TW201041789A - Tray for bearing liquid crystal panel - Google Patents

Abstract

A tray for bearing a liquid crystal panel comprising a bearing plate and multiple concaving ribs is provided. The bearing plate has a bearing surface with a panel bearing region. The panel bearing region is suitable for bearing a liquid crystal panel. The concaving rib is inside the panel bearing region. The long axis of each rib is in parallel with a side of the panel bearing region. Each of the concaving ribs has a width W and two adjacent concaving ribs are separated by a distance D, wherein 0.25 ≤ W/D ≤ 4.

Description

201041789 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a carrier device, and more particularly to a carrier disk for a liquid crystal panel. [Prior Art] In the manufacture of a touch panel of a liquid crystal display panel, the manufacturer carries or stores the liquid crystal display panel. In the process of transporting or storing the liquid crystal display panel, in order to tilt the surface of the liquid crystal display panel, the manufacturer often places the liquid crystal display panel on the carrier, and then moves it privately. A carrier tray for carrying or storing the liquid crystal display panel. The carrier tray for self-use is manufactured by means of injection and opening. A conventional carrier tray is constructed of a carrier plate and a frame, wherein the outer edge of the carrier plate is coupled to the inner edge of the frame. Based on such a structure, the manufacturer places the liquid crystal display panel 0 in the frame so that the carrier board carries the liquid crystal display panel. While Pi's technology for manufacturing liquid crystal display panels continues to evolve, the demand for large-size liquid-based panels continues to increase. In order to make these carrier disks rigid enough to carry these large-sized liquid crystal display panels, the green is made to support the thickness of the carrier plate and the frame. However, this increases the weight of the carrier by increasing the thickness of the carrier disk and the frame to increase the rigidity of the carrier. When the weight of the carrier tray is increased, the central portion of the carrier tray is liable to be bent due to the weight of the carrier tray itself. Except that the weight of the carrier board itself will cause the load to be curved, when the carrier board 5 201041789 carries the 7F panel of the night crystal, the weight of the liquid crystal display sulfur will further increase the degree of the curvature of the carrier board. In this way, when a plurality of carrier discs carrying the liquid crystal display panel are stacked together, the carrier board located in the upper layer is easily forced to the liquid crystal display panel located in the lower layer due to its own four curvatures, and is forced to be pressed. The damage of the LCD panel. Based on the above, in order to prevent the liquid crystal display panel from being broken during the handling and storage process, the conventional technology has a demand for manufacturing a thin but strong carrier disk. SUMMARY OF THE INVENTION The present invention provides a liquid crystal panel retainer in order to meet the demand for manufacturing a thin but high strength carrier disk existing in the prior art. One of the liquid crystal panel carrier disks disclosed in the present invention comprises a carrier plate and a plurality of concave ribs. The carrier plate has a bearing surface. The carrying mask has a panel carrying area. The panel carrying area is used to carry a liquid crystal panel. These _ are located in the panel bearing area. The long axes of the concave ribs are parallel to one side of the panel carrying area. The concave ribs have a width, and a spacing 〇 between the two adjacent concave ribs, wherein the ratio of the width of the concave rib to the distance between two adjacent ribs is α25$ (the width of the concave rib/two adjacent The spacing between the concave ribs is $4. According to the difficulty of the present invention, the above-mentioned panel-tilted wheel gallery is a moment opening > and the above-mentioned side edges are short sides of the panel bearing area. Preferably, the difference between the length of the concave rib and the length of the side edge is 〇.98$ (the length of the side edge / the length of the 201041789 concave rib) ^ 0.99. More preferably, the ratio of the width of the concave rib to the depth of the concave rib is 1S (the width of the concave rib / the depth of the concave rib) of $5. In accordance with a preferred embodiment of the present invention, the panel of the above-described panel has the same contour as the bottom surface of one of the liquid crystal display panels. In accordance with a preferred embodiment of the present invention, the thickness of the carrier sheet is the same as the thickness of the recessed ribs. According to a preferred embodiment of the present invention, the liquid crystal panel carrier tray further includes a plurality of studs. These studs are disposed on the bearing surface and are located outside the panel bearing area. These studs have an abutment surface. This abutment faces and adjoins the panel bearing area. These abutting faces are used to abut against one side edge of the liquid crystal panel. In accordance with a preferred embodiment of the present invention, the height of the studs described above is greater than the thickness of the panel. According to a preferred embodiment of the present invention, the liquid crystal panel carrier tray described above further includes a frame. The outer edge of the carrier plate is attached to the inner edge of the frame. The inner edge of the frame has a plurality of top surfaces. These abutting faces face and adjoin the panel carrying area. These abutting surfaces are used to abut against the side edges of the liquid crystal panel. More preferably, the inner edge of the frame has a plurality of retracting grooves. These retraction slots are adjacent to the panel bearing area. These retracting slots are located outside the panel carrying area and accommodate the corners of the panel carrying area in the retracting slots. In accordance with a preferred embodiment of the present invention, the ratio of the length of the concave ribs to the length of the short sides of the outer edges of the frame is 0.55 ^ (the length of the concave ribs / the length of the short sides of the outer edge of the frame) of $ 0.70. In accordance with a preferred embodiment of the present invention, the ribs are evenly distributed over the carrier 201041789 and the number of ribs is between 5 and the rafters. According to a preferred embodiment of the invention, the concave ribs are distributed on the carrier plate with the center of the carrier plate as an axis of symmetry, and the number of the concave ribs is between 2 and 16. Another liquid crystal panel carrier disk disclosed in the present invention comprises a carrier plate, a plurality of protrusions and a plurality of concave ribs. The protrusions are arranged on the carrier plate and divide the carrier plate into a printed circuit board (PCB) bearing area. , panel carrying area and multiple flexible circuit board (FPC) carrying areas. Each of the studs is surrounded by a printed circuit board receiving area 'panel carrying area and two adjacent flexible circuit board receiving areas. The concave ribs are disposed in the panel carrying area. Each of the concave ribs has a width, and a gap between two adjacent concave ribs, and 0.25S (the width of the concave rib / the spacing between two adjacent concave ribs) 'heart according to an embodiment of the present invention The panel bearing area has a long side and a short side. The short sides have a length, and the concave ribs are all parallel to the short sides. Preferably, each of the concave ribs has a length of 0.98 ^ (length of the short side / length of the concave rib) of $0.99. According to an embodiment of the present invention, the concave ribs are located in the panel bearing area. According to a preferred embodiment of the present invention, a portion of the concave ribs are located in the panel bearing area. The remaining concave ribs are disposed in the panel bearing area. Corresponding to the flexible circuit board accommodating area. In accordance with a preferred embodiment of the present invention, portions of the partial ribs are located in the panel load zone, and the remaining ribs are disposed in the panel load zone, the corresponding flex circuit 201041789 board accommodating zone and the circuit board carrying zone. According to an embodiment of the invention, each of the above-mentioned concave ribs has a depth - and 1 $ (the width of the concave rib / the depth of the concave rib) of $5. According to an embodiment of the invention, the other liquid crystal panel carrier tray further comprises a frame surrounding the carrier plate. Preferably, the ratio of the length of the concave rib to the length of the short side of the outer edge of the frame is α55_the length of the rib/the length of the short side of the outer edge of the frame) S 0.70. According to the invention, the rib solutions are evenly distributed on the carrier plate, and the number of the ribs is between 5 and 28 bars. According to the invention, the center of these _ series is distributed on the carrier board for the axle, and the number of these simplifications is between 2 and 16. Based on the above, since the above-mentioned liquid crystal panel carrying tray has a concave rib in the bearing area, and the ratio of the width of the concave ribs to the spacing between the adjacent concave ribs is 0.25, the width of the concave ribs/two adjacent concaves The spacing between the ribs is such that the liquid crystal panel carrier has the preferred strength at the same thickness of the carrier plate as compared to conventional techniques. The above description of the present invention and the following description of the embodiments of the present invention are intended to illustrate and explain the principles of the invention. [Embodiment] Hereinafter, detailed features according to the present invention and 201041789 U are sufficiently described in the embodiments to enable any skilled in the art to understand the technology according to the present invention and to disclose it according to the present specification. The content of the invention, the scope of the patent application, and the drawings may be readily understood by those skilled in the art in the light of the present invention. The scope of the invention. Please refer to the figures 1, 2, 3A and 3B, wherein FIG. 1 is a schematic perspective view of a liquid crystal panel carrier according to the embodiment of the present invention, and FIG. 2 is a liquid layer panel bearing of FIG. A schematic plan view of the disk, a green view of Fig. 3A is a schematic cross-sectional view of the liquid crystal panel bearing surface of Fig. 1 and a partial enlarged view of Fig. 3B. The liquid crystal panel carrier 20 includes a carrier plate 22 and a plurality of -10s. The carrier plate 22 has a carrier surface %. The bearing surface % has a panel bearing area 28. The panel carrying area is adapted to carry a liquid crystal panel. Preferably, the panel conforms to the contour of a bottom surface of the liquid crystal display panel. These first concave ribs 24 are located within the panel carrying area. The major axis L of these first-recess ribs 24 is parallel to one side of the panel carrying area 28. According to the invention, the panel carrying area 28 has a short side 3〇 and a long side 32, and the long axis L of the first concave rib 24 is parallel to the short side 3〇. Preferably, the panel bearing area 28 has a rectangular shape and the major axis l of the first concave rib 24 is parallel to a short side 3 of the panel carrying area 28. The first concave ribs 24 have a width W, and the two adjacent first concave ribs 24 have a spacing D therebetween, wherein the width % of the first concave rib 24 is between the two adjacent first concave ribs 24 When the ratio of the pitch D is 0.25 SW/DS4, there is an acceptable amount of deformation of the liquid crystal panel carrier 20 with 10 201041789. Referring to Fig. 4, there is shown a computer simulation result of the deformation amount of the liquid crystal panel carrier disk corresponding to different (W/D) values of the liquid crystal panel carrier according to the present invention under load. The parameters of this computer simulation are as follows: (1) The liquid crystal panel carrier 20 has a width of 543.77 mm (mm), a length of 947.39 mm (mm), and a height of 0.7 mm (mm). (2) The density of the liquid crystal panel carried by the liquid crystal panel carrier 20 is 4 x 2.4 X 10 - 9 metric tons / cubic metre. (3) The liquid crystal panel carrying tray 20 carries two liquid crystal panels, and the total weight of the liquid crystal panel carrying tray 20 plus the two liquid crystal panels is 3.46 kg (Kg). (4) Young's coefficient E = 62.5 x l 〇 9 Pascal (pa). (5) The Poisson ratio is 0.23. As is apparent from Fig. 4, when (W/D) is more than 0.25, the amount of deformation of the liquid crystal panel carrying tray 20 is remarkably lowered, i.e., the strength of the liquid crystal panel carrying tray 2 is significantly improved. When (W/D) continuously increases and approaches 4, the slope of the curve tends to be flat, that is, the increase in (W/D) is unsustainable and the strength of the liquid crystal panel carrier 20 is remarkably enhanced and may even decrease. The strength of the liquid crystal panel carrying tray 2〇. Further, when (W/D) approaches 1, the amount of deformation of the liquid crystal panel carrying tray 2〇 reaches a minimum value, that is, the liquid crystal panel carrying tray 2 has the best strength. In addition, in order to make the carrier plate 22 have better rigidity, in a preferred embodiment of the present invention, the length p of the first concave rib 24 should be shorter than the panel bearing area %. 11 201041789 Side: > Quite, that is, the ratio of the range is 〇98^s/i> each kiss. Further, in order to provide the carrier plate 22 with better rigidity, the ratio of the width W of the first concave ribs to the depth H of the first concave ribs 24 may be 1$W/H$5. In addition, when the first-recess ribs 24 are evenly distributed on the carrier plate 22 (i.e., the spacing between the first concave ribs 24, and the spacing between the outermost first concave ribs and the inner edge of the frame 38) Equivalent) 'In order to make the carrier plate η more rigid, it is preferable to 'if the number of the first concave ribs 24 is N, then (d). When the first concave ribs 24 are distributed on the carrier plate 22 with the center of the carrier plate 22 as an axis of symmetry (the pitch between the first concave ribs 24 is equal, but with the outermost first concave rib 24 and the frame 38 The spacing between the inner edges is not necessarily equal. In order to provide better rigidity to the carrier plate 22, it is preferable that 2SNC$16 if the number of the first concave ribs 24 is Nc. . The monthly reference is shown in FIG. 5, which is shown as a computer simulation result of the number of the first-recess ribs corresponding to the deformation amount of the liquid crystal panel carrier disk under the load of the liquid crystal panel carrier according to the present invention, wherein the first concave The ribs are evenly distributed on the liquid crystal panel carrier. As can be seen from Fig. 5, when Ν is larger than 5, the deformation f of the liquid crystal panel carrier disk 2 is lowered, that is, the strength of the liquid crystal panel carrier disk 20 is remarkably improved. When the temple continues to increase and approaches 28, the slope of the curve tends to be flatter. 'The increase in the length p can not be extinguished and the strength of the lining of the liquid raft panel carrying tray 2' is only an increase in design and manufacture. On the difficulty of the above, when the scoop is 4^5SNS28, the intensity 12 201041789 of the liquid crystal panel carrier 20 is significantly or acceptably increased. Please refer to FIG. 6 and send an i-heart from #nr - /, and spray not according to the liquid crystal panel carrier of the present invention, the first concave rib's shape of the computer die face, the corresponding In the change of the liquid crystal panel carrying tray, the first and second concave ribs are distributed on the liquid day and day panel carrying tray with the center of the liquid crystal panel carrying tray as the axis of symmetry. As can be seen from Fig. 6, when the deformation amount of the Y and liquid yang panel carrying tray 20 is remarkably lowered, the strength of the Ο 、, P& 曰 panel carrying tray 20 is remarkably improved. When the NC continues to increase

And when approaching 16 o'clock, the slope of the A and Friend tends to be gentle, that is, the increase of the length p cannot be sustained and the intensity of the panel is only increased and the manufacturing difficulty. Only. In other words, when KNg 丨 6, the intensity of the liquid crystal panel 2Q is significantly or acceptably increased. The night sill panel carrying tray includes a carrier plate a and a first-concave rib %, and a bucking post 34. These studs 34 are disposed on the bearing surface % and are located outside the panel bearing weir. Each of the studs has - abutment surface %. The guilty face 36 is oriented toward and adjacent to the panel carrying area μ. In this way, when the liquid day and day panel is disposed on the carrier plate 22 and is located in the panel carrying area, the liquid panel is secured against the abutment surface 36. Therefore, the present embodiment can restrict the movement of the liquid crystal panel on the bearing surface 26 via the projections 34. Preferably, the height of the studs 34 is greater than the thickness of the two liquid crystal panels. According to an embodiment of the present invention, in order to make the liquid crystal panel carrier 20 have better strength, the liquid crystal panel carrier 20 includes a carrier board 22 and a plurality of first concave ribs 24, and the liquid crystal panel carrier 20 further includes a The frame 38, 13 201041789 wherein the outer edge of the carrier plate 22 is attached to the inner edge of the frame %. In order to provide better rigidity to the carrier plate 22, in a preferred embodiment of the present invention, the ratio of the length of the first to the outer edge of the frame % to the outer edge of the frame % is 0.55 $ Ρ / Ι $ 0 · 70. , Mingshen No. 7®, is shown as a computer simulation result of the deformation amount of the liquid crystal panel carrier disk corresponding to the length of the different first ribs under the load of the liquid crystal panel carrier according to the present invention. In this electric power experiment, the length I of the short side of the outer edge of the frame 38 is 712 mm (mm). As can be seen from Fig. 7, when 4 GG (deleted) SPS is 500 mm (mm), the strength of the liquid crystal panel carrier 20 is remarkably increased. In other words, when #4〇〇/712 = 〇·55 ^/1^5〇〇/712 = 〇 7〇, the intensity of the liquid crystal panel carrier 2〇 is significantly increased. The inner edge of the preferred 疋' frame 38 has a plurality of abutment faces 4, wherein the abutment faces 40 face and are adjacent to the panel bearing zone 28. As a result, when the liquid crystal panel is disposed on the carrier 22 and located in the panel carrying area 28, the liquid crystal panel abuts against the top surface 40. Therefore, this embodiment can restrict the movement of the liquid crystal panel on the bearing surface 26 via these abutting faces 40. More preferably, the inner edge of the frame 38 has a plurality of relief grooves 42 that are adjacent to the panel bearing region 28, outside the panel bearing region 28, and accommodate the corners of the panel bearing region 28 in the retraction slot 42. Therefore, the number of the retracting grooves 42 is at least four. As a result, when the liquid crystal panel is disposed on the carrier board 22 and is located in the panel carrying area 28, the corners of the liquid crystal panel are accommodated in the retracting groove 42, 14201041789 and are not in contact with the inner edge of the frame 38. Therefore, the present embodiment can prevent the fragile corners of the liquid crystal panel from being damaged by the collision during transportation via the retracting grooves 42. According to a preferred embodiment of the present invention, the studs 34 further divide the carrier plate 22 into a panel carrying area 28, a printed circuit board (pCB) receiving area 44, and a plurality of flexible circuit board (FPC) receiving areas 46. . In more detail, the carrier board 22 includes a printed circuit board accommodating area 44 and a flexible circuit board accommodating area 46 in addition to the panel carrying area 28, wherein any of the studs 34 are printed by the panel carrying area 28, The circuit board accommodating area 44 and two adjacent flexible circuit board accommodating areas 46 are surrounded. According to an embodiment of the present invention, the liquid crystal panel carrier 20 may include a plurality of second concave ribs 48 in addition to the carrier plate 22 and the first concave ribs 24. These second recessed ribs 48 are located in the panel carrying area 28 and the corresponding flexible circuit board receiving area 46. In more detail, these second recessed ribs 48 extend from the panel bearing area 28 to the corresponding flexible circuit board receiving area 46. In addition, the liquid crystal panel carrier 20 may also include a plurality of third concave ribs 50. These third recessed ribs 50 are located in the panel carrier area 28, the corresponding flexible circuit board receiving area 46, and the printed circuit board receiving area 44. In more detail, the third recessed rib 50 extends from the panel carrying area 28 through the corresponding flexible circuit board receiving area 46 and to the printed circuit board receiving area 44. The relationship between the second concave ribs 4 8 or the third concave ribs 50, or the relationship with the first concave ribs 24, can be applied analogously to the design principle of the first concave ribs 24, and will not be described herein. Therefore, the liquid crystal panel carrier 20 of the present invention comprises at least (1) first concave ribs 24, second concave ribs 48 and third concave ribs 50, (2) first concave ribs 24 and 15th 201041789 two concave ribs 48. (3) The first concave rib 24 and the third concave rib 50, and (4) the first concave rib 24 are in four modes. According to a preferred embodiment of the present invention, in order to further strengthen the rigidity of the first concave rib 24, the inner edge of the first concave rib 24 further has a flange 52, wherein the flange 52 is defined by the first concave rib 24. The rim protrudes toward the recess 54 of the first concave rib 24. As a result, by increasing the rigidity of the first concave rib 24, the rigidity of the liquid crystal panel carrying tray 2 of the present embodiment is also enhanced. According to a preferred embodiment of the present invention, the material for manufacturing the liquid crystal panel carrier 20 is plastic. Preferably, the plastic is selected from the group consisting of poly(p-phenylene terephthalate) (PP) and polystyrene. (ps) The group formed. In addition, for the sake of big! The liquid crystal panel carrier 20 is produced in a ground, fast and cost-effective manner, and the liquid crystal panel carrier 20 is manufactured by a method of injection molding, and the vehicle is further smashed into a plastic material of the liquid crystal panel carrier 20 The wall thicknesses of the portions are the same, in other words, the thickness of the carrier plate 22 is the wall thickness of the first concave ribs 24.嗬 照 照 Μ Μ Μ Μ / 啤 啤 啤 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六 六A schematic cross-sectional view of a liquid crystal panel. Based on the structure of the liquid crystal panel carrying tray 2 () described above, the liquid crystal panel 56 can be disposed in the panel carrying area of the carrying board 22, wherein the wheel of the panel carrying area 28 is identical to the contour of one of the liquid crystal panels. . Further, the side of the liquid crystal panel 56 may be further provided with a printed circuit 16 201041789 plate 58 and a flexible circuit board, wherein the printed circuit board 6 electrically connects the liquid b panel 56 to the printed circuit board %. If the printed circuit board 58 and the flexible circuit board 6 are disposed on the side of the liquid crystal panel, the printed circuit board % and the plurality of winding circuit boards 6 are respectively disposed in the printed circuit board housing area and the plurality of flexible The circuit board accommodating area 46. In addition, since the liquid crystal panel carrying tray 2 has the studs 34 and the frame %, the liquid crystal panel % is abutted against the abutting surface 36 and against the page 40, so the liquid crystal panel carrying tray 2 is passed through the studs. And the frame 38 limits the movement of the liquid crystal panel 56 on the carrying surface 26. In addition, since the frame 38 has the retracting grooves 42, the liquid crystal panel carrying trays 2 are passed through the retracting grooves 42 to prevent the fragile corners of the liquid crystal panel 56 from being damaged by the smashing during transportation. Furthermore, the liquid crystal panel carrying tray 2 can also carry a plurality of liquid crystal panels 56 at the same time, and only need to be separated by spacers 62. The spacers (5) are preferably made of a buffer material, such as a foamed material. Based on the above, since the above-mentioned liquid crystal panel carrying tray has D concave ribs in the bearing area, and the ratio of the width of the concave ribs to the spacing between the adjacent concave ribs is 0.25 S concave ribs/two adjacent The spacing between the concave ribs of $4 is such that the liquid crystal panel carrier has the preferred strength at the same thickness of the carrier plate as compared to the prior art. Although the embodiments of the present invention are disclosed above, it is not intended to limit the present invention, and those skilled in the art, regardless of the spirit and scope of the present invention, the shapes, structures, and features described in the scope of the present application. And the spirit can be changed a little, so the scope of patent protection of the present invention shall be subject to the definition of the patent application Fan Tao attached to the 2010. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a schematic perspective view of a liquid crystal panel carrier according to an embodiment of the present invention; f 2 is a top view of the edge of the 71 crystal panel; 7 's7F is the first ® A cross-sectional view of the liquid crystal panel bearing; f 3 Β is not a partial enlarged view of the third drawing; the first n is a liquid crystal panel supporting the liquid crystal panel carrying disk according to the present invention. The electrical simulation result of the deformation amount of the carrier disk; ^=5 is a diagram showing that when the liquid crystal panel carrier disk according to the present invention is under load, the Tianshi rib rib system is evenly distributed on the liquid crystal panel carrier disk, the concave rib is taken, ... computer simulation results of the deformation amount of the liquid crystal panel carrier disk;

The flute C fire diagram is shown as a liquid crystal panel carrier according to the present invention. The load bearing the disk is loaded with a thin rib (4) panel. The center of the towel is distributed on the surface of the liquid 30 panel. The number N of _ corresponds to the g panel. The computer simulation result of the deformation amount of the carrier disk; FIG. 7 is a schematic diagram showing the brain opening simulation result of the liquid crystal panel carrier disk corresponding to the length p of the concave rib of the liquid crystal panel carrier disk according to the present invention; FIG. 9 is a schematic cross-sectional view showing a liquid crystal panel carrying tray of a liquid crystal panel according to a first embodiment of the liquid crystal panel; and FIG. 9 is a schematic view of a liquid crystal panel carrying tray carrying a liquid crystal panel. [Main component symbol description] 20. Liquid crystal panel carrier 22: Carrier plate 24: First concave rib 26: Bearing surface 28: Panel bearing area 30: Short side 32: Long side 34: Protrusion 36: Abutment surface 38 : Frame 40: Abutment surface 42: Retraction groove 44: Printed circuit board accommodating area 46. Pulling circuit board accommodating area 48: Second concave rib 50: Third concave rib 52: Flange 54: Depression 56: Liquid crystal panel 19 201041789 58 : Printed circuit board 60 : Flexible wiring board 62 : Spacer pad L : Long axis P : Length I : Length S : Length W : Width D : Spacing H : Depth N : Number Nc : Quantity

Claims (1)

201041789 VII. Application for patent consumption 1. A liquid crystal panel carrier tray comprising: a carrier plate having a carrying surface having a panel carrying area for carrying a liquid crystal panel; and a plurality of concave ribs, Located in the panel carrying area, the long axes of the concave ribs are parallel to one side of the panel carrying area, the concave ribs have a width, and a gap between two adjacent concave ribs, and the width is The ratio between the pitches is 〇0.25^(the width/the spacing)^4. 2. The liquid crystal panel carrier of claim 1, wherein the panel carrying area has a rectangular shape and the side is a short side of the panel carrying area. 3. The liquid crystal panel carrier according to claim 2, wherein a ratio of a length of the concave rib to a length of the side is 0.98 $ (the length of the side / the length of the concave rib) ^ 0.99. 4. The liquid crystal panel carrier according to claim 3, wherein a ratio of the width of the concave rib to a depth of one of the concave ribs is the width/the depth S5. 5. The liquid crystal panel carrier of claim 4, wherein the rim of the panel carrying area is the same as the wheel of one of the bottom surfaces of the liquid crystal panel. 6. If the liquid crystal panel described in the handle 5 is bearing, the thickness of the carrier sheet is the same as the thickness of the concave rib. 7. The liquid crystal panel carrying tray of claim 6, further comprising a plurality of studs disposed on the carrying surface, the studs being located outside the panel, the studs having an abutting surface The facing faces face and adjoin the panel carrying area, and the abutting faces are 21 201041789 to abut one side edge of the liquid crystal panel. The liquid crystal panel bearing surface according to claim 7, wherein the height of the protrusions is greater than the thickness of the liquid crystal panel. 9. The liquid crystal panel carrier of claim 5, further comprising a frame, the outer edge of the carrier is connected to the inner edge of the frame, and the inner edge of the frame has a plurality of abutting surfaces, Towards and 嶋 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The liquid crystal panel of claim 9, wherein the inner edge of the frame further has a plurality of retreating slots, the retracting slots being adjacent to the panel carrying area, the retreating slots being located outside the panel carrying area, and The retracting grooves accommodate the corners of the panel bearing area in the retracting groove. The liquid crystal panel according to claim 9, wherein the length of the _ and the length of the outer edge of the truss are the length of Q.55 / the length of the short side of the outer edge of the frame) 〇7〇 . A liquid crystal panel panel according to claim 9, wherein the concave ribs are evenly distributed on the carrier plate ‘and are thinly between 5 money bars. 13. The liquid crystal panel carrier according to claim 9, wherein the concave ribs are distributed on the carrier plate with the center of the carrier plate as an axis of symmetry, and the number of the concave ribs is between two Between 16 articles. A liquid crystal panel carrying tray comprising: a carrying board; a plurality of protruding columns disposed on the carrying board, and dividing the carrying board into 201041789 a printed electric job face, a panel bearing and a viewing a circuit board accommodating area, and each of the plurality of protrusions is surrounded by the printed circuit board accommodating area, the _ board carrying area and the two adjacent flexible circuit board accommodating areas; and a plurality of concave ribs, each Each of the concave ribs has a width, and a gap between the two adjacent concave ribs is provided, and 〇. such as (the width / the spacing (8). 15. The liquid crystal panel according to claim 14 is borne by Board bearing area has - a long side and a short side, the short side having a length, and the concave ribs are parallel to the short side. 16. The liquid crystal panel according to claim 15, wherein the concave ribs of the towel have a length, and the length of the short side of the 0.98 S/the length of the concave rib is 〇99.读. The read crystal panel bearing surface of claim b, wherein the concave ribs are located within the panel carrying area. The liquid crystal panel carrying tray of claim 15, wherein the portions of the concave ribs are located in the panel carrying area, and the remaining concave ribs are disposed on the panel carrying area and the corresponding flexible circuit board Set in the zone. The liquid crystal panel carrying tray according to claim 15, wherein the portions of the concave ribs are located in the panel carrying area, and the remaining concave ribs are disposed on the flexible circuit board corresponding to the panel carrying area. The zone is in the carrying area of the board. The liquid crystal panel carrier according to claim 14, wherein each of the concave ribs has a depth of 1$ (the width/the depth) of $5. The liquid crystal panel carrying tray according to claim 14, further comprising a board 0 23 201041789 22. 23. 24. The liquid crystal panel carrying tray of 21, wherein The ratio of the length of the concave aid to the length of the short side of the outer edge of the frame is 0.55 $ (the length of the concave rib / the length of the short side of the edge of the frame) ^ 0.70. The liquid crystal panel carrier according to claim 14, wherein the concave ribs are evenly distributed on the carrier plate, and the number of the concave ribs is between 5 and 4. The liquid crystal panel bearing surface according to claim 4, wherein the _ is distributed on the carrier plate with the center of the carrier plate as an axis of symmetry, and the number of the ribs is between 2 and 16 Between the bars. twenty four