JP2014032305A - Display device and method of producing the same, and source substrate holding member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device which can avoid a stress and breakage of a flexible wiring board in wider scenes, a method of producing the same, and a source substrate holding member.SOLUTION: A display device includes a display member in which a cell and a source substrate are connected to each other with a flexible wiring board, a cell holding member, an a source substrate holding member. The source substrate holding member includes a holding section that holds the source substrate and can be fixed to a first side of the cell holding member, a mooring section that can be fixed to a second side opposite to the first side of the cell holding member, and a connection section that connects the mooring section and the holding section to each other.

Description

  The present disclosure relates to a display device such as a television device and a monitor, a manufacturing method thereof, and a source substrate holding member used for them.

  A film cable (flexible wiring board) called COF (Chip On Film) is connected to a cell such as liquid crystal or organic EL (Electroluminescence). A bare chip is mounted on the COF, or a source substrate is connected to the COF. Since COF is based on a plastic film, it is susceptible to stress due to unintended deformation such as twisting in the manufacturing process. Further, the COF is fixed to the rear surface side of a housing (for example, a backlight housing) containing cells by a double-sided adhesive tape or the like, but the COF may be damaged when the double-sided adhesive tape is peeled off at the time of disassembly. .

  Therefore, for example, Patent Document 1 uses a substrate holding sheet that removably fixes the COF to the back surface of the backlight in order to prevent damage to the COF during decomposition. In this substrate holding sheet, the base piece and the pressing piece can be folded in two along a valley fold line, and a locking hole is provided at the end of the pressing piece. Attach the base piece to the back of the backlight, roll up the holding piece, fold the COF under it, hold down the COF with the holding piece, and hook the locking hole to the projection on the side of the backlight.

JP 2003-167528 A

  However, in the board | substrate holding sheet | seat of patent document 1, the fixing place of the base piece was limited to the back surface of a backlight. For this reason, the substrate holding sheet can be used only when the cell is under the backlight and the back surface of the backlight is facing upward, as shown in FIG. There was a problem that.

  The present disclosure has been made in view of such a problem, and an object thereof is to display a display device capable of avoiding stress and damage of a flexible wiring board in a wider range of scenes, a manufacturing method thereof, and a source substrate holding member. Is to provide.

  A display device according to the present disclosure includes a display member in which a cell and a source substrate are connected by a flexible wiring substrate, a cell holding member, and a source substrate holding member. The source substrate holding member holds the source substrate and the cell holding member. A holding portion that can be fixed to the first side of the cell, a mooring portion that can be fixed to the second side opposite to the first side of the cell holding member, and a connecting portion that connects the mooring portion and the holding portion. It is.

  In the display device according to the present disclosure, the holding portion of the source substrate holding member can be fixed to the first side of the cell holding member, and the anchoring portion is fixed to the second side opposite to the first side of the cell holding member. It is possible. Therefore, even in a state where the second side of the cell holding member (that is, the side opposite to the side where the holding portion holding the source substrate is finally fixed) is directed upward, the mooring portion is moved to the cell holding member. It becomes possible to fix to the second side.

  A display device manufacturing method according to the present disclosure is a method for manufacturing a display device including a display member in which cells and a source substrate are connected by a flexible wiring substrate, a cell holding member, and a source substrate holding member. The holding member holds the source substrate and can be fixed to the first side of the cell holding member; and a mooring portion that can be fixed to the second side opposite to the first side of the cell holding member; And a connecting portion connecting the mooring portion and the holding portion. The manufacturing method includes a step of holding the source substrate of the display member by the holding unit, and placing the cell on the second side of the cell holding member with the second side of the cell holding member facing upward, Fixing the cell holding member to the second side of the cell holding member, and reversing the cell holding member together with the cell so that the first side faces upward and fixing the holding portion to the first side of the cell holding member. Including.

  In the manufacturing method of the display device according to the present disclosure, after the anchoring portion is fixed to the second side of the cell holding member with the second side of the cell holding member facing upward, the cell holding member is inverted together with the cell. Therefore, the source substrate is inverted following the inversion of the cell holding member and the cell while being held by the source substrate holding member. Therefore, the flexible wiring board is also reversed while maintaining its normal shape as the cell and source substrate are reversed, and unintended deformation such as twisting is less likely to occur.

  A source substrate holding member of the present disclosure is used in a display device including a display member in which a cell and a source substrate are connected by a flexible wiring board, and a cell holding member, and holds the source substrate and the cell holding member. A holding portion that can be fixed to the first side of the cell, a mooring portion that can be fixed to the second side opposite to the first side of the cell holding member, and a connecting portion that connects the mooring portion and the holding portion. It is.

  According to the display device of the present disclosure or the source substrate holding member of the present disclosure, the holding portion of the source substrate holding member can be fixed to the first side of the cell holding member, and the mooring portion is opposite to the first side. It can be fixed to the second side. Therefore, even in a state where the second side of the cell holding member (that is, the side opposite to the side where the holding portion holding the source substrate is finally fixed) is directed upward, the mooring portion is moved to the cell holding member. It becomes possible to fix to the second side. Therefore, it is not limited to the case where the cell is under the backlight and the back surface of the backlight (the surface on which the flexible wiring board is fixed) is facing upward as in the conventional case. It is possible to avoid stress and damage to the substrate.

  According to the manufacturing method of the display device of the present disclosure, after the mooring portion is fixed to the second side of the cell holding member with the second side of the cell holding member facing upward, the cell holding member is inverted together with the cell. Since the first side is directed upward, the anchoring portion can be fixed to the second side of the cell holding member prior to reversing the cell holding member. Therefore, it is possible to avoid stress and damage to the flexible wiring board before or during inversion.

It is a perspective view showing the appearance which looked at the display concerning one embodiment of this indication from the front side. It is a perspective view showing the external appearance which looked at the display apparatus shown in FIG. 1 from the rear surface side. It is a perspective view which decomposes | disassembles and represents the main-body part shown in FIG. It is the perspective view showing the structure which removed the front exterior member from the main-body part shown in FIG. 1, and looked at the front side upwards. It is a perspective view showing the structure which removed the coating | coated member from the main-body part shown in FIG. 2, and looked at the back side upwards. It is a perspective view showing the structure of the source substrate holding member shown in FIG. It is sectional drawing showing the attachment state to the cell holding member of the source substrate holding member shown in FIG. FIG. 2 is a perspective view illustrating a method for manufacturing the display device illustrated in FIG. 1 in order of steps. FIG. 9 is a cross-sectional diagram illustrating a process following the process in FIG. 8. FIG. 10 is a cross-sectional diagram illustrating a process following the process in FIG. 9. FIG. 11 is a cross-sectional diagram illustrating a process following the process in FIG. 10. FIG. 12 is a cross-sectional diagram illustrating a process following the process in FIG. 11. It is sectional drawing showing the modification of the attachment position of the holding | maintenance part shown in FIG. 14 is a plan view illustrating a configuration in which a part of a display device according to Modification 1 is viewed from the front side. FIG. It is a perspective view showing the structure of the source substrate holding member shown in FIG. It is the top view which looked at the attachment state to the cell holding member of the source substrate holding member shown in FIG. 15 from the rear surface side. 12 is a plan view illustrating a configuration in which a part of a display device according to Modification 2 is viewed from the front surface side. FIG. It is sectional drawing showing the attachment state to the cell holding member of the source substrate holding member shown in FIG.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. The description will be given in the following order.
1. Embodiment (Example in which a straight source substrate holding member is used and the mooring portion is fixed to the long side of the open portion (long hole-shaped notch))
2. 2. Modification of fixing position of holding part Modification of anchoring position

  FIG. 1 illustrates an appearance of a display device according to an embodiment of the present disclosure as viewed from the front side (viewer side). The display device 1 is used as a thin television device, for example, and has a configuration in which a flat main body 2 for image display is supported by a stand 3. The main body 2 has a display member 10 using, for example, a liquid crystal cell. The front peripheral edge of the display member 10 is covered with a frame-shaped front exterior member (bezel) 21. The display device 1 is used as a stationary type with the stand 3 attached to the main body 2 and placed on a horizontal surface such as a floor, a shelf, or a stand, but with the stand 3 removed from the main body 2. It can also be used as a wall-hanging type.

  FIG. 2 shows an appearance of the display device 1 as viewed from the rear side (back side). A cell holding member 30 is provided on the rear surface side of the display member 10. A region below the outside of the cell holding member 30 is covered with a covering member 22.

  FIG. 3 is an exploded view of the main body 2 shown in FIGS. 1 and 2. For example, the main body 2 has a front exterior member (bezel) 21, a display member 10, an intermediate housing (middle chassis) 23, an optical sheet 24, a reflective sheet 25, and a cell holding member from the front side F toward the rear side R. A member (rear cover) 30 is provided in this order. An illumination member 26 made of, for example, a plurality of LEDs (Light Emitting Diodes) is arranged inside the cell holding member 30. Substrates such as the power supply board 27 and the signal board 28 are mounted in the region below the outside of the cell holding member 30 and the covering member 22 is covered.

  The front exterior member 21 is a frame-shaped resin component that covers the front peripheral edge of the display member 10, and is fixed to the peripheral edge of the cell holding member 30 by, for example, a snap fit method.

  The display member 10 is, for example, a so-called open cell in which a liquid crystal cell 11 and a source substrate 12 are connected by a flexible wiring substrate 13 such as COF (Chip On Film). The source substrate 12 is a printed circuit board on which a source driver (not shown) for driving data lines (not shown) of the cells 11 is mounted. Source substrate holding members 40 are attached to both ends of the source substrate 12 in the longitudinal direction. Details of the source substrate holding member 40 will be described later.

  The intermediate housing 23 is a frame-shaped resin component that holds the display member 10 and the optical sheet 24. The optical sheet 24 is a resin plate including a diffusion plate, a diffusion sheet, a polarization reflection sheet, and the like. The reflection sheet 25 is for reflecting the light from the illumination member 26 toward the display member 10 side. The illumination member 26 is a direct type backlight having, for example, a plurality of LEDs as a light source. The illumination member 26 is not particularly limited, such as an edge light type using an LED and a light guide plate, or an organic EL element or a cold cathode tube as a light source in addition to the LED direct type.

  As shown in FIG. 2, the cell holding member 30 is a rear exterior member (rear cover) that constitutes a rear outer surface (outermost surface) of the main body 2, and accommodates the display member 10 or the illumination member 26. Also serves as a chassis (back chassis). That is, in the present embodiment, not a double structure of a rear case (back chassis) made of metal and a rear exterior member (rear cover) made of resin, which is conventionally adopted, but a single structure only by the cell holding member 30 Have taken. As a result, the conventional rear housing (back chassis) made of metal can be eliminated, and the number of parts can be reduced. Therefore, the display device 1 can be reduced in weight, the manufacturing process can be simplified, and the cost can be reduced.

  FIG. 4 shows a configuration in which the front exterior member 21 is removed from the main body 2 and the front side F is viewed upward. In addition, in FIG. 4 and subsequent figures, for the arrow FR indicating the front side F and the rear side R, when specifying which is facing upward, an arrow tip is attached to the side facing upward, and when not specifying the top and bottom As shown in FIG. 3, arrowheads are attached to both sides.

  For example, the cell 11 is fitted inside the intermediate housing 23 and accommodated in the cell holding member 30. The cell holding member 30 includes, for example, a front part 31, a rear part 32, an opening part 33, and an extension part 34.

  The front part 31 is a part on which the cell 11 is placed. The front portion 31 receives an outer peripheral portion of the cell 11 supported by the intermediate housing 23, and has an overhang portion 31A that spreads in a bowl shape to the outside of the cell 11, and the overhang portion 31A is shown in FIG. Further, the front exterior member 21 is fixed.

  The rear portion 32 is a portion that covers the rear surface of the cell 11 placed on the front portion 31. The front part 31 and the rear part 32 are configured integrally and continuously. Inside the rear portion 32, the illumination member 26, the reflection sheet 25, the optical sheet 24, and the like shown in FIG. 3 are accommodated.

  The open part 33 is a notch part (specifically, a rectangular long hole) provided along the lower side 31B of the front part 31 and extending in one direction (the left-right direction in the cell). The source substrate 12 (not shown in FIG. 4, see FIG. 7 and the like) and the flexible wiring 13 can pass through the open portion 33 to the back side of the cell holding member 30.

  The extended portion 34 is a portion projecting rearward from the lower side 31B of the front portion 31, and a speaker lattice hole 34A is provided at both ends.

  FIG. 5 illustrates a configuration viewed from the rear side R with the covering member 22 removed from the main body 2. Below the rear portion 32, an inclined portion 32A is provided. The source substrate 12 is fixed to the inclined portion 32A by the source substrate holding member 40. In addition to the source substrate 12, the power supply substrate 27 and the signal substrate 28 shown in FIG. 3 are mounted on the inclined portion 32A.

  FIG. 6 illustrates the configuration of the source substrate holding member 40. The source substrate holding member 40 has a configuration in which a holding portion 41 and a mooring portion 42 are connected by a connecting portion 43. The holding unit 41 holds the source substrate 12 and can be fixed to the rear surface side R (first side) of the cell holding member 30. The mooring part 42 can be fixed to the front side F (second side) opposite to the rear side R of the cell holding member 30. Thereby, in this display device 1, it is possible to avoid stress and damage being applied to the flexible wiring board 13 in a wider range of scenes.

  The source substrate holding member 40 is made of a resin material such as nylon or polypropylene in consideration of strength, bending, flexibility, resilience, and the like.

  The holding part 41 is a part that holds the source substrate 12 as described above, and has a through-hole 41A through which the source substrate 12 can be inserted in the longitudinal direction. In FIG. 6, a part of the source substrate 12 passed through the through hole 41A is represented by an imaginary line.

  The holding portion 41 has a first portion 41B and a second portion 41C that face each other in the thickness direction of the source substrate 12 inserted through the through hole 41A. The second portion 41C is a flat portion. The first portion 41B preferably has a curved portion 41D that protrudes toward the second portion 41C. Due to the spring property of the curved portion 41D, it is possible to hold down the source substrate 12 inserted through the through hole 41A and suppress the displacement DT of the source substrate 12 in the thickness direction. Therefore, it is possible to reduce unintentional vibration sound (so-called sound distortion) due to resonance between members, which is particularly suitable when a speaker (not shown) is provided in the vicinity of the source substrate 12. Further, the curved portion 41D allows a displacement DL in the insertion direction of the source substrate 12 into the through hole 41A. Therefore, when the cell 11 is moved by vibration, the source substrate 12 can also follow the movement of the cell 11, and it is possible to avoid stress and damage to the flexible wiring substrate 13.

  The curved portion 41D is preferably provided in a part of the first portion 41B in the width direction, and the remaining width direction of the first portion 41B is preferably a flat portion 41E. The reason is as follows. The flat portion 41E forms a rectangular frame together with the second portion 41C, and is a portion that ensures the strength of the entire holding portion 41. On the other hand, the curved portion 41D is a portion that holds the source substrate 12 inserted into the through hole 41A. A part of the first portion 41B in the width direction is the curved portion 41D, and the remaining width direction is the flat portion 41E, thereby saving space and securing the mold strength. Further, if the bending portion 41D is provided in the entire width direction of the first portion 41B, the bending property of the bending portion 41D may be too strong.

  It is preferable that a rib 41F protruding in a direction opposite to the bending portion 41D is provided at the boundary line between the bending portion 41D and the flat portion 41E. By providing the rib 41F in addition to the flat portion 41E, it is possible to reinforce the holding portion 41 and ensure the strength of the holding portion 41 even when the curved portion 41D is provided.

  The holding part 41 is also a part for fixing the source substrate 12 inserted through the through hole 41 </ b> A to the rear surface side R of the cell holding member 30. Therefore, the holding portion 41 has, for example, the first fixing portion 44 on the side surface of the tip portion 41G that is not connected to the connecting portion 43 and the tip portion 41H that is connected to the connecting portion 43. The 2nd fixing | fixed part 45 is provided in the back surface.

  It is preferable that the 1st fixing | fixed part 44 and the 2nd fixing | fixed part 45 are snap fit parts which can be fixed to the cell holding member 30 by fitting or latching using elasticity. This is because it is possible to simplify the fixing and detaching and increase the working efficiency.

  The 1st fixing | fixed part 44 has the hinge part 44A and the latching claw 44B, for example. The hinge portion 44A has a fixed end 44C fixed to the lower end of the side surface of the holding portion 41 and a movable end 44D facing the upper end of the side surface of the holding portion, and the movable end 44D serves as the holding portion with the fixed end 44C as an axis. It can be rotationally displaced in a direction approaching the side surface of 41 (arrow R1 direction). The latching claw 44B is provided outside the hinge portion 44A.

  It is desirable that the first fixing portion 44 be provided at a part in the width direction of the distal end portion 41G of the holding portion 41. The reason for this will be described in the manufacturing method described later.

  The 2nd fixing | fixed part 45 is a latching claw provided in the outer side of the 2nd part 41C of the holding | maintenance part 41, for example. Although not shown in the figure, for example, the latching claws of the second fixing portion 45 are provided in the entire width direction of the holding portion 41.

  The mooring portion 42 is a portion for fixing the cell holding member 30 to the front side F as described above. Therefore, the mooring part 42 has the 3rd fixing | fixed part 46, for example.

  Similarly to the first fixing portion 44 and the second fixing portion 45, the third fixing portion 46 is preferably a snap-fit portion that can be fixed to the cell holding member 30 by being fitted or latched using elasticity. This is because it is possible to simplify the fixing and detaching and increase the working efficiency.

  The 3rd fixing | fixed part 46 has the hinge part 46A and the latching claw 46B, for example. The hinge portion 46A has a bent shape that forms three sides of a rectangle, has a fixed end 46C fixed to the connecting portion 43, and a movable end 46D substantially opposite to the fixed end 46C. As described above, the movable end 46D can be rotationally displaced in a direction (arrow R2 direction) approaching the connecting portion 43. The latching claw 46B is provided outside the hinge portion 46A.

  The third fixing part 46 is provided in a part of the mooring part 42 in the width direction, and the remaining part of the mooring part 42 in the width direction is preferably an inelastic part 46E having no spring property. This is because if the third fixing portion 46 is provided in the entire width direction of the mooring portion 42, the spring property of the third fixing portion 46 may be too strong. The inelastic portion 42E is fixed to the connecting portion 43 together with the fixed end 46C of the hinge portion 46A.

  The connection part 43 is a part which connects the mooring part 42 and the holding | maintenance part 41 as mentioned above. The holding part 41 and the mooring part 42 are connected in a straight line by the connecting part 43.

  It is preferable that the connection part 43 has flexibility. This is because the source substrate holding member 40 can easily follow the movement of the source substrate 12 when the cell holding member 30 is inverted together with the cells 11 in the manufacturing process described later.

  Specifically, the connecting portion 43 has, for example, two thick triangular portions 43A and 43B and three joint portions 43C, 43D, and 43E. As a result, the connecting portion 43 can be bent at the joint portions 43C, 43D, and 43E to exhibit flexibility.

  It goes without saying that the number of thick portions and joint portions of the connecting portion 43 can be increased or decreased. As the number of thick portions and joint portions of the connecting portion 43 is increased, it becomes possible to bend and fold more easily.

  The holding portions 41, the mooring portions 42, and the connecting portions 43 may have the same widths W41, W42, and W43. However, as shown in FIG. The strength of the mooring portion 42 may be increased by making it wider than the widths W41 and W43 of 43.

  FIG. 7 illustrates a state in which the source substrate holding member 40 is attached to the cell holding member 30. In the source substrate holding member 40, the mooring portion 42 is fixed to the long side 33A of the open portion 33 on the side far from the cell 11 in the front portion 31 of the cell holding member 30 (see FIG. 4). The connecting portion 43 passes through the opening portion 33 toward the rear portion 32 side. The holding part 41 is fixed to the rear part 32 of the cell holding member 30.

  Specifically, in the third fixing portion 46 of the mooring portion 42, the hinge portion 46 </ b> A is fitted into the recess 31 </ b> C provided on the long side 33 </ b> A of the opening portion 33, and the latching claw 46 </ b> B is placed on the long side 33 </ b> A of the opening portion 33. It is hooked on the provided third receiving portion 31D.

  The holding part 41 is fixed to the inclined part 32A of the rear part 32, for example. Specifically, the latching claw 44B of the first fixing portion 44 is latched to the first receiving portion 32B of the rear portion 32 of the cell holding member 30, and the latching claw of the second fixing portion 45 is the rear portion of the cell holding member 30. 32 is hooked on the second receiving portion 32C.

  The display device 1 can be manufactured as follows, for example.

  8 to 12 show the manufacturing method of the display device 1 in the order of steps. 9 to 12, the flexible wiring board 13 is represented by a dotted line.

  First, as shown in FIG. 8, the cell holding member 30 is installed with the front side F facing up. An illumination member 26, a reflection sheet 25, an optical sheet 24, and an intermediate casing 23 are installed inside the cell holding member 30.

  Similarly, as shown in FIG. 8, a display member 10 in which the cell 11 and the source substrate 12 are connected by a flexible wiring substrate 13 is prepared, and the display member 10 is lifted by using an adsorption mechanism (not shown). Then, the cell holding member 30 is moved upward. The source substrate 12 is suspended from the cell 11 only by the flexible wiring substrate 13. Here, both end portions of the source substrate 12 are passed through the through holes 41 </ b> A of the holding portion 41 of the source substrate holding member 40, and the source substrate 12 is held by the holding portion 41.

  Next, as shown in FIG. 9, the cell 11 is placed on the front side F of the cell holding member 30 with the front side F of the cell holding member 30 facing upward. Also at this time, the source substrate 12 is suspended from the cell 11 only by the flexible wiring substrate 13. The source substrate holding member 40 simply passes both end portions of the source substrate 12 into the through hole 41 </ b> A of the holding portion 41.

  Subsequently, as shown by an arrow A <b> 1 in FIG. 10, the mooring portion 42 is fixed to the front side F of the cell holding member 30. Specifically, in the third fixing portion 46, the hinge portion 46A is fitted into the recess 31C, and the latching claw 46B is latched to the third receiving portion 31D. Since the recess 31C is open to the front side F, the hinge portion 46A can be fitted into the recess 31C only from the front side F as indicated by the arrow A1.

  As a result, the holding unit 41 holds the source substrate 12 in a state of being suspended from the cell holding member 30 by the mooring unit 41 and the connecting unit 43. In other words, the source substrate 12 is suspended from the cell 11 by the flexible wiring substrate 13 and is also suspended from the cell holding member 30 by the source substrate holding member 40.

  After that, the front exterior member 21 is placed on the peripheral edge of the cell member 30 and fixed, and the cell holding member 30 is inverted together with the cell 11 so that the rear surface side R faces upward as shown in FIG. This inversion process is performed for fixing the source substrate 12, mounting a speaker, mounting a substrate, processing a wire material such as a cable, and the like.

  At this time, the source substrate 12 follows the inversion of the cell holding member 30 and the cell 11 while being held by both the source substrate holding member 40 and the flexible wiring board 13 as indicated by an arrow A2 in FIG. Then flip.

  If the cell holding member 30 is inverted together with the cells 11 without using the source substrate holding member 40, the source substrate 12 is considered to suddenly fall to the inclined portion 32A side or the extended portion 34 side. The flexible wiring board 13 is based on a thin and soft plastic thin film, and itself has no self-supporting property or shape retention. For this reason, the shape of the flexible wiring board 13 collapses due to a sudden drop of the source board 12, and unintended deformation such as twisting or bending may occur, which may cause stress or damage.

  On the other hand, in the present embodiment, the source substrate 12 is inverted while being supported by the source substrate holding member 40. The source substrate holding member 40 has higher strength than the flexible wiring substrate 13 and has self-supporting property and shape retaining property, and the dropping speed and the dropping of the source substrate 12 are caused by the flexibility (shape restoring force) of the connecting portion 43. The position can be controlled. Therefore, for example, as shown by an arrow A2 in FIG. 11, the source substrate 12 is gently lifted from the state of being held in the source substrate holding member 40 and floating in the air as the cell holding member 30 and the cell 11 are reversed. It falls down to the inclined part 32A side. Therefore, the flexible wiring board 13 is also inverted while maintaining the normal shape as the cells 11 and the source substrate 12 are inverted, and unintended deformation such as twisting is less likely to occur, and stress and damage are avoided.

  After that, the holding portion 41 is fixed to the rear surface side R of the cell holding member 30 as indicated by an arrow A3 in FIG. Specifically, the latching claw 44B is latched to the first receiving portion 32B using the elasticity of the hinge portion 44A of the first fixing portion 44. Further, the latching claw of the second fixing portion 45 is latched on the second receiving portion 32C.

  At this time, since the rib 41F is provided at the boundary line between the curved portion 41D and the flat portion 41E in the first portion 41B of the holding portion 41, when the rib 41 is pressed, the pressing force is applied to the entire holding portion 41. . Therefore, by one operation of pushing the rib 41F, the latching pawl 44B of the first fixing portion 44 and the latching pawl of the second fixing portion 45 are latched simultaneously and smoothly and easily. It becomes possible. Therefore, a two-step operation such as first hooking the latching claw of the second fixing portion 41H on the second receiving portion 32C and then hooking the latching claw 41J of the first fixing portion 41G on the first receiving portion 32B is performed. This eliminates the need for labor, and improves work efficiency.

  In addition, since the first fixing portion 44 is provided in a part in the width direction of the distal end portion 41G of the holding portion 41, when the rib 41F is pressed from above, other than the first fixing portion 44 of the distal end portion 41G of the holding portion 41. This part is pressed in contact with the inclined portion 32A. Thereby, the latching claw of the 2nd fixing | fixed part 41H is hooked firmly on the 2nd receiving part 32C. Therefore, it is possible to ensure the hooking of the latching claw of the second fixing portion 45.

  Conventionally, a reusable jig may be used in order to protect the flexible wiring board from damage in the reversing process. That is, a jig is attached before the reversing process, and after the reversing process is finished, the jig is removed and reused for the next reversing process, and another method is used for final fixing of the source substrate. In the present embodiment, it is possible to eliminate the jigs that are reused as in the prior art and to finally fix the source substrate 12 by the source substrate holding member 40. That is, the source substrate holding member 40 can also have a function as a bracket for mounting the source substrate 12.

  Subsequently, with the rear surface side R of the cell holding member 30 facing upward, speaker installation, board mounting, wire material processing, and the like are performed, and the covering member 22 is placed on the outer lower side of the rear surface of the cell holding member 30. . In this way, the main body 2 shown in FIG. 2 is formed. Finally, the display device 1 shown in FIG. 1 is completed by attaching the stand 3 to the back surface of the main body 2.

  In the display device 1, the light from the illumination member 26 is reflected directly or by the reflection sheet 25, is uniformly diffused by the optical sheet 24, and enters the cell 11 of the display member 10. The incident light passes through a polarizing plate (not shown), and then is modulated for each pixel based on a video voltage applied between a pair of substrates (not shown) of the cell 11 (not shown). ). The light transmitted through the liquid crystal layer passes through a color filter (not shown), and is extracted outside the polarizing plate (not shown) as color display light.

  As described above, in the display device 1 of the present embodiment, the holding portion 41 of the source substrate holding member 40 can be fixed to the rear surface side R of the cell holding member 30, and the mooring portion 42 can be fixed to the front surface side F. Therefore, even in a state where the front side F of the cell holding member 30 (that is, the side opposite to the rear side R on which the holding part 41 holding the source substrate 12 is finally fixed) is directed upward, the mooring part 42 can be fixed to the front side F of the cell holding member 30. Therefore, the flexible wiring board 13 is not limited to the case where the cell is under the backlight and the back surface of the backlight (the surface on which the COF is fixed) is facing upward as in the conventional case, and in a wider range of situations. It is possible to avoid stress and damage on the surface.

  According to the method for manufacturing the display device 1 of the present embodiment, after the mooring portion 42 is fixed to the front side F of the cell holding member 30 with the front side F of the cell holding member 30 facing upward, the cell holding member 30 is inverted together with the cell 11 so that the rear side R faces upward, so that the mooring portion 42 is fixed to the front side F of the cell holding member 30 before the cell holding member 30 is inverted. Is possible. Therefore, it is possible to avoid the flexible wiring board 13 from being stressed or damaged before or during inversion.

  In particular, the holding portion 41 and the mooring portion 42 are snap-fit that can be fixed to the cell holding member 30 by being fitted or latched using elasticity as the first fixing portion 44, the second fixing portion 45, and the third fixing portion 46. Since it has the part, it is possible to simplify the fixing and detaching and to improve the working efficiency.

(Modified example of the fixing position of the holding part)
In the above embodiment, the case where the inclined portion 32A is provided outside the rear portion 32 of the cell holding member 30 and the holding portion 41 is fixed to the inclined portion 32A has been described. The position can be appropriately changed as shown in FIG. In that case, it is preferable to appropriately change the shape of the cell holding member 30 according to the fixing position of the holding portion 41. For example, changing the inclination angle of the inclined portion 32A, providing the first receiving portion 32B and the second receiving portion 32C in the extended portion 34, and the like are conceivable. Moreover, it is also possible to hold | maintain the holding | maintenance part 41 in the state which floated hollow.

(Modification 1 of the fixing position of the mooring part)
FIG. 14 illustrates a configuration in which the display device 1 according to the first modification is viewed from the front side F. In this modification, the mooring portion 42 is fixed to the short side of the opening portion 33. The opening 33 may be a rectangular long hole-like notch (see FIG. 4) as described in the above embodiment, but instead, it has a rectangular three-side shape as shown in FIG. It is also possible to make a notch, which is advantageous for narrowing the frame.

  FIG. 15 shows the configuration of the source substrate holding member 40 shown in FIG. As shown in FIG. 15, the holding portion 41 and the mooring portion 42 are connected in an L shape by the connecting portion 43. The connecting portion 43 has a shape bent into an L shape by lengthening the thick portion 43B.

  FIG. 16 illustrates a configuration in which the source substrate holding member 40 is attached to the cell holding member 30 as viewed from the rear side R. In the source substrate holding member 40, the mooring part 42 is fixed to the short side 33 </ b> B of the opening part 33 in the front part 31 of the cell holding member 30. The connecting portion 43 passes through the opening portion 33 toward the rear portion 32 side. The holding part 41 is fixed to the rear part 32 of the cell holding member 30.

  Specifically, in the third fixing portion 46 of the mooring portion 42, the hinge portion 46 </ b> A is fitted in the recess 31 </ b> C provided on the short side 33 </ b> B of the opening portion 33, and the latching claw 46 </ b> B is fitted on the short side 33 </ b> B of the opening portion 33. It is hooked on the provided third receiving portion 31D.

  The holding portion 41 is fixed to the inclined portion 32A of the rear portion 32, as in the above embodiment. Specifically, the latching claw 44B of the first fixing portion 44 is latched to the first receiving portion 32B of the rear portion 32 of the cell holding member 30, and the latching claw of the second fixing portion 45 is the rear portion of the cell holding member 30. It is latched by the 32nd 2nd receiving part 32C (refer FIG. 7).

(Modification example 2 of the fixing position of the mooring part)
FIG. 17 illustrates a configuration in which a part of the display device 1 according to Modification 2 is viewed from the front side F. FIG. In this modification, the space outside the lower side 31B of the front portion 31 of the cell holding member 30 is used as the opening portion 33, and the mooring portion 42 is fixed to the lower side 31B of the front portion 31. As a result, the frame is more advantageous than the first modification.

  FIG. 18 shows a state in which the source substrate holding member 40 shown in FIG. 17 is attached to the cell holding member 30. In FIG. 18, the front exterior member 21 is omitted. In the source substrate holding member 40, the mooring portion 42 is fixed to the lower side 31B of the front portion 31 of the cell holding member 30 at the front portion 31 of the cell holding member 30 (see FIG. 17). The connecting portion 43 passes through the opening portion 33 toward the rear portion 32 side. The holding part 41 is fixed to the rear part 32 of the cell holding member 30. In addition, it is desirable to change suitably the shape of the connection part 43 (The number of thick parts and a joint part, the side of the connection part 43 where a thick part is provided, etc.) as needed.

  Specifically, in the third fixing portion 46 of the mooring portion 42, the hinge portion 46 </ b> A is fitted into the recess 31 </ b> C provided on the lower side 31 </ b> B of the front portion 31, and the latching claw 46 </ b> B is provided on the lower side 31 </ b> B of the front portion 31. The third receiving portion 31D is hooked.

  The holding portion 41 is fixed to the inclined portion 32A of the rear portion 32, as in the above embodiment. Specifically, the latching claw 44B of the first fixing portion 44 is latched to the first receiving portion 32B of the rear portion 32 of the cell holding member 30, and the latching claw of the second fixing portion 45 is the rear portion of the cell holding member 30. 32 is hooked on the second receiving portion 32C.

  The modification 2 can also be applied to the case where the open portion 33 is a rectangular long hole-shaped notch as shown in FIGS. 4 and 7 of the above embodiment. That is, in the case where the opening portion 33 is a rectangular long hole-like notch portion as in the above embodiment, the mooring portion 42 may be fixed to the long side of the opening portion 33 on the side close to the cell 11.

  While the present disclosure has been described with reference to the embodiment, the present disclosure is not limited to the above embodiment, and various modifications can be made. For example, the shapes of the holding portion 41, the mooring portion 42, and the connecting portion 43 described in the above embodiment are not limited, and may be other shapes. For example, the holding portion 41 is not limited to the rectangular frame as in the above-described embodiment, and may be configured to sandwich both sides of the source substrate 12 like a clothespin, for example.

  For example, the material of each component described in the above embodiment is not limited, and may be other materials. For example, in the above embodiment, the case where the holding portion 41, the mooring portion 42, and the connecting portion 43 of the source substrate holding member 40 are formed by integral molding of a resin material has been described. Depending on the shape, the source substrate holding member 40 is not limited to resin, but may be composed of other materials such as metal. Further, the source substrate holding member 40 can be configured by a combination of resin and metal.

  Further, for example, in the above-described embodiment, the case where the display member 10 includes the liquid crystal cell 11 has been described. It is also applicable when equipped. Further, the screen of the cell 11 is not limited to a flat surface, and may be a curved surface.

  In addition, for example, the configuration of the display device 1 (television device) has been specifically described in the above embodiment, but it is not necessary to include all the components, and further include other components. May be.

  The display device according to the present disclosure is applied to electronic devices in various fields such as a monitor, a digital camera, a personal computer, a mobile terminal device such as a mobile phone or a smartphone, or a video camera in addition to the television device described in the above embodiment. It is possible to apply. In other words, the display device of the present disclosure can be applied to electronic devices in various fields that display a video signal input from the outside or a video signal generated inside as an image or a video.

  In particular, a large display device such as a television device or a monitor includes a cell holding member reversal process in the middle of the manufacturing process, and the reversal process requires holding the source substrate and protecting the flexible wiring substrate. The present disclosure is particularly suitable for such a large display device.

In addition, this technique can also take the following structures.
(1)
A display member in which a cell and a source substrate are connected by a flexible wiring substrate;
A cell holding member;
A source substrate holding member, and
The source substrate holding member is
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A display device comprising: the mooring part and a connecting part that connects the holding part.
(2)
The display device according to (1), wherein the holding portion and the mooring portion include a snap-fit portion that can be fixed to the cell holding member by being fitted or latched using elasticity.
(3)
The display device according to (1) or (2), wherein the connecting portion has flexibility.
(4)
The holding part is
A through-hole through which the source substrate can be inserted;
A first portion and a second portion facing in the thickness direction of the source substrate inserted through the through hole;
The second part is a flat part,
The display device according to any one of (1) to (3), wherein the first portion includes a curved portion protruding toward the second portion.
(5)
The curved portion is provided in a part of the first portion in the width direction,
The display device according to (4), wherein the remaining portion in the width direction of the first portion is a flat portion.
(6)
The display device according to (5), wherein a rib protruding in a direction opposite to the bending portion is provided at a boundary line between the bending portion and the flat portion in the first portion.
(7)
The curved portion suppresses displacement in the thickness direction of the source substrate inserted through the through hole, and allows displacement in the insertion direction of the source substrate into the through hole. The display device according to claim 1.
(8)
The cell holding member is
A front part on which the cell is placed;
A rear portion covering the rear surface of the cell placed on the front portion;
An open portion through which the source substrate and the flexible substrate can pass,
In the source substrate holding member, the mooring portion is fixed to the front portion, the connecting portion passes through the opening portion to the rear portion side, and the holding portion holds the source substrate and is fixed to the rear portion. The display device according to any one of (1) to (7).
(9)
The open portion is a cutout portion that is provided along the side of the front portion and is long in one direction;
The mooring part is fixed to the long side of the opening part,
The said holding | maintenance part and the said mooring part are connected to the linear form by the said connection part. The display apparatus of the said (8) description.
(10)
The open part is a space outside the side of the front part,
The mooring part is fixed to the front side,
The said holding | maintenance part and the said mooring part are connected to the linear form by the said connection part. The display apparatus of the said (8) description.
(11)
The open portion is a cutout portion that is provided along the side of the front portion and is long in one direction;
The mooring part is fixed to the short side of the opening part,
The display device according to (8), wherein the holding portion and the mooring portion are connected in an L shape by the connecting portion.
(12)
The display device according to any one of (1) to (11), wherein the source substrate holding member is disposed at both longitudinal ends of the source substrate.
(13)
A display member comprising a display member in which a cell and a source substrate are connected by a flexible wiring substrate, a cell holding member, and a source substrate holding member.
The source substrate holding member is
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A connecting portion connecting the mooring portion and the holding portion;
The manufacturing method includes:
Holding the source substrate of the display member by the holding unit;
With the second side of the cell holding member facing upward, the cell is placed on the second side of the cell holding member, and the anchoring portion is fixed to the second side of the cell holding member. And a process of
A method of manufacturing the display device, comprising: inverting the cell holding member together with the cell, directing the first side upward, and fixing the holding portion to the first side of the cell holding member.
(14)
A source substrate holding member used in a display device including a display member having a cell and a source substrate connected by a flexible wiring board, and a cell holding member,
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A source substrate holding member comprising: the mooring part and a connecting part that connects the holding part.

  DESCRIPTION OF SYMBOLS 1 ... Display apparatus, 2 ... Main-body part, 3 ... Stand, 10 ... Display member, 11 ... Cell, 12 ... Source substrate, 13 ... Flexible wiring board, 21 ... Front exterior member (bezel), 22 ... Cover member, 23 Intermediate housing (middle chassis) 24 Optical sheet 25 Reflecting sheet 26 Illuminating member 30 Cell holding member (rear cover and back chassis) 31 Front part 32 Rear part 33 Open part 34 ... Extension part, 40 ... Source substrate holding member, 41 ... Holding part, 42 ... Mooring part, 43 ... Connecting part, 44 ... First fixing part, 45 ... Second fixing part, 46 ... Third fixing part.

Claims (14)

A display member in which a cell and a source substrate are connected by a flexible wiring substrate;
A cell holding member;
A source substrate holding member, and
The source substrate holding member is
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A display device comprising: the mooring part and a connecting part that connects the holding part. The display device according to claim 1, wherein the holding portion and the anchoring portion have a snap-fit portion that can be fixed to the cell holding member by being fitted or latched using elasticity. The display device according to claim 1, wherein the connecting portion has flexibility. The holding part is
A through-hole through which the source substrate can be inserted;
A first portion and a second portion facing in the thickness direction of the source substrate inserted through the through hole;
The second part is a flat part,
The display device according to claim 1, wherein the first portion has a curved portion protruding toward the second portion. The curved portion is provided in a part of the first portion in the width direction,
The display device according to claim 4, wherein a remaining portion in the width direction of the first portion is a flat portion. The display device according to claim 5, wherein a rib protruding in a direction opposite to the bending portion is provided at a boundary line between the bending portion and the flat portion in the first portion. The display device according to claim 4, wherein the curved portion suppresses displacement in a thickness direction of the source substrate inserted through the through hole and allows displacement in the insertion direction of the source substrate into the through hole. The cell holding member is
A front part on which the cell is placed;
A rear portion covering the rear surface of the cell placed on the front portion;
An open portion through which the source substrate and the flexible substrate can pass,
In the source substrate holding member, the mooring portion is fixed to the front portion, the connecting portion passes through the opening portion to the rear portion side, and the holding portion holds the source substrate and is fixed to the rear portion. The display device according to claim 1. The open portion is a cutout portion that is provided along the side of the front portion and is long in one direction;
The mooring part is fixed to the long side of the opening part,
The display device according to claim 8, wherein the holding unit and the mooring unit are linearly connected by the connecting unit. The open part is a space outside the side of the front part,
The mooring part is fixed to the front side,
The display device according to claim 8, wherein the holding unit and the mooring unit are linearly connected by the connecting unit. The open portion is a cutout portion that is provided along the side of the front portion and is long in one direction;
The mooring part is fixed to the short side of the opening part,
The display device according to claim 8, wherein the holding portion and the mooring portion are connected in an L shape by the connecting portion. The display device according to claim 1, wherein the source substrate holding member is disposed at both longitudinal ends of the source substrate. A display member comprising a display member in which a cell and a source substrate are connected by a flexible wiring substrate, a cell holding member, and a source substrate holding member.
The source substrate holding member is
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A connecting portion connecting the mooring portion and the holding portion;
The manufacturing method includes:
Holding the source substrate of the display member by the holding unit;
With the second side of the cell holding member facing upward, the cell is placed on the second side of the cell holding member, and the anchoring portion is fixed to the second side of the cell holding member. And a process of
A method of manufacturing the display device, comprising: inverting the cell holding member together with the cell, directing the first side upward, and fixing the holding portion to the first side of the cell holding member. A source substrate holding member used in a display device including a display member having a cell and a source substrate connected by a flexible wiring board, and a cell holding member,
A holding part that holds the source substrate and can be fixed to the first side of the cell holding member;
A mooring portion that is fixable to a second side opposite to the first side of the cell holding member;
A source substrate holding member comprising: the mooring part and a connecting part that connects the holding part.

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