TW201125465A - A display apparatus, a front frame used therein, and a method of manufacture thereof - Google Patents

Abstract

A display apparatus, a front frame used therein, and a method of manufacture thereof are provided. The display apparatus includes a display panel and the front frame. The display panel has a display surface which is partially covered by the front frame. The front frame includes a side wall corresponding to the side of the display panel, a top plate extending from the side wall toward the center of the display panel, and cushion filler. The top plate has an inner surface featuring a groove distributing along the side wall. The cushion filler is contained within the groove while its top protrudes the groove and contacts the display surface where outside a display area.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, a display panel body using the same, and a method of manufacturing the same. [Prior Art] Various display panels including the liquid crystal display panel and the organic light-emitting diode display panel and the panel of the money panel have gradually become the mainstream of various display devices. For example, various panel displays, flat-panel TVs for homes, flat-panel monitors for personal computers and laptops, and display screens for mobile phones and digital cameras are all products that use display panels in large quantities. Figure la shows a schematic view of a conventional display device using a display panel. As shown in the & display device, the display device 10 includes a display panel 10, an outer frame 3, a backlight module 25, and a bottom plate 20. The back wire group 25 is disposed on the bottom plate 2G, and the display panel 1 is disposed on the backlight module 25. The outer frame 3 is covered over the edge of the display panel 1 and surrounds the side of the bottom plate 20. Conventionally, in order to position the backlight module 25 and the display panel 10 between the outer frame 3 and the bottom plate 2, the outer frame 3〇 is locked to the side of the bottom plate 2G by screws 5〇. Fine due to poor assembly or external force, the screw 5〇 locking stress is likely to cause local deformation of the outer frame 3〇. The outer frame % and thus the outer frame 30 presses the display surface of the display panel 10, causing the image of the display surface to be affected. In order to solve this problem, traditionally, a frame can be attached to the outer frame as shown in Figure lb. The mat 4 is in contact with the display area of the display panel, and thus the curvature of the display surface of the front edge of the outer frame 3G can be reduced to reduce the pressing of the display surface. However, this-secret 4G attachment action needs to be completed by manpower, thus causing an increase in working hours and costs. In addition, this method is prone to the problem of insufficient accuracy on the _, which in turn affects the quality of the product. SUMMARY OF THE INVENTION An object of the present invention is to provide a display device and a display panel frame thereof that can reduce the deformation stress of a display panel frame that is received by a display area on a panel. The object of the present invention is to reduce the production cost by the touch-age device and its thin display panel frame. SUMMARY OF THE INVENTION An object of the present invention is to provide a display device and a display panel frame therefor, which are characterized by saving assembly man-hours. SUMMARY OF THE INVENTION An object of the present invention is to provide a method of manufacturing a display device which can save labor and assembly man-hours. The display device of the present invention comprises a display panel, a base and a display panel frame, wherein the display panel is disposed between the base and the display panel frame. The display panel has a display surface; the display surface has a display area. When the display device is flat, the display panel frame system partially covers the display panel and covers the side of the display panel and the base. _ The display panel frame contains side walls and a top plate. The sidewalls correspond to the side edges of the display panel and the top panel extends from the top edge of the sidewalls along the display of the display panel toward the display panel 201125465 2 . The display panel frame system has an opening; the display of the t display panel * ’, 严, 、 is visualized outward by the opening. The top plate has an inner surface facing the display surface, and the inner surface is provided with a groove distributed along the side wall. Show no panel _ more & include tree fill (four). The lining system is housed in the groove and its top end protrudes from the inner surface of the groove and the top plate. Buffer filler Ί ^Displays the position outside the area on the display surface. By buffering the filler & 彳οχ, the display device is less likely to cause the application end to press the display panel when subjected to an external force. The method of viewing this device is in the town (4). First, the buffer filler is filled in the groove on the surface Φ of the display surface 5^, and the top end of the buffer filler is shouted. The curing buffer filling step is then carried out. This-curing step needs to be simplified for the publication of F. After that, the combination is displayed: the panel frame is not visible, so that the touch is displayed on one of the display surfaces and corresponds to the position outside the display area on the display surface. [Embodiment] The present invention provides a display device, a display panel housing used therewith, and a manufacturing method of the display device. The age package (4) of the present invention comprises a liquid crystal display device organic light emitting diode display device and various other color or monochrome display devices. The display panel frame _ partially covers the display panel included in the display device, and the material thereof may be metal, (four) or other mechanical or inorganic materials. The display of the present invention includes a display panel _, a base 200, and a display panel frame 300, wherein the display panel should be disposed between the base and the display panel frame 201125465. In the embodiment shown in FIG. 2, the display panel lion is a transmissive liquid crystal display panel. At this time, the display device has a backlight module 25 () disposed on the display panel to touch the base. However, in various embodiments, the display panel 100 can also be a transflective liquid crystal display panel, an organic light emitting diode display panel, or/or a different form of display panel. The settings for the (4) display panel form 'backlight 25G' and other trees in the display room need to be adjusted, omitted or changed. For example, the base 2 (8) can be provided as the back plate of the backlight module 25G, or can be used as the entire back cover of the display device. As shown in FIGS. 2 and 3, the display panel 100 has a display surface 110; that is, one side of the image formed on the display panel 100. The display surface 11 has a display area 111, and the display area 111 is preferably located at the center of the display surface 11A. The display area 111 as referred to herein refers to the area on the display surface 110 where the image can actually be generated. In the embodiment shown in FIG. 3, the display panel 100 is formed by combining the upper substrate 130 and the lower substrate 150. A frame seal 17 is provided at a position close to the edge between the upper substrate 130 and the lower substrate 15. The liquid crystal molecules are injected between the upper and lower substrates 13A, 15B and the sealant 170. Therefore, in this embodiment, the frame glue 70 is located on the outer side of the display area 111, that is, the display area 111 is a part or all of the area on the display surface corresponding to the sealant 17〇. In the embodiment of FIG. 2 and FIG. 3, when the display device is flat, the display panel frame 300 partially covers the display panel 100 and covers the side edges of the display panel 1 and the base 200. The display panel housing 300 includes a side wall 310 and a top plate 330. The side wall 310 corresponds to the side of the display panel 1 , and is preferably perpendicular to the display surface 110 of the display panel 100. In the preferred embodiment, the side wall 310 is 201125465 is a closed box-shaped wall and surrounds the display panel 100; however, in different embodiments, the side wall 310 can also be an open wall. For example, only two long sides corresponding to the display panel 100 are set. As shown in FIGS. 2 and 3, the top plate 330 extends from the top edge of the side wall 310 along the display surface 110 of the display panel 100 toward the center of the display panel 10A. The top plate 33〇 preferably extends into the area corresponding to the interior of the frame seal 17 of the display panel 1; however, in different embodiments, the top plate 330 may also extend to a position corresponding to the frame seal 17〇, and no longer inward. extend. As seen in Fig. 2, the display panel frame 3 has an opening 340; wherein the opening 340 is surrounded by the top plate 330. The display area 111 of the display panel 100 corresponds to the opening 340 and is developed outward through the opening 34〇. As shown in FIG. 3, the top plate 330 has an inner surface 33. The inner surface 331 faces the display surface 11 of the display panel 100. The inner surface 331 defines a groove 350 formed along the side wall 31, wherein the inner surface of the groove 350 is cut. The width is preferably below 1 mm. In the embodiment shown in Fig. 3, the inner surface 331 of the top plate 33 has a pair of ribs 351'. The groove 350 is formed between the pair of ribs 351. The formation of the pair of ribs 351 may include injection molding, press forming, and the like, and may be adjusted depending on the material of the top plate 330. However, in the embodiment illustrated in Figure 4, the grooves 350 are formed from the inner surface 331 of the top plate 330 that is recessed toward the opposite side of the inner surface 331. In this embodiment, the top plate 33 can be bent in a process to form the groove 350, or the recess of the groove 350 can be formed directly on the top plate 33 by injection molding or other means. As shown in FIGS. 3 and 4, the display panel housing 3 includes a buffer filler 201125465 400. Buffer filler 400 is received within trench 350 and has a top end that protrudes from trench 350 and inner surface 331 of top plate 330. In the embodiment shown in FIG. 3, the top end of the buffer filler 400 protrudes from the rib 351 of the top plate 330. In the embodiment shown in FIG. 4, the top end of the buffer filler 400 protrudes beyond the depression formed by the inner surface 331 of the top plate 330. Further, in the embodiment shown in Figs. 3 and 4, the top end of the buffer filler 400 is in contact with the display surface 110 of the display panel 1A and corresponds to the position of the sealant 170. However, in various embodiments, the buffer filler 400 may also correspond to the position on the display surface 11 other than the display area 111. In the preferred embodiment, the distance between the top end of the buffer filler 400 and the inner surface 331 of the top plate 330 is less than 3 mm; however, in various embodiments, the distance may be determined by the material of the buffer filler 400 and the width of the groove 350. Expansion or adjustment. When the display device is subjected to an external force to press the display panel frame 3, the buffer filler 400 can be used as a topping point of the top plate 310 outside the display area ln to prevent the top plate 310 from being pressed to the display area of the display panel 1 Hey. In other words, by the arrangement of the buffer filler 400, the possibility that the display device presses the display panel 1 at the end of the top plate 310 when the external force is applied is reduced, thereby affecting the image display effect. In addition, the buffer filler 4 can be made of a dark or black material, so that the display panel frame 300 has a better light blocking effect. The material of the buffer filler 400 may be a room temperature hardening type substrate, a thermosetting type substrate, a thermoplastic type polymer substrate, a photocurable high molecular substrate or a mixture thereof. However, in the preferred embodiment, the material of the thermosetting substrate used in the buffer filler 400 is selected from the group consisting of polyester resins, epoxy resins, sulfhydryl resins, amino phthalic acid B 201125465 grease or mixtures thereof. The thermoplastic polymer substrate may comprise polyethylene hydride, polyethylene gas, polymethyl methacrylate, polyamidamine or a mixture thereof. The photocurable polymer base material comprises amino phthalic acid ethyl acrylate, epoxy bis acrylate or a mixture thereof. However, the viscous coefficient of the buffer filler 400 is preferably less than 55 Pascals (Pa.s) to better meet the need for flow diffusion in the trench 350. Further, in the same-stage groove 35G, a buffer filler 400 of two or more kinds of materials may be used. As shown in FIG. 3 and FIG. 4, a screw hole 370 is formed in the side wall 31 of the display panel frame 3; the display device has a screw _ for locking the display panel frame 330 through the screw hole 37? The side of the base 2〇〇. In addition, the screw hole may also be located on the top surface of the panel frame to secure the display panel frame to the front side of the base by screws. In the embodiment shown in Fig. 5, the screw holes 37 are symmetrically disposed and located at the four corners of the display panel frame 300. However, in various embodiments, the location of the screw holes 37 can be adjusted to the design space requirements. In addition, the display panel frame body and the base 2GG are joined to each other by a double-sided tape or a financial type thereof. As shown in Fig. 5, the grooves 350 are distributed in a continuous linear pattern on the inner surface 331 of the top plate 330. The continuous line shape mentioned here includes continuous line segments such as straight lines, curves, wave-like curves, or mineral tooth lines. In addition, the grooves 350 can be formed by a plurality of different forms of linear connections. For example, in this embodiment, the groove 35 〇 = is a continuous line formed by a plurality of straight grooves and wave curve grooves. In this embodiment, the portions of the trench 35G are connected end to end to form a closed annular region. However, as shown in the figure, the trench 35 can also be formed into a non-closed state by continuous segments. . 201125465 Figure 6b shows another embodiment of the trench 350. In this embodiment, the grooves 350 are distributed in a discontinuous manner on the inner surface 331 of the top plate 33A. As shown, the groove 350 is composed of a discontinuous plurality of linear shapes and is distributed along the side walls 31 to the inner surface 331. Moreover, in various embodiments, the trenches 350 can also be comprised of a plurality of discrete dot-like recesses, as shown in Figure 6c. Since the grooves 350 are disposed in a discontinuous manner, the buffer fillers 4〇〇 are also accommodated in portions of the trenches 350 in a discontinuous manner. In the embodiment shown in Fig. 5, the groove 350 has a wavy distribution path 355, and the undulating distribution path 355 corresponds to the position of the screw hole 37A on the side wall 31. Since the position of the screw hole 370 is often a large force on the structure as a whole and the structure is weak, it is preferable to increase the structural strength here. By the arrangement of the wave-like distribution path 355, the buffer filler contact area at this position can be increased, thereby enhancing the supporting force. In addition, in the embodiment shown in FIG. 7, the buffer filler 4 容纳 accommodated in the trench 350 can also be divided into a first filler 4 丨〇 and a second filler 420, wherein the first filler 41 〇 The hardness is greater than the hardness of the second filler 420. The first filler 41 is accommodated in the groove 35A at a position corresponding to the screw hole 370, and the second filler 420 is accommodated at other positions in the groove 35A. By the difference in hardness between the first filler 410 and the second filler 42〇, the supporting force near the position of the screw hole 370 and the shock and deformation absorbing ability at other positions are increased. In a preferred embodiment, the first filler 41 may be selected from a polyester resin, an amino ruthenate or a mixture thereof; and the second filler 42 may be a base resin or an amino phthalate. Fat or a mixture thereof. As shown in Fig. 5, the top plate 330 and the side walls 31 are respectively provided with a turning portion 7〇〇, and 201125465 connects the portions of the top plate 330 and the side walls 310 at different sides to form the display panel frame 300. In this embodiment, the turning portions 7 are formed at the four corners of the _ display panel frame 300, respectively. The groove 350 is also fitted to the corner portion 330 of the top plate 330 to produce a corner. As shown in Fig. 5, the corner portion formed by the groove 350 at the position of the turning portion 700 has an inscribed width wider than the other portions. In other words, the groove 350 of this portion can accommodate a larger amount of the buffer filler 400 due to the wider inscribed width, thereby providing a larger supporting force. In addition, in the embodiment shown in FIG. 8, the buffer filler 4 contained in the trench 350 can also be divided into the first filler 410 and the second filler 420', wherein the hardness of the first filler 41〇 The ratio is greater than the hardness of the second filler 420. The first filler 41 is accommodated in the groove 350 at a position corresponding to the turning portion 7〇〇, and the second filler 420 is accommodated at other positions in the groove 350. By the difference in hardness between the first filler 41 and the second filler 420, the supporting force near the turning portion 7〇〇 and the shock and deformation absorbing ability at other positions are increased. In a preferred embodiment, the first filler 410 may be a polyester resin, a urethane or a mixture thereof; and the second filler 420 may be a thiol resin, a urethane or a mixture thereof. . Fig. 9 is a flow chart showing an embodiment of a method of manufacturing a display device of the present invention. The step 910 is filled with a buffer filler in the groove 35 of the inner surface 331 of the display panel frame 3, and the cushion is filled with the surface 33. In the preferred embodiment, this step is such that the coating filler, such as a rotary machine, is placed in the groove 35〇. When the coating operation is performed, the coating device injects the buffer filler _ along the groove 35 to cover a portion of the groove 35 (), and the buffer filler 400 can be diffused to the sides to the range of the filling groove 350. 12 201125465 The buffer filling operation of step 910 is further included in the trench 350 filled with a higher hardness of the first filler 41〇 and a lower hardness second filler 42〇. The filling position of the first filler 410 may preferably be a position corresponding to the screw hole 370 of the side wall 31 or/and a position corresponding to the turning portion 7 of the top plate 33. By the difference in hardness between the first filler 410 and the second filler 42, the support force near the filling position of the first filler 410 and the shock and deformation absorbing ability at other positions can be increased. In a preferred embodiment, the first filler 41 can be selected from a polyester resin, an amino citrate or a mixture thereof; and the second filler 42 can be a thiol resin or a urethane. Or a mixture thereof. Step 930 is to cure the buffer filler 4〇〇. This curing step needs to be adjusted for buffer packings of different properties. For example, when the buffer filler 4 is made of a thermosetting substrate as a material, the buffer filler 4 is heated for curing purposes; however, the buffer filler 400 is a thermoplastic polymer substrate. When the material is used, the buffer filler 400 needs to be cooled and solidified. When the buffer filler 400 is a photocurable high molecular weight substrate, it is required to be cured by ultraviolet rays or other suitable light. Step 950 includes combining the display panel housing 300 on the display panel 1 such that the buffer filler 400 is in contact with one of the display surfaces no of the display panel 1 and corresponding to the position outside the display area on the display surface 110. In the preferred embodiment, the display panel 100 is formed by combining the upper substrate 130 and the lower substrate 150, and a frame seal 17 is disposed between the upper substrate 130 and the lower substrate 150 at a position close to the edge. The frame glue 170 is located on the outer side of the display area in. The buffer filler gamma is in opposition to the position on the display surface 110 corresponding to the sealant 170 to avoid affecting the image quality in the display area 13 201125465 111. In the embodiment shown in FIG. 10, step 911 is further included: forming a groove 35〇 on the inner surface m of the top panel 33〇 of the display panel. The trenches 35 are distributed along the sidewalls 310 of the display panel frame 300. The grooves 350 are preferably distributed in a continuous linear pattern on the inner surface 331 of the top plate 330. The continuous line system described here includes continuous line segment distributions such as straight lines, curves, wavy curves, and zigzag lines. However, in various embodiments, the grooves 35〇 may also be distributed in a discontinuous manner on the inner surface 331 of the top plate 330. The groove 350 in the step 911 is formed by providing the pair of ribs 351 on the inner surface 331 of the top plate 33, so that the groove 350 is formed between the pair of ribs 351. The formation of the pair of ribs 351 may include injection molding, press forming, and the like, and may be adjusted by the material of the top plate 330. However, in various embodiments, the grooves 350 may be formed in such a manner that the inner surface 331 of the top plate 330 is recessed into the top plate 330 toward the opposite side of the inner surface 331. In this embodiment, the top plate 330 can be bent in a machined manner to form the grooves 350, or the recesses of the grooves 350 can be formed directly on the top plate 330 by injection molding or other means. The present invention has been described by the above related embodiments, but the above embodiments are merely examples for implementing the present invention. It must be noted that the disclosed embodiments are not intended to limit the scope of the invention. On the contrary, modifications and equivalents of the spirit and scope of the invention are included in the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 1b are cross-sectional views of a conventional display device; 201125465 FIG. 2 is an exploded view of an embodiment of a display device according to the present invention; FIG. 3 is a cross-sectional view showing an embodiment of a display device according to the present invention; 4 is a schematic cross-sectional view of another embodiment of the display device; FIG. 5 is a top view of the embodiment of the display panel; FIG. 6a is a top view of the embodiment of the groove distribution; FIG. 6b is another embodiment of the groove distribution. Figure 6c is a top view of another embodiment of the trench distribution; Figure 7 is a top view of another embodiment of the display panel housing; ^ Figure 8 is a top view of another embodiment of the display panel housing 9 is a flow chart showing an embodiment of a method of manufacturing a device; and FIG. 10 is a flow chart showing another embodiment of a method of manufacturing a device. [Main component symbol description] 10 : Display panel 30 : Frame _ 20 : Backplane 25 : Backlight module 40 : Pad 50 : Screw 100 : Display panel 110 : Display surface 111 : Display area 130 : Upper substrate 15 201125465 150 : Lower substrate 170: frame glue 200: base 250: backlight module 300: display panel frame 310: side wall 330: top plate 331: inner surface 340: opening 350: groove 351: rib 355: wavy distribution path 370: Screw hole 400: buffer filler 410: first filler 420: second filler 600: screw 700: turning portion

Claims (1)

201125465 VII. Scope of application for patents: 1. One side of the secret shop for the face, including: a side wall; the top plate is attached to the display panel from the woven view; wherein the top plate has an inner surface Forming, on the inner surface, a groove along the (four) distribution, the top plate further comprising a pair of convex ribs protruding from the inner surface to form the groove in the pair of convexities Intercostal space; A buffer filler is attached to the inner portion of the towel; the top end of the towel is protruded from the groove and the inner surface. 2. The display panel frame as claimed in claim 5, wherein the groove is recessed into the top plate from the opposite side of the inner surface without the surface. 3. The display panel frame of claim 1, wherein the distance from the top end of the buffer filler to the inner surface is less than 3 mm. 4. The width of the cut as described in claim 1 The display panel frame of the display panel frame, wherein the groove structure is distributed in the top plate in a discontinuous manner. 6. The display panel frame according to the above aspect of the invention, wherein the top plate and the side wall respectively have a turning portion at a corresponding position to form a frame body. The display panel frame, wherein the groove is wider than the portion of the top plate of the top plate, such as the display panel frame according to item 6 of the Japanese Patent Application, wherein the buffer The filling system comprises a H-new and a second filling material, and the first filling material accommodates 17 8. 201125465 2 The grooved cap should be in the position of the turning part, and the second filling is accommodated in other positions in the groove, the first- The hardness of the filler is greater than the first 9. The hardness of the filler material. The display panel frame according to the above-mentioned claim, wherein the top surface of the display panel comprises a screw hole. The display panel frame according to item 9 of the special scope, wherein the buffer pad is filled. ' 》 3 - the first filling material and the second filling material, the first filling corresponds to the position of the screw hole, the second filling material is accommodated at other positions, the hardness of the first filling material is greater than the second filling The display panel frame according to claim 9, wherein the groove has a position corresponding to the view as indicated by #^布〃路彳m green distribution road (4). The display panel frame of the item 1 is characterized in that the viscous coefficient of the buffer padding is less than 100 Pa·s (pa.s). 13. The invention is as described in claim 1 of the patent scope. The material of the Lushan material is selected from the room, and the hardening is like a plate frame, wherein the buffer is filled with a hot hardening type substrate, a thermoplastic polymer substrate, a photohardening type high molecular substrate and Mixture. The display panel frame described in the item, wherein the buffer fills ==:: lyophile 'epoxy resin, -tree A grease or an amine group. The mouth according to claim 1, wherein the top plate is circumferentially disposed to form the opening. The step comprises an opening 16. If the application is a paste, the groove is It is distributed continuously on the surface of _ board in 201125465. 17. A display device comprising: a display panel having a display surface; wherein the display field; and a display panel of the display panel, comprising: a side The wall is attached to the side of the panel; the top panel corresponds to the display surface and extends from the top edge of the can to the center of the display panel; wherein the top panel has an inner surface along which the inner surface is distributed - a dragon, such as ^^人_朗板进-step includes - a rib, which is formed on the surface of the sander to form the groove between the pair of ribs; and a cushioning secret is accommodated in the groove The groove protrudes from the groove and the inner surface of the buffer filler and opposes the position on the display surface corresponding to the outer side of the display area. Further, the display device of the item 17 is disposed in the discontinuous manner S on the inner surface. The invention relates to the display device of claim 17, wherein the display panel is two-fold: 'the frame glue is located on the outer side of the display area, and the buffer filler material' is touched on the display surface corresponding to the position of the sealant. . 2^申=咖1717撕剪, (4)_ from the surface to the opposite side of the inner surface is recessed into the top plate. The display device according to item 17, wherein the buffer filler material has a distance of less than 3 mm from the inner surface. 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。. 24. The display wall according to claim 17 of the patent application has a "turning portion", a '2' and a _, as in the display device of claim 24, wherein the turning portion is The width of the other portion of the groove is greater than the width of the other portion of the groove 26^7^, as described in the item %, wherein the filling material, the first filling material and the second filling material, the first The filling material should be located at the position of the turning part, and the second filling material is accommodated in the groove 3, and the display device described in the application of the patent application 17 of the A. The display device of claim 27, wherein the buffer filler tree is disposed in the trench, and the second filler is placed in the trench The hardness of the first filler is greater than the hardness of the second filler. The display device according to item 27, wherein the groove has a -30 such as a H-shaped distribution path corresponding to the position of the object. The display device of claim 2, wherein the viscous coefficient of the buffer filler 20 201125465 is less than 100 Pascal seconds (Pa.s). The display device according to claim 17, wherein the material of the buffer filler is selected from the group consisting of a room temperature hardening substrate, a thermosetting substrate, a thermoplastic polymer substrate, and a light. Hardened high molecular weight substrates and mixtures thereof. The display device of claim 31, wherein the material of the buffer filler is selected from the group consisting of polyester resins, epoxy resins, mercapto resins, urethanes, and mixtures thereof. 33. The display device of claim 17, further comprising an opening, wherein the top plate is circumferentially disposed to form the opening. 34. A method of manufacturing a display device, comprising the steps of: providing a pair of ribs protruding from the inner surface on an inner surface of a display frame to form a groove between the pair of ribs and The groove buffer filler is configured such that a top end of the buffer filler protrudes from the inner surface to cure the buffer filler; and a display area on the buffer filler display surface is combined with the display panel frame on a display panel, One of the display panels displays the surface and corresponds to the location outside the domain. ~ 35. The manufacturing method as described in the application of patent scope 帛34, the filling step _ step comprises _ ditch _ view hard rush filler and a second filler with lower hardness. A first-filler 36. If you apply for a special method, the filling step-by-step includes the ___ should be filled with the filler to fill the first filler. The position of the turning part 21 201125465 37. If the manufacturing method described in the application _ 34, the step package = the inner surface of the body top plate is formed along the side wall of the display panel frame = 38. The manufacturing method of the item 37 is characterized in that the step of forming the groove comprises stepping the groove from the inner surface toward the opposite side of the inner surface. 39. The manufacturing method of claim 37, wherein the groove forming step The advancement includes having the groove have a wider inscribed width on a transition portion of the top plate. 4. If the method of applying the flipping method is applied, the filling step of the buffer filler is further included in the groove to fill the first filler in the position of the screw hole corresponding to the side wall. 41. The method of claim 34, wherein the towel filling step further comprises causing the inspection device to fill the groove. twenty two