μλ ν¨κ³Όκ° μλ€.In addition, as the door material is used as a door material using a security glass formed by a silicon pad, a mesh printed with advertisement text and a pattern UV printed on both sides or one side between two pieces of glass is used. In order to diversify the design of the door through the glass, the performance as an interior product can be exhibited.
λν, λ°©λ²μ 리 λ΄λΆμ λ©μ(mesh)μ μΈμλ κ΄κ³ λ¬Έμ λ° λμ λ±μ λ€μν λμμΈμ μΈμνμ¬ κ΄κ³ ν¨κ³Όλ₯Ό λ릴 μ μλ ν¨κ³Όκ° μλ€.In addition, there is an effect that can enjoy the advertising effect by printing a variety of designs, such as advertising text and pattern printed on the mesh (mesh) inside the security glass.
λν, λ°©λ²μ 리λ₯Ό λ΄λΆμ μλ μ λ¨κΈ°μ μν μ λ¨μ΄ λΆκ°ν λ©μ(mesh)μ΄μ΄μ λ³λλ‘ λ°©λ²μλ¨μΈ λ°©λ²μ°½ λλ λ°©λ²μ
ν°λ₯Ό λΆκ° μ곡νμΌ νλ μ곡μμ λ²κ±°λ¬μμ ν΄μν¨μ λ¬Όλ‘ μΈλΆμΈμ μΉ¨μ
μ μ°¨λ¨ν μ μμ΄ λ°©λ²μ μν μΆκ° λΉμ©μ λ€μ΄μ§ μμλ λλ λ§€μ° μ μ©ν λ°λͺ
μ΄λ€.In addition, since the method glass is a mesh that cannot be cut by a manual cutter inside, it eliminates the trouble of construction, which requires additional installation of a crime prevention window or a security shutter, which prevents the intrusion of outsiders. It is a very useful invention that does not cost extra.
λν, λͺ¨μ리 κΉ¨μ΄μ§μ΄ λ°μνμ§ μλνμ¬ μΉ¨μ
μκ° λ¬Ένμ νμνμ¬ λ°©λ²μ 리 λͺ¨μ리λ₯Ό κΉ¨λλΌλ ν΅μμ κ°νμ 리μ κ°μ΄ λͺ¨μ리 κΉ¨μ΄μ§μΌλ‘ μ λ°λλ μ 체 ν¬λνμμ΄ ν΄μλμ΄ μμ μ±μ ν보νμμ λΏλ§ μλλΌ, λ©μ(mesh)μ κ΄κ³ λ¬Έμ λλ λμ λ±μ λ€μν λ¬Έμμ λμμΈμ΄ μΈμλ¨μΌλ‘μ¨, μΈλΆμμ μ€λ΄λ₯Ό λ€μ¬λ€ λ³Ό μ μκ² λλ ν¨κ³Όλ₯Ό κ°μ§μ λ°λΌ λ
ΈμΆμ μν κ°μΈ νλΌμ΄λ²μ¬λ₯Ό μΉ¨ν΄λΉνκ² λλ λ¬Έμ μ μ ν΄μν λ§€μ° μ μ©ν λ°λͺ
μΈ κ²μ΄λ€.In addition, even if the intruder breaks the door frame by breaking the edge of the door without breaking the edge, the entire crack phenomenon caused by the broken edge like the normal tempered glass is eliminated, thereby ensuring stability, It is a very useful invention that solves the problem of being invaded personal privacy due to the effect of not being able to look into the interior from the outside by printing a variety of designs such as advertising text or pattern.
λ 1μ λ³Έ λ°λͺ
μ λ°©λ²μ 리λ₯Ό μ μ‘°νλ μ 쑰곡μ λ.1 is a manufacturing process diagram for manufacturing a security glass of the present invention.
λ 2λ λ³Έ λ°λͺ
μ λ°©λ²μ 리μ λΆλ¦¬μ¬μλ.Figure 2 is an exploded perspective view of the security glass of the present invention.
λ 3μ λ³Έ λ°λͺ
μ λ°©λ²μ 리 ꡬμ±λ.Figure 3 is a security glass configuration of the present invention.
λ 4λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리λ₯Ό μ μ‘°νλ μ 쑰곡μ λ.Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention.
λ 5λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리μ λΆλ¦¬μ¬μλ.5 is an exploded perspective view of a security glass of another embodiment of the present invention.
λ 6μ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리 ꡬμ±λ.Figure 6 is a security glass configuration of another embodiment of the present invention.
λ 7κ³Ό λ 8μ λ³Έ λ°λͺ
μ μν λ°©λ²μ λ¦¬κ° μ¬μ©λμ΄μ§λ μνμ μμλ.Figure 7 and Figure 8 is an illustration of a state where the security glass according to the present invention is used.
οΌλλ©΄μ μ£ΌμλΆλΆμ λν λΆνΈμ μ€λͺ
οΌ<Description of the code | symbol about the principal part of drawing>
10 : μ 리 20 : λ©μ10 glass 20 mesh
30 : μΈμλ©΄ 40 : μ€λ¦¬μ½ν¨λ30: printing surface 40: silicon pad
50 : λ°©λ²νλ¦ 100 : λ°©λ²μ 리50: security film 100: security glass
μ΄ν λ³Έ λ°λͺ
μ λ°λμ§ν μ€μμκ° λμλ μ²¨λΆ λλ©΄μ μ°Έμ‘°νμ¬ λ³΄λ€ μμΈνκ² μ€λͺ
νλ©΄ λ€μκ³Ό κ°λ€. κ·Έλ¬λ λ³Έ λ°λͺ
μ λ€μμ μμ΄ν ννλ‘ κ΅¬νλ μ μκ³ , κΈ°μ λ μ€μ μμ μ νλμ§ μμμ μ΄ν΄νμ¬μΌ νλ€.Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth.
λ 1μ λ³Έ λ°λͺ
μ λ°©λ²μ 리λ₯Ό μ μ‘°νλ μ 쑰곡μ λμ΄κ³ , λ 2λ λ³Έ λ°λͺ
μ λ°©λ²μ 리μ λΆλ¦¬μ¬μλμ΄λ©°, λ 3μ λ³Έ λ°λͺ
μ λ°©λ²μ 리 ꡬμ±λμ΄λ€. κ·Έλ¦¬κ³ , λ 4λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리λ₯Ό μ μ‘°νλ μ 쑰곡μ λμ΄κ³ , λ 5λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리μ λΆλ¦¬μ¬μλμ΄λ©°, λ 6μ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리 ꡬμ±λμ΄κ³ , λ 7κ³Ό λ 8μ λ³Έ λ°λͺ
μ μν λ°©λ²μ λ¦¬κ° μ¬μ©λμ΄μ§λ μνμ μμλμ΄λ€.1 is a manufacturing process chart for producing a security glass of the present invention, Figure 2 is an exploded perspective view of the security glass of the present invention, Figure 3 is a security glass configuration diagram of the present invention. And, Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention, Figure 5 is an exploded perspective view of the security glass of another embodiment of the present invention, Figure 6 is a security glass configuration diagram of another embodiment of the present invention 7 and 8 are exemplary views of a state in which a security glass according to the present invention is used.
λ 1 λ΄μ§ λ 3μ λμν λ°μ κ°μ΄ λ³Έ λ°λͺ
μ λ°©λ²μ 리 μ μ‘° λ°©λ²μ, μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ κ·Έμ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S1)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ κ·Έμ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S2)κ³Ό, μκΈ° μ 리μ λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S3)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ μλμ§λ‘ κ΄νν λ°μμ μΌμΌμΌ μ‘μμΌλ‘λΆν° κ³ μμΌλ‘ μ΄λ¨μλ‘ κ²½ννλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S4)κ³Ό, μκΈ° λ©μμ μμΈ‘λ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό κ°ν©μ§νλ μ 5κ³Όμ (S5)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S6)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λλ μ 7κ³Όμ (S7)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S8)κ³Ό, μκΈ° λ©μκ° ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S9)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S10)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ΄λ€.1 to 3, the method for manufacturing a security glass of the present invention, the first process (S1) for cutting the glass to have a suitable size according to the purpose of use, and using a mesh (mesh) like the glass A second step (S2) of cutting to have a suitable size according to the purpose, a third step (S3) of washing foreign substances generated while cutting the glass and the mesh using a washing machine, and energy of ultraviolet rays on the surface of the mesh A fourth step (S4) of printing an ad text and a design by UV ink curing a second unit from a liquid phase to a solid phase by causing a photochemical reaction, and a fifth step (S5) of adding silicon pads to both sides of the mesh; A sixth step (S6) of placing the mesh pad with the silicon pads mixed therein between the glass and the glass, and adding the mesh again; a seventh step (S7) of placing the glass on the heater in the state in which the glass is bonded; By starting the machine Heating the silicon pad to melt-harden the silicon pad, and an eighth process (S8) in which the mesh and glass are integrally laminated; a ninth process (S9) in which the mesh is cooled; and the laminated glass is vacuumed. Compressed with a compressor to form a tenth security glass (S10).
μκΈ° μ 1κ³Όμ μμ μκΈ° μ 리λ μΌλ°μ 리 λλ κ°νμ λ¦¬μΈ κ²μ΄λ€.In the first process, the glass is plain glass or tempered glass.
μκΈ° μ 8κ³Όμ μμ κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λλ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.In the eighth step, the silicon pad is heated to a temperature of 300-400 Β° C. for 1-2 hours with a heater to melt-harden the silicon pad, and the mesh and the glass are integrally laminated.
μκΈ° λ©μλ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμ ꡬλ©λ€μ΄ νμ±λ κ²μ΄λ€.The mesh is stainless steel, which is a corrosion resistant steel that is not rust, does not corrode, and is not easily cut, and is divided into 16 small holes in 1 cm square in all sizes.
μκΈ° λ©μ(mesh)μλ κ΄κ³ λ¬Έμ λ° λμ μΈμλ₯Ό μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±ν κ²μ΄λ€.In the mesh, ad texts and prints are formed on both sides or one side.
μκΈ° UVμν¬λ μΌλ°μ μΌλ‘ κ΄μ€ν©μ± μμ§(μ€λ¦¬κ³ λ§ λ° λ°μμ± ν¬μμ ), κ΄μ€ν© κ°μμ , μλ£, 보쑰μ , μ€ν© κΈμ§μ λ±μΌλ‘ ꡬμ±λλ€.The UV ink is generally composed of a photopolymerizable resin (origoma and reactive diluent), a photopolymerization initiator, a pigment, an auxiliary agent, a polymerization inhibitor and the like.
μ΄ν, λ³Έ λ°λͺ
μ λ°λμ§ν μ€μμλ₯Ό μ€λͺ
νλ©΄ λ€μκ³Ό κ°λ€.Hereinafter, preferred embodiments of the present invention will be described.
λ³Έ λ°λͺ
μ λ 2μ κ°μ΄ λ°©λ²μ λ¦¬λ‘ μ°μ¬μ§ μμ¬μΈ μ 리(10)μ λ©μ(mesh)(20)λ₯Ό μ λ³νλ€.The present invention screens the glass 10 and the mesh 20, which is a material to be used as security glass, as shown in FIG.
μκΈ°μ κ°μ΄ μ λ³λ μ 리(10)μ λ©μ(mesh)(20)λ₯Ό μ¬μ©ν λͺ©μ μ λ°λΌ κ·Έμ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νμ¬ μ€λΉνκ² λλ€.According to the purpose of using the glass 10 and the mesh (20) selected as described above is prepared to cut to have a suitable size.
*μκΈ° μ 리(10)λ 4βΌ6mmλκ»λ₯Ό μ¬μ©νλ κ²μ΄ μ λΉνκ³ , μ 리(10)μ λκ»λ₯Ό μ κΈ°ν λκ»λ‘ νμ ν νμλ μλ€.* It is suitable to use 4-6 mm thickness for the said glass 10, It is not necessary to limit the thickness of the glass 10 to the thickness which mentioned previously.
μκΈ°μ λ©μ(mesh)(20)λ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ΄ λ°λμ§νλ€.Preferably, the mesh 20 is divided into 16 pieces in a width of 1 cm in all directions to form small holes.
μκΈ° λ©μ(20)λ λ©΄μ UVμΈμμ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ΄ μ λͺ
νλ©΄μ λλ ·νκ² ννλμ΄μ§ μ μκΈ° λλ¬Έμ΄λ€.This is because the mesh 20 can be clearly and clearly expressed in the printing surface 30 printed with the ad text and the pattern when UV printing on the surface.
μκΈ° λ©μ(20)λ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€κ° λ°©λ²ν¨κ³Όκ° λ°μ΄λλ€.The mesh 20 is not rusted, does not corrode even chemicals, and stainless steel, which is not easily cut, is excellent in security.
μκΈ° μ 리(10)μ λ©μ(mesh)(20)λ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νμ¬ μ΄λ¬Όμ§μ μ κ±°νκ² λλ€.The foreign substances generated while cutting the glass 10 and the mesh 20 are removed by using a washing machine to remove foreign substances.
μκΈ°μ κ°μ΄ μ¬λ¨λ μκΈ° μ 리(10)μ λ©μ(mesh)(20)μλ μ¬λ¨κ³Όμ μμ λ°μνλ μΉ© λλ λ¨Όμ§λ±κ³Ό κ°μ μ΄λ¬Όμ§μ΄ λ¬»κ² λλλ°, μκΈ°μ μ΄λ¬Όμ§ μ κ²λ μΈμ²κΈ°μΈ μμ΄μ€νλ μ΄λ₯Ό μ΄μ©νκ² λλ€.The glass 10 and the mesh 20 cut as described above are buried with foreign matters such as chips or dust generated in the cutting process, and the foreign matters are used for the air spray which is a washing machine.
μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμ λ±μ λ€μν λμμΈμ μΈμνλ€.The surface of the mesh 20 is printed with a variety of designs, such as advertising text and designs with UV ink that is cured when exposed to ultraviolet rays.
μκΈ°μ κ°μ΄ λ©μμ λ©΄μ μΈμλλ κ΄κ³ λ¬Έμ λ° λμλ±μ λ€μν λ¬Έμμ λμμΈμ μλ©΄ λλ νΈλ©΄(ηι’)μ μΈμνμ¬ μΈμλ©΄(30)μ νμ±νλ κ²μ΄λ€.As described above, designs of various patterns such as advertisement texts and designs printed on the surface of the mesh are printed on both sides or one side to form the printing surface 30.
κ·Έν, μκΈ° λ©μ(20)μ μΈμλ©΄(30)μ μμΈ‘λ©΄μ μ€λ¦¬μ½ν¨λ(40)λ₯Ό κ°ν©μ§ νλ κ²μ΄λ€.Thereafter, the silicon pad 40 is applied to both sides of the printing surface 30 on the mesh 20.
μκΈ° μ 리(10)μ μ 리(10) μ¬μ΄μ μ€λ¦¬μ½ν¨λ(40)κ° κ°ν©μ§λ λ©μ(20)λ₯Ό λ£κ³ λ€μ κ°ν©μ§ νλ κ²μ΄λ€.Between the glass 10 and the glass 10, the silicon pad 40 is inserted into the mesh 20, the paper 20 is put together again.
μκΈ°μ κ°μ μνμμ μκΈ° μ 리(10)κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λκ³ , μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λ(40)λ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.In the above state, the glass 10 is placed on a heater in a state of being bonded, and the heater is operated to heat the bonded silicon pad 40 to melt-harden the silicon pad 40 and the mesh 20. And glass 10 are integrally laminated.
μ΄λ, κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λ(40)λ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μν€λ κ²μ μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅λλ©° λ©μ(20)μ μμꡬλ©μΌλ‘ λ€μ΄κ°λ©° ν©μ§λλ©° μ 리(10)λ κ°μ΄ ν©μ§ λλ©΄μ λ°μλλ κΈ°ν¬κ° μΈλΆλ‘ μμν λΉ μ Έλκ°λλ‘ νμ¬ μ 리(10)μ λ©μ(20)κ° μ€λ¦¬μ½ν¨λ(40)μ μν΄ ν©μ§μ λ΄λΆμ κΈ°ν¬κ° νμ±λμ§ μκ² λλ κ²μ΄λ€. μκΈ°μ κ°μ΄ μ 리(10)μ λ΄λΆμ κΈ°ν¬κ° νμ±λμ§ μμ μΈλΆμμ λ³Όλ λ©μ(20)μ μΈμλ μΈμλ©΄(30)μ΄ μ λͺ
νκ² λ³΄μ΄κ² λλ κ²μ΄λ€.At this time, heating the silicon pad 40 at a temperature of 300-400 Β° C. with a heater for 1-2 hours may cause the silicon pad 40 to melt and enter the small holes of the mesh 20 to be laminated and the glass 10 to be laminated together. The bubbles are generated to gradually escape to the outside so that the bubbles are not formed inside the glass 10 and the mesh 20 when they are laminated by the silicon pad 40. As described above, since bubbles are not formed in the glass 10, the printing surface 30 printed on the mesh 20 is clearly visible when viewed from the outside.
μκΈ°μ κ°μ΄ λ©μ(20)κ° κ²¬κ³ ν ν©μ§λ μ 리(10)λ₯Ό λκ°μν¨λ€.As described above, the glass 10 in which the mesh 20 is firmly laminated is cooled.
μ΄ν, λ©μ(20)κ° λ΄λΆμ κ²¬κ³ ν ν©μ§λ μ 리(10)λ₯Ό μ§κ³΅ μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리(100)λ₯Ό νμ±νλ κ²μ΄λ€.Thereafter, the mesh 20 is compressed to form a security glass 100 by compressing the glass 10 firmly laminated therein with a vacuum compressor.
μκΈ°μ κ°μ΄ μ μ‘°λ λ°©λ²μ 리(100)λ₯Ό μ°½λ¬Έ λλ λμ΄μ μμ¬(θ³ζ)λ‘ λ 7κ³Ό λ 8μ μμν λ°μ κ°μ΄ μ¬μ©λμ΄μ§κ² λλ κ²μ΄λ€. Security glass 100 manufactured as described above is to be used as illustrated in Figures 7 and 8 as a material (μ°½λ¬Έ) of the window or door.
λ³Έ λ°λͺ
μ λ 2μ λ 3μ λμν λ°μ κ°μ΄ λ°©λ²μ 리(100)μ μμ΄μ, μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λμ₯μ μ 리(10)μ, μκΈ° μ 리(10) ν¬κΈ°λ‘ μ¬λ¨ν λ©μ(20)μ, μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)κ³Ό, μκΈ° λ©μ(20)μ μ,νλ©΄μ ν©μ§νλ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ κ°κ° μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λ κ²μ΄λ€.2 and 3, in the security glass 100, two pieces of glass 10 cut to have a suitable size according to the purpose of use, and a mesh cut to the size of the glass (10) 20), a printing surface 30 on which the ad text and the pattern are printed with UV ink that is cured when exposed to ultraviolet rays on the surface of the mesh 20, and a silicon pad laminated on the upper and lower surfaces of the mesh 20 ( 40 and glass 10 are integrally laminated on upper and lower surfaces of the silicon pad 40.
μκΈ° μ 리(10)λ μΌλ°μ 리 λλ κ°νμ λ¦¬μΈ κ²μ΄λ€.The glass 10 is plain glass or tempered glass.
μκΈ° λ©μ(20)λ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ΄λ€.The mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut. The mesh 20 is divided into 16 pieces in a size of 1 cm in all directions to form small holes.
μκΈ° μ€λ¦¬μ½ν¨λ(40)λ 300-400βμ¨λλ‘ 1-2μκ° λμ κ°μ΄κΈ°λ‘ κ°μ΄μμΌ μκΈ° μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ μμꡬλ©μ ν΅ν΄ ν©μ§λλ©° μμΈ‘λ©΄μ μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.The silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1-2 hours to melt-harden the silicon pad 40 and to be laminated through the small holes of the mesh 20. It will be united together.
μκΈ° λ©μ(20)μλ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±νλ κ²μ΄λ€.The mesh 20 is formed on both sides or one side of the printing surface 30 printed with advertising text and drawings.
λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμλ‘μ, λ 4λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리λ₯Ό μ μ‘°νλ μ 쑰곡μ λμ΄κ³ , λ 5λ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리μ λΆλ¦¬μ¬μλμ΄λ©°, λ 6μ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리 ꡬμ±λμ΄λ€.As another embodiment of the present invention, Figure 4 is a manufacturing process of manufacturing a security glass of another embodiment of the present invention, Figure 5 is an exploded perspective view of another embodiment of the security glass, Figure 6 is another embodiment of the present invention An example of the security glass configuration.
λ 4 λ΄μ§ λ 5λ₯Ό μ°Έμ‘°νμ¬ λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμμ λ°©λ²μ 리 μ μ‘°λ°©λ²μ μ€λͺ
νλ©΄ νκΈ°μ κ°λ€.Referring to Figures 4 to 5 describes a method for producing a security glass of another embodiment of the present invention as follows.
λ³Έ λ°λͺ
μ λ°©λ²μ 리 μ μ‘°λ°©λ²μ μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S11)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ°©λ²νλ¦κ³Ό λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S12)κ³Ό, μκΈ° μ 리μ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S13)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S14)κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό λκ³ κ°ν©μ§νλ μ 5κ³Όμ (S15)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S16)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λλ μ 7κ³Όμ (S17)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ λ°©λ²νλ¦κ³Ό μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S18)κ³Ό, μκΈ° λ©μμ λ°©λ²νλ¦μ΄ ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S19)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S20)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ΄λ€.Security method for manufacturing a security glass of the present invention is the first step (S11) for cutting the glass to have a suitable size according to the purpose of use, and cutting the security film and mesh (mesh), such as the glass to have a suitable size according to the purpose of use The second process (S12), the third process (S13) for cleaning the foreign matter generated while cutting the glass, the security film and the mesh using a washing machine, and UV ink cured when exposed to ultraviolet rays on the surface of the mesh A fourth process (S14) for printing text and drawings, a fifth process (S15) for placing the silicon pads on the upper and lower surfaces of the mesh and putting them together, and a security film with the silicon pads interposed between the glass and the glass. A sixth step (S16) of putting the mesh and mesh back together, and a seventh step (S17) of placing the glass on the heater while the glass is bonded, and heating the bonded silicon pad by operating the heater. The pads are melt cured and The eighth process (S18) of the city and the crime prevention film and the glass is integrally laminated, the ninth process (S19) of cooling the glass laminated with the mesh and the crime prevention film, and by compressing the laminated glass with a vacuum compressor It consists of a tenth process (S20) of forming the glass.
μκΈ° μ 1κ³Όμ μμ μκΈ° μ 리λ μΌλ°μ 리 λλ κ°νμ λ¦¬μΈ κ²μ΄λ€.In the first process, the glass is plain glass or tempered glass.
μκΈ° μ 8κ³Όμ μμ κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λλ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ λ°©λ²νλ¦κ³Ό μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.In the eighth process, the silicon pad is heated at a temperature of 300-400 Β° C. for 1-2 hours with a heater to melt-harden the silicon pad, and the mesh, the security film, and the glass are integrally laminated.
μκΈ° λ©μλ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ΄λ€.The mesh is stainless steel, which is a corrosion resistant steel that is not rust, does not corrode, and is not easily cut, and is divided into 16 in 1 cm width in all sizes to form small holes.
μκΈ° λ©μμλ κ΄κ³ λ¬Έμ λ° λμ μΈμλ₯Ό μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±λ κ²μ΄λ€.The mesh is formed on both sides or one side of the ad text and print.
μκΈ° UVμν¬λ μΌλ°μ μΌλ‘ κ΄μ€ν©μ± μμ§(μ€λ¦¬κ³ λ§ λ° λ°μμ± ν¬μμ ), κ΄μ€ν© κ°μμ , μλ£, 보쑰μ , μ€ν© κΈμ§μ λ±μΌλ‘ ꡬμ±λλ€.The UV ink is generally composed of a photopolymerizable resin (origoma and reactive diluent), a photopolymerization initiator, a pigment, an auxiliary agent, a polymerization inhibitor and the like.
λ³Έ λ°λͺ
μ λ 5μ κ°μ΄ λ°©λ²μ λ¦¬λ‘ μ°μ¬μ§ μμ¬μΈ μ 리(10)μ λ©μ(mesh)(20)μ λ°©λ²νλ¦(50)λ₯Ό μ λ³νλ€.The present invention screens the glass 10 and the mesh (20) and the security film (50) which is a material to be used as security glass as shown in FIG.
μκΈ°μ κ°μ΄ μ λ³λ μ 리(10)μ λ©μ(mesh)(20)μ λ°©λ²νλ¦(50)μ μ¬μ©ν λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νμ¬ μ€λΉνκ² λλ€.According to the purpose of using the glass 10, the mesh (20) and the anti-theft film (50) selected as described above is cut and prepared to have a suitable size.
μκΈ° μ 리(10)λ 4βΌ6mmλκ»λ₯Ό μ¬μ©νλ κ²μ΄ μ λΉνκ³ , μ 리(10)μ λκ»λ₯Ό μ κΈ°ν λκ»λ‘ νμ ν νμλ μλ€.As for the said glass 10, it is suitable to use 4-6 mm thickness, and it is not necessary to limit the thickness of the glass 10 to the thickness which mentioned above.
μκΈ° λ°©λ²νλ¦(50)μ λμ ν΄μ λ°©ννλ¦μ μ¬μ©ν μλ μλ€.An anti-ballistic film may be used in place of the anti-theft film 50.
μκΈ°μ λ©μ(mesh)(20)λ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ΄ λ°λμ§νλ€.Preferably, the mesh 20 is divided into 16 pieces in a width of 1 cm in all directions to form small holes.
μκΈ° λ©μ(20)λ λ©΄μ UVμΈμμ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ΄ μ λͺ
νλ©΄μ λλ ·νκ² ννλμ΄μ§ μ μκΈ° λλ¬Έμ΄λ€.This is because the mesh 20 can be clearly and clearly expressed in the printing surface 30 printed with the ad text and the pattern when UV printing on the surface.
μκΈ° λ©μ(20)λ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€κ° λ°©λ²ν¨κ³Όκ° λ°μ΄λλ€.The mesh 20 is not rusted, does not corrode even chemicals, and stainless steel, which is not easily cut, is excellent in security.
μκΈ° μ 리(10)μ λ©μ(mesh)(20)μ λ°©λ²νλ¦(50)λ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νμ¬ μ΄λ¬Όμ§μ μ κ±°νκ² λλ€.The foreign substances generated while cutting the glass 10, the mesh 20, and the anti-theft film 50 are cleaned by using a washing machine to remove foreign substances.
μκΈ°μ κ°μ΄ μ¬λ¨λ μκΈ° μ 리(10)μ λ©μ(mesh)(20)μΈ λ°©λ²νλ¦(50)μλ μ¬λ¨κ³Όμ μμ λ°μνλ μΉ© λλ λ¨Όμ§λ±κ³Ό κ°μ μ΄λ¬Όμ§μ΄ λ¬»κ² λλλ°, μκΈ°μ μ΄λ¬Όμ§ μ κ²λ μΈμ²κΈ°μΈ μμ΄μ€νλ μ΄λ₯Ό μ΄μ©νκ² λλ€.As described above, the glass 10 and the mesh 20 and the security film 50, which are cut as described above, may have foreign substances such as chips or dust generated during the cutting process, and the foreign matter may be a washing machine. Will be used.
μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμ λ±μ λ€μν λμμΈμ μΈμνλ€.The surface of the mesh 20 is printed with a variety of designs, such as advertising text and designs with UV ink that is cured when exposed to ultraviolet rays.
μκΈ°μ κ°μ΄ λ©μ(20)μ λ©΄μ μΈμλλ κ΄κ³ λ¬Έμ λ° λμλ±μ λ€μν λ¬Έμμ λμμΈμ μλ©΄ λλ νΈλ©΄(ηι’)μ μΈμνμ¬ μΈμλ©΄(30)μ νμ±νλ κ²μ΄λ€.As described above, designs of various patterns such as advertisement texts and drawings printed on the surface of the mesh 20 are printed on both sides or one side to form the printing surface 30.
κ·Έν, μκΈ° λ©μ(20)μ μΈμλ©΄(30)μ μ,νλ©΄μ κ°κ° μ€λ¦¬μ½ν¨λ(40)λ₯Ό λ°©λ²νλ¦(50)κ³Ό μ€λ¦¬μ½ν¨λ(40)λ₯Ό λκ³ κ°ν©μ§ νλ κ²μ΄λ€.Thereafter, the silicon pads 40 are placed on the upper and lower surfaces of the printing surface 30 on the mesh 20 by placing the security film 50 and the silicon pads 40 respectively.
μκΈ° μ 리(10)μ μ 리(10) μ¬μ΄μ μ€λ¦¬μ½ν¨λ(40)μ κ°ν©μ§λ λ°©λ²νλ¦(50)κ³Ό λ©μ(20)λ₯Ό λ£κ³ λ€μ κ°ν©μ§ νλ κ²μ΄λ€.Between the glass 10 and the glass 10 is to put the silicon pad 40, the anti-theft film 50 and the mesh 20, and the mesh 20 is added again.
μκΈ°μ κ°μ μνμμ μκΈ° μ 리(10)κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λκ³ , μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λ(40)λ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ λ°©λ²νλ¦(50)κ³Ό μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.In the above state, the glass 10 is placed on a heater in a state of being bonded, and the heater is operated to heat the bonded silicon pad 40 to melt-harden the silicon pad 40 and the mesh 20. And the security film 50 and the glass 10 will be integrally laminated.
μ΄λ, κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λ(40)λ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μν€λ κ²μ μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅λλ©° λ©μ(20)μ μμꡬλ©μΌλ‘ λ€μ΄κ°λ©° ν©μ§λλ©° μ 리(10)λ κ°μ΄ ν©μ§ λλ©΄μ λ°μλλ κΈ°ν¬κ° μΈλΆλ‘ μμν λΉ μ Έλκ°λλ‘ νμ¬ μ 리(10)μ λ©μ(20)κ° μ€λ¦¬μ½ν¨λ(40)μ μν΄ ν©μ§μ λ΄λΆμ κΈ°ν¬κ° νμ±λμ§ μκ² λλ κ²μ΄λ€. μκΈ°μ κ°μ΄ μ 리(10)μ λ΄λΆμ κΈ°ν¬κ° νμ±λμ§ μμ μΈλΆμμ λ³Όλ λ©μ(20)μ μΈμλ μΈμλ©΄(30)μ΄ μ λͺ
νκ² λ³΄μ΄κ² λλ κ²μ΄λ€.At this time, heating the silicon pad 40 at a temperature of 300-400 Β° C. with a heater for 1-2 hours may cause the silicon pad 40 to melt and enter the small holes of the mesh 20 to be laminated and the glass 10 to be laminated together. The bubbles are generated to gradually escape to the outside so that the bubbles are not formed inside the glass 10 and the mesh 20 when they are laminated by the silicon pad 40. As described above, since bubbles are not formed in the glass 10, the printing surface 30 printed on the mesh 20 is clearly visible when viewed from the outside.
μκΈ°μ κ°μ΄ λ©μ(20)μ λ°©λ²νλ¦(50) λ΄λΆμ κ²¬κ³ ν ν©μ§λ μ 리(10)λ₯Ό λκ°μν¨λ€.As described above, the glass 10 that is firmly laminated in the mesh 20 and the security film 50 is cooled.
*μκΈ°μ κ°μ΄ λ©μ(20)μ λ°©λ²νλ¦(50)λ΄λΆμ κ²¬κ³ ν ν©μ§λ μ 리(10)λ₯Ό μ§κ³΅ μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리(100)λ₯Ό νμ±νλ κ²μ΄λ€.* As described above, the glass 10 firmly laminated in the mesh 20 and the security film 50 is compressed by a vacuum compressor to form the security glass 100.
μκΈ°μ κ°μ΄ μ μ‘°λ λ°©λ²μ 리(100)λ₯Ό μ°½λ¬Έ λλ λμ΄μ μμ¬(θ³ζ)λ‘ λ 7κ³Ό λ 8μ μμν λ°μ κ°μ΄ μ¬μ©λμ΄μ§κ² λλ κ²μ΄λ€. Security glass 100 manufactured as described above is to be used as illustrated in Figures 7 and 8 as a material (θ³ ζ) of the window or door.
λ³Έ λ°λͺ
μ λ€λ₯Έ μ€μμλ‘μ λ 5μ λ 6μ λμν λ°μ κ°μ΄ λ°©λ²μ 리(100)μ μμ΄μ, μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λμ₯μ μ 리(10)μ, μκΈ° μ 리 ν¬κΈ°λ‘ μ¬λ¨ν ν¬λͺ
ν λ°©λ²νλ¦(50)κ³Ό, μκΈ° μ 리(10) ν¬κΈ°λ‘ μ¬λ¨ν λ©μ(20)μ, μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ
ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)κ³Ό, μκΈ° λ©μ(20)μ μ,νλ©΄μ ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ λ°©λ²νλ¦(50)κ³Ό, μκΈ° λ°©λ²νλ¦(50)μ μ,νλ©΄μ κ°κ° ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ κ°κ° μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λ κ²μ΄λ€.In another embodiment of the present invention, as shown in Figures 5 and 6, in the security glass 100, two pieces of glass 10 cut to have a suitable size according to the purpose of use, and the transparent cut to the glass size Security film 50, the mesh 20 cut to the size of the glass 10, and the printed surface (30) printed ad text and pattern with UV ink that is cured when exposed to ultraviolet rays on the surface of the mesh (20) ), The silicon pad 40 laminated on the upper and lower surfaces of the mesh 20, the security film 50 on the upper and lower surfaces of the silicon pad 40, and the upper and lower surfaces of the security film 50. The silicon pads 40 respectively laminated on the glass pads and the glass 10 are integrally laminated on the upper and lower surfaces of the laminated silicon pads 40, respectively.
μκΈ° μ 리(10)λ μΌλ°μ 리 λλ κ°νμ λ¦¬μΈ κ²μ΄λ€.The glass 10 is plain glass or tempered glass.
μκΈ° λ©μ(20)λ λ
Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν
μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ΄λ€.The mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut. The mesh 20 is divided into 16 pieces in a size of 1 cm in all directions to form small holes.
μκΈ° μ€λ¦¬μ½ν¨λ(40)λ 300-400βμ¨λλ‘ 1-2μκ° λμ κ°μ΄κΈ°λ‘ κ°μ΄μμΌ μκΈ° μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ λ°©λ²νλ¦(50)κ³Ό μ,νλ©΄ μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ΄λ€.The silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1 to 2 hours to melt and harden the silicon pad 40, and the upper surface and the upper surface of the mesh 20 and the security film 50. Will be united together.
μκΈ° λ©μ(20)μλ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±λ κ²μ΄λ€.The mesh 20 is formed on both sides or one side of the printing surface 30 printed with the ad text and design.
μκΈ°μ κ°μ λ°©λ²μ 리(100)λ μ°½λ¬Έμ°½ λλ λμ΄μ μ΄μ©ν¨μ λ°λΌ λμ΄μ μμ¬λ‘ μ°μ¬μ§λ μ 리λ₯Ό ν΅ν λμ΄μ λμμΈ λ€μνλ₯Ό κΎν¨μ λ¬Όλ‘ μΈν
λ¦¬μ΄ μ νμΌλ‘μ¨μ μ±λ₯μ΄ λ°ν λ λΏλ§ μλλΌ, λ©μ(mesh)μ μΈμλ κ΄κ³ λ¬Έμ λ° λμμ ν΅ν κ΄κ³ ν¨κ³Όλ κΈ°λν μ μλ λ λ€λ₯Έ λΆκ°κ°μΉλ₯Ό μ°½μΆν΄ λΌ μ μμΌλ©°, μλ μ λ¨κΈ°μ μν μ λ¨μ΄ λΆκ°ν λ©μ(mesh)μ΄μ΄μ λ°©λ²μλ¨μΈ λ°©λ²μ°½ λλ λ°©λ²μ
ν°λ₯Ό λΆκ° μ곡ν΄μΌ νλ μ곡μμ λ²κ±°λ¬μμ ν΄μν¨μ λ¬Όλ‘ μΈλΆμΈμ μΉ¨μ
μ μ°¨λ¨ν μ μμ΄ λ°©λ²μ μν μΆκ° λΉμ©μ λ€μ΄μ§ μμλ λλ λ§€μ° μ μ©ν κ²μ΄λ€.The security glass 100 as described above is not only intended to diversify the design of the door through the glass used as the material of the door as used in the window or the door, but also exhibits performance as an interior product, as well as mesh. The advertising effect printed on the advertisement text and pattern can also create additional value that can be expected, and since it is a mesh that cannot be cut by a manual cutter, it is necessary to add a security window or a security shutter which is a security means. Eliminating the inconvenience of construction, as well as blocking the intrusion of outsiders is very useful without the additional cost for crime prevention.
μ΄μμμ λ³Έ λ°λͺ
μ λ°λμ§ν μ€μμλ₯Ό μ€λͺ
νμμΌλ. λ³Έ λ°λͺ
μ λ€μν λ³νμ λ³κ²½ λ° κ· λ±λ¬Όμ μ¬μ©ν μ μλ€. λ³Έ λ°λͺ
μ μκΈ° μ€μμλ₯Ό μ μ ν λ³ννμ¬ λμΌνκ² μμ©ν μ μμμ΄ λͺ
ννλ€. λ°λΌμ μκΈ° κΈ°μ¬ λ΄μ©μ νκΈ° νΉνμ²κ΅¬λ²μμ νκ³μ μν΄ μ ν΄μ§λ λ³Έ λ°λͺ
μ λ²μλ₯Ό νμ νλ κ²μ΄ μλλ€.The preferred embodiment of the present invention has been described above. The present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.
ννΈ, λ³Έ λ°λͺ
μ μμΈν μ€λͺ
μμλ ꡬ체μ μΈ μ€μ μμ κ΄ν΄μ μ€λͺ
νμμΌλ, λ³Έ λ°λͺ
μ λ²μμμ λ²μ΄λμ§ μλ νλ λ΄μμ μ¬λ¬ κ°μ§ λ³νμ΄ κ°λ₯ν¨μ λΉν΄ λΆμΌμμ ν΅μμ μ§μμ κ°μ§ μμκ² μμ΄μ μλͺ
νλ€ ν κ²μ΄λ€.Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.
Claims (16)
- μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S1)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S2)κ³Ό, μκΈ° μ 리μ λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S3)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S4)κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό κ°ν©μ§νλ μ 5κ³Όμ (S5)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S6)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λλ μ 7κ³Όμ (S7)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S8)κ³Ό, μκΈ° λ©μκ° ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S9)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S10)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².First process (S1) for cutting the glass to have a suitable size according to the purpose of use, Second process (S2) for cutting the mesh (mesh) like the glass to have a suitable size according to the purpose of use, and the glass A third step (S3) of washing the foreign substances generated while cutting the mesh by using a washing machine, a fourth step (S4) of printing ad text and a design by UV ink which is cured when exposed to ultraviolet rays on the surface of the mesh, A fifth step (S5) of laminating the silicon pads on the upper and lower surfaces of the mesh, a sixth step (S6) of putting the mesh of the silicon pads laminated therebetween between the glass and the glass, and re-adding the mesh; The seventh step (S7) of placing on the heater in the state of being bonded, and the eighth step (S8) in which the silicon pad is melt-cured and the mesh and the glass are integrally laminated by heating the bonded silicon pad by operating the heater. ), And when the mesh is laminated glass The key is a security glass manufacturing method comprising a ninth process (S9), and the tenth process (S10) of compressing the laminated glass with a vacuum compressor to form a security glass.
- μ 1νμ μμ΄μ, The method of claim 1,μκΈ° μ 1κ³Όμ μμ μκΈ° μ 리λ μΌλ°μ 리 λλ κ°νμ 리μ΄λ©°, μκΈ° μ 8κ³Όμ μμ κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λλ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².In the first step, the glass is ordinary glass or tempered glass, and in the eighth step, the silicon pad is heated to 300-400 Β° C. for 1-2 hours with a heater to melt and harden the silicon pad, and the mesh and the glass are integrally laminated. Security glass manufacturing method characterized in that it is.
- μ 2νμ μμ΄μ,The method of claim 2,μκΈ° λ©μλ λ Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².The mesh is made of stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode, and is not easily cut, and is divided into 16 pieces in a width of 1 cm in all directions from a total size.
- μ 1ν λ΄μ§ μ 3νμ€ μ΄λ ν νμ μμ΄μ, μκΈ° λ©μ(mesh)μλ κ΄κ³ λ¬Έμ λ° λμ μΈμλ₯Ό μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±ν¨μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².According to any one of claims 1 to 3, wherein the mesh (mesh) is formed on both sides or one side (ad text) and print on the anti-theft glass manufacturing method characterized in that.
- μ 리λ₯Ό μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 1κ³Όμ (S11)κ³Ό, μκΈ° μ 리μ κ°μ΄ λ°©λ²νλ¦κ³Ό λ©μ(mesh)λ₯Ό μ¬μ© λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨νλ μ 2κ³Όμ (S12)κ³Ό, μκΈ° μ 리μ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό μ¬λ¨νλ©΄μ λ°μν μ΄λ¬Όμ§μ μΈμ²κΈ°λ₯Ό μ΄μ©νμ¬ μΈμ²νλ μ 3κ³Όμ (S13)κ³Ό, μκΈ° λ©μμ λ©΄μ μμΈμ μ λ ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμνλ μ 4κ³Όμ (S14)κ³Ό, μκΈ° λ©μμ μ,νλ©΄μ μ€λ¦¬μ½ν¨λλ₯Ό λκ³ κ°ν©μ§νλ μ 5κ³Όμ (S15)κ³Ό, μκΈ° μ 리μ μ 리 μ¬μ΄μ μ€λ¦¬μ½ν¨λκ° κ°ν©μ§λ λ°©λ²νλ¦κ³Ό λ©μλ₯Ό λ£κ³ λ€μ κ°ν©μ§νλ μ 6κ³Όμ (S16)κ³Ό, μκΈ° μ λ¦¬κ° κ°ν©μ§λ μνλ‘ κ°μ΄κΈ°μ μ¬λ € λλ μ 7κ³Όμ (S17)κ³Ό, μκΈ° κ°μ΄κΈ°λ₯Ό κ°λμμΌ κ°ν©μ§λ μ€λ¦¬μ½ν¨λλ₯Ό κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ λ°©λ²νλ¦κ³Ό μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ μ 8κ³Όμ (S18)κ³Ό, μκΈ° λ©μμ λ°©λ²νλ¦μ΄ ν©μ§λ μ 리λ₯Ό λκ°μν€λ μ 9κ³Όμ (S19)κ³Ό, μκΈ° ν©μ§λ μ 리λ₯Ό μ§κ³΅μμΆκΈ°λ‘ μμΆνμ¬ λ°©λ²μ 리λ₯Ό νμ±νλ μ 10κ³Όμ (S20)μΌλ‘ μ΄λ£¨μ΄μ§ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².First process (S11) for cutting the glass to have a suitable size according to the purpose of use, Second process (S12) for cutting the security film and mesh (mesh), such as the glass to have a suitable size according to the purpose of use, The third process (S13) of washing the foreign substances generated while cutting the glass, the security film and the mesh using a washing machine, and the fourth printing the ad text and the design with UV ink which is cured when exposed to ultraviolet rays on the surface of the mesh. Process (S14), and the fifth step (S15) of putting the silicon pads on the upper and lower surfaces of the mesh and the paper, and putting the security film and the mesh with the silicon pad is bonded between the glass and the glass and the paper The sixth step (S16), the seventh step (S17) of placing the glass in the state that the glass is added to the heater, and the silicon pad is melt-hardened by heating the bonded silicon pad by operating the heater to prevent the mesh and crime prevention Film and glass are integral Eighth process (S18) to be laminated, the ninth process (S19) for cooling the glass laminated the mesh and the anti-theft film, and the tenth process (S20) to compress the laminated glass to form a security glass by using a vacuum compressor (S20) Anti-theft glass manufacturing method characterized in that consisting of.
- μ 5νμ μμ΄μ, The method of claim 5,μκΈ° μ 1κ³Όμ μμ μκΈ° μ 리λ μΌλ°μ 리 λλ κ°νμ 리μ΄λ©°, μκΈ° μ 8κ³Όμ μμ κ°μ΄κΈ°λ‘ μ€λ¦¬μ½ν¨λλ₯Ό 300-400βμ¨λλ‘ 1-2μκ° κ°μ΄μμΌ μ€λ¦¬μ½ν¨λκ° μ©μ΅ κ²½νλλ©° λ©μμ λ°©λ²νλ¦κ³Ό μ λ¦¬κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².In the first process, the glass is ordinary glass or tempered glass, and in the eighth process, the silicon pad is melt-cured by heating the silicon pad at a temperature of 300-400 Β° C. for 1-2 hours with a heater, and the mesh, the security film, and the glass are Security glass manufacturing method characterized in that integrally laminated.
- μ 6νμ μμ΄μ,The method of claim 6,μκΈ° λ©μλ λ Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².The mesh is made of stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode, and is not easily cut, and is divided into 16 pieces in a width of 1 cm in all directions from a total size.
- μ 5ν λ΄μ§ μ 7νμ€ μ΄λ ν νμ μμ΄μ, μκΈ° λ©μμλ κ΄κ³ λ¬Έμ λ° λμ μΈμλ₯Ό μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±ν¨μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리 μ μ‘°λ°©λ².The method of claim 5, wherein the mesh is formed on both sides or one side of an advertisement text and a print of a pattern.
- λ°©λ²μ 리μ μμ΄μ,In security glass,μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λμ₯μ μ 리(10)μ, μκΈ° μ 리(10) ν¬κΈ°λ‘ μ¬λ¨ν λ©μ(20)μ, μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)κ³Ό, μκΈ° λ©μ(20)μ μ,νλ©΄μ ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ κ°κ° μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.Two pieces of glass 10 cut to have a suitable size according to the purpose of use, a mesh 20 cut to the size of the glass 10, and UV ink that is cured when exposed to ultraviolet rays on the surface of the mesh 20. The printing surface 30 printed with the ad text and the design, the silicon pad 40 laminated on the upper and lower surfaces of the mesh 20, and the glass 10 on the upper and lower surfaces of the silicon pad 40, respectively. Security glass, characterized in that integrally laminated.
- μ 9νμ μμ΄μ, The method of claim 9,μκΈ° μ 리(10)λ μΌλ°μ 리 λλ κ°νμ 리μ΄λ©°, μκΈ° λ©μ(20)λ λ Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.The glass 10 is ordinary glass or tempered glass, and the mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut. Security glass, characterized in that the small holes are formed.
- μ 10νμ μμ΄μ,The method of claim 10,μκΈ° μ€λ¦¬μ½ν¨λ(40)λ 300-400βμ¨λλ‘ 1-2μκ° λμ κ°μ΄κΈ°λ‘ κ°μ΄μμΌ μκΈ° μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ μμꡬλ©μ ν΅ν΄ ν©μ§λλ©° μ,νλ©΄μ μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.The silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1-2 hours to melt-harden the silicon pad 40 and to be laminated through the small holes of the mesh 20. Anti-glare glass, characterized in that is laminated integrally.
- μ 9ν λ΄μ§ μ 11νμ€ μ΄λ ν νμ μμ΄μ, μκΈ° λ©μ(20)μλ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±ν¨μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.12. The anti-theft glass according to any one of claims 9 to 11, wherein the mesh (20) is formed on both sides or one side of a printing surface (30) printed with an ad text and a drawing.
- λ°©λ²μ 리μ μμ΄μ,In security glass,μ¬μ©λͺ©μ μ λ°λΌ μ λΉν ν¬κΈ°λ₯Ό κ°λλ‘ μ¬λ¨ν λμ₯μ μ 리(10)μ, μκΈ° μ 리 ν¬κΈ°λ‘ μ¬λ¨ν ν¬λͺ ν λ°©λ²νλ¦(50)κ³Ό, μκΈ° μ 리(10) ν¬κΈ°λ‘ μ¬λ¨ν λ©μ(20)μ, μκΈ° λ©μ(20)μ λ©΄μ μμΈμ μ λ ΈμΆλλ©΄ κ²½νλλ UVμν¬λ‘ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)κ³Ό, μκΈ° λ©μ(20)μ μ,νλ©΄μ ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ λ°©λ²νλ¦(50)κ³Ό, μκΈ° λ°©λ²νλ¦(50)μ μ,νλ©΄μ κ°κ° ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ, μκΈ° ν©μ§λ μ€λ¦¬μ½ν¨λ(40)μ μ,νλ©΄μ κ°κ° μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.Two pieces of glass 10 cut to have a suitable size according to the purpose of use, a transparent security film 50 cut to the glass size, a mesh 20 cut to the size of the glass 10, and the mesh ( 20) the printing surface 30 printed with the ad text and the pattern is cured when exposed to ultraviolet rays, the silicon pad 40 laminated on the upper and lower surfaces of the mesh 20, and the silicon pad Security film 50 on the upper and lower surfaces of the 40, silicon pads 40 laminated on the upper and lower surfaces of the security film 50, respectively, and the upper and lower surfaces of the laminated silicon pads 40, respectively. Security glass, characterized in that the glass 10 is integrally laminated.
- μ 13νμ μμ΄μ,The method of claim 13,μκΈ° μ 리(10)λ μΌλ°μ 리 λλ κ°νμ 리μ΄λ©°, μκΈ° λ©μ(20)λ λ Ήμ΄ μ¬μ§ μκ³ μ½νμλ λΆμνμ§ μμΌλ©° μ½κ² μ λ¨λμ§ μλ λ΄μμ± κ°μ² μΈ μ€ν μΈλ μ€(stainless)λ‘ μ 체 ν¬κΈ°μμ μ¬λ°© 1cm λμ΄ μμ 16κ°λ‘ λΆν λμ΄ μμꡬλ©λ€μ΄ νμ±λ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.The glass 10 is ordinary glass or tempered glass, and the mesh 20 is stainless steel, which is corrosion-resistant steel that is not rusted, does not corrode against chemicals, and is not easily cut. Security glass, characterized in that the small holes are formed.
- μ 14νμ μμ΄μ,The method of claim 14,μκΈ° μ€λ¦¬μ½ν¨λ(40)λ 300-400βμ¨λλ‘ 1-2μκ° λμ κ°μ΄κΈ°λ‘ κ°μ΄μμΌ μκΈ° μ€λ¦¬μ½ν¨λ(40)κ° μ©μ΅ κ²½νλλ©° λ©μ(20)μ λ°©λ²νλ¦(50)κ³Ό μ,νλ©΄ μ 리(10)κ° μΌμ²΄λ‘ ν©μ§λλ κ²μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.The silicon pad 40 is heated to a heater at a temperature of 300-400 Β° C. for 1 to 2 hours to melt and harden the silicon pad 40, and the upper surface and the upper surface of the mesh 20 and the security film 50. Security glass, characterized in that the integrally laminated.
- μ 13ν λ΄μ§ μ 15νμ€ μ΄λ ν νμ μμ΄μ, μκΈ° λ©μ(20)μλ κ΄κ³ λ¬Έμ λ° λμμ μΈμν μΈμλ©΄(30)μ μλ©΄ λλ νΈλ©΄(ηι’)μ νμ±ν¨μ νΉμ§μΌλ‘ νλ λ°©λ²μ 리.The anti-glare glass according to any one of claims 13 to 15, wherein the mesh (20) is provided with a printing surface (30) printed with an ad text and a pattern on both sides or a single surface.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR10-2008-0007277 | 2008-01-23 | ||
KR1020080007277A KR20080014123A (en) | 2008-01-23 | 2008-01-23 | Crime prevention glass and method for manufacturing thereof |
KR1020080076709A KR100885461B1 (en) | 2008-01-23 | 2008-08-05 | Crime prevention glass and method for manufacturing thereof |
KR10-2008-0076709 | 2008-08-05 |
Publications (2)
Publication Number | Publication Date |
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WO2009093857A2 true WO2009093857A2 (en) | 2009-07-30 |
WO2009093857A3 WO2009093857A3 (en) | 2009-11-05 |
Family
ID=39341482
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/KR2009/000348 WO2009093857A2 (en) | 2008-01-23 | 2009-01-23 | Security glass and a production method therefor |
Country Status (2)
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KR (2) | KR20080014123A (en) |
WO (1) | WO2009093857A2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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KR101408647B1 (en) * | 2012-02-29 | 2014-06-17 | μ£Όμνμ¬ νλ μ½ | Crime prevention glass manufacturing method and the apparatus |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR200191602Y1 (en) * | 2000-03-03 | 2000-08-16 | μ£Όμνμ¬μ±λ¦Όμ€μ | Anti-crime window including Synthetic Resin Sheet in it |
KR20010003565A (en) * | 1999-06-24 | 2001-01-15 | λ°°μ¬κ· | Manufacturing process of coloured glass plate |
KR20010017985A (en) * | 1999-08-12 | 2001-03-05 | μ₯μ©μ | Production method of safety joining glass plate for ornament use |
KR20030036333A (en) * | 2003-03-07 | 2003-05-09 | μ΄μ’ ν¨ | Method for Coating of Color/Design on Tempered Glass |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR970042365A (en) * | 1995-12-12 | 1997-07-24 | μ΄μμ² | Manufacturing method of decorative glass plate |
-
2008
- 2008-01-23 KR KR1020080007277A patent/KR20080014123A/en not_active Application Discontinuation
- 2008-08-05 KR KR1020080076709A patent/KR100885461B1/en active IP Right Grant
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2009
- 2009-01-23 WO PCT/KR2009/000348 patent/WO2009093857A2/en active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20010003565A (en) * | 1999-06-24 | 2001-01-15 | λ°°μ¬κ· | Manufacturing process of coloured glass plate |
KR20010017985A (en) * | 1999-08-12 | 2001-03-05 | μ₯μ©μ | Production method of safety joining glass plate for ornament use |
KR200191602Y1 (en) * | 2000-03-03 | 2000-08-16 | μ£Όμνμ¬μ±λ¦Όμ€μ | Anti-crime window including Synthetic Resin Sheet in it |
KR20030036333A (en) * | 2003-03-07 | 2003-05-09 | μ΄μ’ ν¨ | Method for Coating of Color/Design on Tempered Glass |
Also Published As
Publication number | Publication date |
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KR20080014123A (en) | 2008-02-13 |
WO2009093857A3 (en) | 2009-11-05 |
KR100885461B1 (en) | 2009-02-24 |
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