TWI380082B - - Google Patents

Description

1380082 芝 绦 替换 replacement page six, invention description: [Technical field of the invention] The present invention relates to a structure of a liquid crystal display, particularly to improve the liquid crystal display device of the liquid crystal display device integrated circuit impact strength [ Prior Art] • Liquid crystal display devices are widely used in information products such as mobile phones, notebook computers, personal digital assistants, and thin flat-panel TVs because of their thinness, low power consumption, and low radiation pollution. White, please refer to the first figure. The conventional liquid crystal display device 10 mainly includes a frame 11, a backlight module 12, a liquid crystal panel 13, a flexible printed circuit board 14 and a bottom frame 15. The backlight module 12 is configured. The backlight module 12 includes a reflective film 121, a light guide plate 122, and at least one optical film 123. The liquid crystal panel 13 is also received in the frame η and disposed on the backlight. One side of the module 12, the liquid crystal panel 13 is formed by an upper polarizer 131, an upper glass substrate 132, a lower glass substrate 133 and a lower polarizer 134, which are sequentially stacked from top to bottom. The lower glass substrate 133 is convex. Extending from the upper polarizer 131 and the upper glass substrate 132, the glass substrate 133 is provided with an integrated circuit 135. Further, one end 141 of the flexible printed circuit board 14 is connected to the liquid crystal panel 13. The glass substrate 133 is electrically connected to the integrated circuit 135. The middle portion 142 of the flexible printed circuit board 14 is bent at one end of the frame 11, and the flexible printed circuit board 14 is folded back to one end 143 to be attached thereto. Backlight module 12 3 1380082 _ 子π广In July, the Japanese side is replacing the other side of the page, that is, the reflective film 121, which is usually adhered and fixed by a tape (not shown) to prevent the flexible printed circuit board 14 from being turned up, indicating the softness. A light-emitting element 144 is disposed on a surface of the folded end 143 of the printed circuit board 14; the bottom frame 15 is surrounded by a bottom plate 151 and a plurality of side plates 152 (only one side plate is shown), and the bottom plate 151 is covered by The bottom surface of the frame 11 is disposed on one side of the backlight module 12, and at the same time, one end 143 of the flexible printed circuit board 14 is folded. The bottom frame 15 of the bottom frame 15 is correspondingly located in the middle portion 142 of the flexible printed circuit board 14. In the structure of the conventional liquid crystal display device 10, the liquid crystal panel 13 is provided with one end of the integrated body circuit 135, that is, one end of the lower glass substrate 133 is suspended, because the liquid crystal display device gradually As the thinning progresses, the integrated circuit 135 is also oriented toward a thinner design, which causes the liquid crystal display device 10 to easily break or break the integrated circuit 135 due to vibration deformation of the lower glass substrate 133 when an external force is encountered. The liquid crystal display device 10 failure (failure). SUMMARY OF THE INVENTION In view of the deficiencies of the prior art, the present invention provides a structure of a liquid crystal display device which can improve the impact resistance of an integrated circuit of a liquid crystal display device. In order to achieve the above object, the present invention provides a structure of a liquid crystal display device, comprising a frame, a backlight module, a liquid crystal panel, a flexible printed circuit board and a bottom frame, the bottom frame comprising a bottom plate and a first side plate And the at least one second side plate encloses an accommodating space for accommodating the frame, the backlight module and the liquid crystal panel. The flexible printed circuit board is connected to the liquid crystal panel at one end and electrically connected to the integrated circuit. The flexible printed circuit The middle section of the board is bent in one of the frames 4 1380082 - the year ^ month ^ correction replacement page end is bent and extended to the other side of the backlight module, the bottom cover is disposed on the surface of the frame to set the backlight module and the first side plate is located The outer side of the frame of the flexible printed circuit board is provided with at least one reverse flap on the top edge of the first side panel. The reverse flap can press a certain area of the middle portion of the flexible printed circuit board to be 'where' The flexible printed circuit board includes an extension circuit board having a groove - the groove is recessed from the top edge of the first side plate toward the bottom plate - the depth of the extension circuit board is extended by the groove Outside the bottom frame, the anti-folding sheet has no - tab, and the tab protrudes above the groove of the first side plate to allow the tab to limit the extending circuit board within the recess. In order to make the reviewers feel more aware of the structural purpose and efficacy of the present invention, the detailed description is as follows. [Embodiment] Hereinafter, the technical means and effects of the present invention for achieving the object will be described with reference to the accompanying drawings, and the embodiments listed in the following drawings are only for the purpose of explanation, so that the reviewer understands, but the case The technical means are not limited to the listed figures. Referring to the second and third figures, the liquid crystal display device 20 of the present invention mainly includes a frame 21, a backlight module 22, a liquid crystal panel 23, a flexible printed circuit board 24, and a bottom frame. The bottom frame 25 is formed by a bottom plate 251, a first side plate 252 and a plurality of second side plates 253. The first side plate 252 and the plurality of second side plates 253 are disposed on the edge of the bottom plate 251 and The bottom plate 251 is configured to form an accommodating space. The backlight module 22 is disposed in the frame 21, and the backlight module 22 includes a reflective film 221, a light guide plate 222, and at least one optical film 223. 5 1380082 /P / year strip replacement page crystal panel 23 is also placed in the frame 21, and is disposed on one side of the backlight module 22, the liquid crystal panel 23 is composed of an upper polarizer 231, an upper glass substrate 232 The lower glass substrate 233 and the lower polarizer 234 are sequentially stacked from top to bottom. The lower glass substrate 233 protrudes from the upper polarizer 231 and the upper glass substrate 232 by a certain length, and the glass substrate under the protrusion 233 is provided with an integrated circuit 235; in addition, the flexible printed circuit board 24 One end 241 is connected to the glass substrate 233 under the liquid crystal panel 23, and is electrically connected to the integrated circuit 235. The middle portion 242 of the flexible printed circuit board 24 is bent at one end of the frame 21, and the flexible printed circuit board is bent. 24 reversing one end 243 extends to the other side of the backlight module 22, that is, one side of the reflective film 221 is disposed, and is usually adhered and fixed by a tape (not shown) to avoid The flexible printed circuit board 24 is reversely turned over. In the embodiment, the flexible printed circuit board 24 is provided with a light-emitting element 244 on the side of the folded end 243. As shown in the figure, the bottom plate 251 of the bottom frame 25 is covered. The bottom surface of the frame 21, that is, the frame 21 is disposed on one side of the backlight module 22, and the first side plate 252 is located outside the frame 21 at the bend of the middle portion 242 of the flexible printed circuit board 24, at the top edge of the first side plate 252. An inverted flap 254 is provided. In the present embodiment, the reverse flap 254 is a double-layered reverse flap. The reverse flap 254 extends a certain length from the top edge of the first side panel 252 and passes through the second length. Formed after folding, and the reverse flap 254 is parallel to the bottom plate 251' As shown in the second figure, the two-layered reverse flap 254 is disposed at a central portion of the first side plate 252. The reverse flap 254 is oriented toward the frame 21 and presses the middle portion 242 of the flexible printed circuit board 24. The folding area is 'by' when the liquid crystal display device 20 is subjected to an external force impact such as falling or being subjected to impact. The liquid crystal panel 23 is provided with the lower end of the glass substrate 233 with one end of the integrated circuit 235 '13880002 __ • (p/ The year > sentence is replacing the page, that is, the frame 21 provides one end of the bending of the middle portion 242 of the flexible printed circuit board 24, and the lower glass substrate 233 or the integrated battery 235 can be avoided by pressing and reinforcing the reverse folded piece 254. The integrated impact is directly applied to reduce the energy generated by the impact, and at the same time, the lower glass substrate 233 can be prevented from being broken or broken due to vibration deformation. Referring to the second and fourth figures, the flexible printed circuit board 24 further includes an extension circuit board 245. The first side panel 252 of the bottom frame 25 has a recess 2521. The recess 2521 is formed by the first The top edge of the side plate 252 is recessed toward the bottom plate 251. The extension circuit board 245 protrudes from the bottom frame 25 by the recess 2521. To prevent the extension circuit board 245 from falling off the groove 2521. The flap 254 is provided with a tab 255. The tab 255 is integrally formed with the anti-folding piece 254. The tab 255 is protruded above the recess 2521. The extending piece 245 is limited by the tab 255. Located in the recess 2521 without being reversed; it must be noted that the tab 255 is provided for the flexible printed circuit board 24 having the extension board 245, for other types of softness without the extension board 245 For the printed circuit board, the ridge tab 255 can be omitted. Referring to the fifth and sixth figures, the fifth figure shows an embodiment of the frame of the present invention. The frame 21 is a rectangular frame formed by a plurality of sides 211 to 214, wherein the side 211 corresponds to the frame. One end of the underlying glass substrate 233 provided with the integrated circuit 235 is provided with two platforms 215 'the platform 215 extends from the side 211 toward the inside of the frame 21 by a certain length' and the platform 215 When the liquid crystal panel 23 is disposed on the frame 21, as shown in the sixth figure, the bottom surface of the glass substrate 233 under the liquid crystal panel 23 can abut against the top surface of the platform 215, 7 1380082 __ , 々〇 / year T month W correction replacement page This embodiment shows that "the pressing and reinforcement of the reverse flap 254 can be simultaneously performed" to prevent the lower glass substrate 233 or the integrated circuit 235 from directly suffering from impacts. The energy, and the supporting action of the platform 215 can prevent the lower glass substrate 233 from being broken or broken due to vibration deformation. Referring to the seventh embodiment, the embodiment is based on the sixth embodiment. The embodiment is characterized in that the under-glazed glass substrate 233 is provided with a protective layer 236 covering the integrated electrode 235. The material of the layer 236 is not limited, and is preferably a soft elastic material, such as silicone rubber, and the cover area of the protective layer 236 φ is not limited, but it is preferable to completely cover the under-glazed glass substrate 233. The thickness of the protective layer 236 is less than or equal to the sum of the thicknesses of the upper polarizer 231 and the upper glass substrate 232, that is, the protective layer 236 is coated at a height not higher than the upper polarized surface 231, and The layer 236 can completely cover the integrated circuit 235, so the thickness of the integrated circuit 235 is also less than or equal to the sum of the thicknesses of the upper polarizer 231 and the upper glass substrate 232, so that the protective layer is not coated. At 236 ′′, the integrated circuit 235 can also be prevented from being directly hit by a hit because the height is too high. The seventh embodiment shows that the support of the platform 215 is suppressed and strengthened by the anti-folding 254 and the protection. Layer 236 buffer With,: providing the integrated circuit is provided with a 235 under the glass substrate 233, may have a degree of impact resistance capability A, that protects the entire liquid crystal display device will not be lost due to external impact force induced. ρ β, the structure of the liquid crystal display device provided by the present invention can indeed improve the liquid crystal display integrated circuit circuit and the impact strength. The above-mentioned ones are only examples of the present invention, and the scope of the invention can not be limited by the 1388802 _ (~year/month/day/replacement page), that is, the scope of the patent application according to the present invention. Equal changes and modifications should still fall within the scope of the patent of the present invention. I would like to ask your review committee to give a clear understanding and pray for it. It is a prayer. [Simplified illustration] The first picture is a conventional liquid crystal display device. 2 is a three-dimensional structure diagram of an embodiment of the present invention. The third diagram is a schematic diagram of the AA cross-sectional structure of the second diagram. The fourth diagram is a schematic diagram of the BB cross-sectional structure of the second diagram. FIG. 6 is a schematic cross-sectional view showing the embodiment of the fifth embodiment of the present invention. FIG. 7 is a schematic cross-sectional view showing the protective layer of the integrated circuit in the sixth embodiment. Main component symbol description] ♦ Prior art: 10- Liquid crystal display device 11 - Frame 12 - Backlight module 121 - Reflective film 122 - Light guide plate 123 - Optical film 13 - Liquid crystal panel 1380082 / V years; Month>〇日正正页页131- Upper polarizer 132- Upper glass substrate 133- Lower glass substrate 134- Lower polarizer 135- Integrated circuit 14-Soft printed circuit board 141- One end of flexible printed circuit board 142- Soft printed circuit board middle section g 143- Soft printed circuit board folded back one end 144 - Light emitting element 15 - Bottom frame 151_ bottom plate 15 2 _ Side plate The present invention: 20- Liquid crystal display device # 21- Frame 211~214 _ Side 215-Platform 22- Backlight Module 221- Reflective Diaphragm 222- Light Guide Plate 223- Optical Film 1300082 Year of the Moon Correction Replacement Page 23-LCD Panel 231- Upper Polarizer 232- Upper Glass Substrate*· 233-下下Glass substrate · ' 234 - lower polarizer 235 - integrated circuit 236 - protective layer ^ 24-soft printed circuit board 241 - one end of flexible printed circuit board 2 4 2 - soft printed circuit board middle section 243 - flexible printed circuit board reverse One end 244 - light-emitting element 245 - extension circuit board 2 5 - bottom frame 251 - bottom plate # 252 - first side plate 2521 - groove: 253 - second side plate: 254 - reverse flap 255 - tab

Claims (1)

1380082 〖~年七月>°a is replacing page VII. Patent application scope: 1. The structure of a liquid crystal display device, comprising: a frame 'the frame is formed by a plurality of side edges; a backlight module The backlight module is disposed in the frame; a liquid crystal panel is disposed in the frame and disposed on one side of the backlight module, wherein the liquid crystal panel is formed by an upper polarizer and an upper surface The glass substrate, the lower glass substrate and the lower polarizer are sequentially stacked from top to bottom, and one edge of the glass substrate under the liquid crystal panel protrudes from the outer surface of the upper glass substrate by a certain length, and the glass substrate is disposed under the protrusion a Φ integrated circuit; a flexible printed circuit board, one end of the flexible printed circuit board is connected to the liquid crystal panel and electrically connected to the integrated circuit, the middle portion of the flexible printed circuit board is bent at one end of the frame, and the softness The printed circuit board extends to be attached to the other side of the backlight module; a bottom frame 'the bottom frame is composed of a bottom plate and a plurality of side plates disposed on the periphery of the bottom plate, the plurality of side plates including a first side The side panel and the at least one second side panel are surrounded by the bottom panel and the side panels to form an accommodating space. The frame, the backlight module and the liquid crystal panel are disposed in the accommodating space, and the bottom plate of the bottom frame The cover is disposed on the frame to provide one surface of the backlight module, and the first side plate is located outside the frame at the middle of the flexible printed circuit board. The outer edge of the first side plate is provided with at least one reverse flap. The anti-folding sheet is parallel to the bottom plate, and the anti-folding sheet is oriented in the frame and presses a certain area of the middle portion of the flexible printed circuit board; wherein the flexible printed circuit board comprises an extended circuit board, the first The one side plate has a groove which is formed by the top edge of the first side plate toward the bottom of the bottom, and the bottom plate is replaced by a depression. The extension circuit board protrudes from the groove. Outside the bottom frame, a protrusion is disposed on the reverse flap, and the protrusion protrudes over the groove of the first side plate, so that the protrusion limits the extension circuit board in the groove. The structure of the liquid crystal display device of claim 1, wherein the inverted flap is extended by a length from the top edge of the first side panel toward the frame. The structure of the liquid crystal display device of claim 2, wherein the reverse flap is a double-layered reverse flap, and the double-layered reverse flap extends a certain length from a top edge of the first side panel and Formed after two folds. The structure of a liquid crystal display device according to claim 1, wherein the reverse flap is substantially parallel to the bottom plate. The structure of the liquid crystal display device of claim 1, wherein the tab is integrally formed with the inverted sheet. The structure of the liquid crystal display device of claim 1, wherein at least one of the sides of the frame is provided with at least one platform facing the underlying glass substrate provided with the integrated circuit One end, and the bottom surface of the glass substrate abuts against the top surface of the platform. The structure of a liquid crystal display device according to claim 6, wherein the platform extends from the side toward the inside of the frame by a certain length. The structure of a liquid crystal display device according to claim 6, wherein the platform is integrally formed with the side. The structure of the liquid crystal display device according to claim 1, wherein the under-glazed glass substrate is provided with a protective layer covering the integrated circuit of the 130080082. 10. The structure of the liquid crystal display device according to claim 9, wherein the protective layer is a structure of a liquid crystal display device according to claim 9 wherein the protective layer is To completely cover the underlying glass substrate. 12. The structure of a liquid crystal display device according to claim 9, wherein the thickness of the protective layer is less than or equal to a sum of thicknesses of the upper polarizer and the upper glass substrate. 13. The structure of a liquid crystal display device according to claim 9, wherein the integrated circuit has a thickness less than or equal to a sum of thicknesses of the upper polarizer and the upper glass substrate. 1380082 _ ιοί Year/month is replacing page IV. Designation of representative map: (1) The representative representative of the case is: (2). (2) A brief description of the components of the representative figure: 20- Liquid crystal display device 21 - Frame 23 - Liquid crystal panel 231 - Upper polarizer 232 - Upper glass substrate 233 - Lower glass substrate '235 - Integrated circuit 24_ Soft printed circuit Board 245-Extension circuit board 2 5 -Bottom frame 2 5 2 - First side plate 2521 - Groove 253 - Second side plate _ 254- Inverted piece 255 - Tab 5. If there is a chemical formula in this case, please reveal the best display Chemical formula of the inventive feature: