JP4342881B2 - Flat display device and planar light source device - Google Patents

Description

  The present invention relates to a planar light source device and a flat display device that irradiates a display area of a flat display panel with planar light from the planar light source device.

  In recent years, a liquid crystal display device as a flat display device of this type has been mainly used as an image display unit of a notebook personal computer (PC), and has been used in various fields by taking advantage of its thin and lightweight features. ing. The liquid crystal display device includes a rectangular flat liquid crystal panel as a flat display panel in which a display screen area as a display area for displaying an image is formed at the center. The liquid crystal panel is disposed and attached in a rectangular frame bezel with the display area of the liquid crystal panel exposed.

  Further, a backlight as a surface light source device that irradiates the display screen area of the liquid crystal panel with planar light is attached to the back side of the liquid crystal panel. The liquid crystal panel and the backlight are held by the frame in a state of being opposed to each other in parallel. The liquid crystal panel and the frame holding the backlight are exposed in the bezel while exposing the display screen area of the liquid crystal panel. Is housed and attached.

  The backlight includes a cold cathode tube which is a discharge lamp as an elongated cylindrical linear light source, and a linear shape from the cold cathode tube is provided with one side facing the cold cathode tube. A rectangular plate-shaped prism light guide that refracts light into a planar light source and converts it into a planar light source is attached. The prism light guide is formed of a light-transmitting resin or the like, and a prism is formed on the back side which is the other main surface of the prism light guide.

  The cold cathode tube is a sheet-shaped lamp reflector that is curved in a substantially U shape as a reflector that reflects light from the cold cathode tube and irradiates one side of the prism light guide along the circumferential direction. Covered. The both end portions of the lamp reflector are attached to the front and back surfaces of one side of the prism light guide. Here, on the surface of the prism light guide, a rectangular sheet-like optical sheet for making the brightness unevenness of the prism light guide uniform and improving the brightness is attached. In addition, a rectangular sheet-like reflective sheet is attached to the back surface of the prism light guide as an optical sheet that reflects light emitted from the back surface of the prism light guide toward the surface of the prism light guide. (For example, refer to Patent Document 1).

In general, this reflection sheet is fixed to the frame on the reverse side of the cold-cathode tube in the backlight by being affixed to the frame with a double-sided tape, and on the back surface of the prism light guide. In contrast, it is fixed with double-sided tape. Further, the reflective sheet is fixed to the frame by attaching a single-sided tape across the frame and the reflective sheet from the back side of the frame.
JP 2002-270024 A (page 3-5, FIG. 3 and FIG. 4)

  However, in the above-described liquid crystal display device, the adhesive of the double-sided tape and the single-sided tape in which the reflection sheet is fixed to the prism light guide of the frame or the backlight may become soft due to a temperature rise during use. . For this reason, when the adhesive of these double-sided tapes and single-sided tapes becomes soft, the reflective sheet will shift and move to the lamp side, which is the cold cathode tube side of the backlight. As a result, the double-sided tape that fixes the reflective sheet to the prism light guide of the backlight may be seen through the display screen area of the liquid crystal panel.

  In addition, double-sided tape is attached to the overlapping positions of the front and back surfaces of the reflection sheet, and the reflection sheet is fixed between the prism light guide of the backlight and the frame. For this reason, since it will be in the state where the double-sided tape was affixed with respect to this reflective sheet, it has the problem that a liquid crystal display device will become thick.

  SUMMARY An advantage of some aspects of the invention is that it provides a flat display device and a planar light source device that can be made thinner while preventing movement of an optical sheet.

The present invention relates to a flat display panel having a display area, a planar light source device that is mounted to face the flat display panel and irradiates the display area of the flat display panel with planar light, and the planar light source. The planar light source device includes a tubular light source, a light guide disposed with one end facing the tubular light source, and a side of the light guide opposite to the flat display panel And a sheet-like optical sheet held by the frame without being fixed to the light guide, and on the opposite side of the optical sheet from the light guide, the optical sheet with respect to the light guide It has a fixed sheet that restricts movement in the plane direction, and a support piece formed integrally with the frame has a function of a stopper for the fixed sheet .

And the planar light source device which irradiates planar light to the display area of a flat display panel is attached facing a flat display panel. The planar light source device is held by a frame. At this time, the light guide is arranged with one end facing the tubular light source of the planar light source device, and the sheet-like optical sheet is not fixed to the light guide on the side opposite to the flat display panel of the light guide. Is held on the frame . Further, the fixed sheet on the side opposite to the light guide of the optical sheet regulates the movement of the optical sheet in the planar direction with respect to the light guide. Further, the support piece formed integrally with the frame has a function of a stopper for the fixed sheet . Therefore, the movement of the optical sheet in the planar direction with respect to the light guide and the frame can be prevented by the fixed sheet and the support piece. Therefore, it is not necessary to attach the optical sheet to each of the light guide and the frame with a double-sided tape, and the thickness between the light guide, the optical sheet, and the frame can be further reduced.

The present invention also provides a tubular light source, a light guide disposed with one end facing the tubular light source, a sheet-like optical sheet disposed on the opposite side of the light emitting surface of the light guide, A light guide and a frame for holding the optical sheet, the optical sheet being held by the frame without being fixed to the light guide, and on the opposite side of the optical sheet from the light guide. It has a fixed sheet which controls the movement of the optical sheet in the planar direction with respect to the light guide, and the support piece formed integrally with the frame has a function of a stopper for the fixed sheet .

Then, a sheet-like optical sheet is disposed on the side opposite to the light emitting surface of the light guide disposed with one end facing the tubular light source. The light guide and the optical sheet are held by a frame. At this time, the optical sheet is held on the frame without being fixed to the light guide. Furthermore, the fixed sheet on the side opposite to the light guide of the optical sheet regulates the movement of the optical sheet in the planar direction with respect to the light guide. Further, the support piece formed integrally with the frame has a function of a stopper for the fixed sheet . As a result, the movement of the optical sheet in the planar direction relative to the light guide and the frame can be prevented by the fixed sheet and the support piece. Therefore, it is not necessary to attach the optical sheet to each of the light guide and the frame with a double-sided tape, and the thickness between the light guide, the optical sheet, and the frame can be further reduced.

  According to the present invention, since the support piece of the frame restricts the movement of the optical sheet relative to the planar light source device, it is not necessary to attach the optical sheet to the planar light source device and the frame with a double-sided tape. The thickness between the light source device, the optical sheet and the frame can be made thinner.

  Further, since the support piece portion of the frame regulates the movement of the optical sheet with respect to the light guide, it is not necessary to attach the optical sheet to each of the light guide and the frame with a double-sided tape. The thickness between the optical sheet and the frame can be made thinner.

  Hereinafter, a configuration of an embodiment of a planar light source device and a flat display device of the present invention will be described with reference to FIG.

  In FIG. 1, reference numeral 1 denotes a transmissive liquid crystal display device as a flat display device. The liquid crystal display device 1 is relatively large and thin with a narrow frame and excellent portability. The liquid crystal display device 1 includes a substantially rectangular flat liquid crystal display panel 2 as a transmissive flat display panel mainly used as an image display unit of a notebook personal computer (PC). The liquid crystal display panel 2 is, for example, a diagonal 12 type, and uses a light modulation layer as a liquid crystal layer. Further, a rectangular display screen area 3 as a display area for displaying an image is formed at the center of the liquid crystal display panel 2. In the display screen area 3, a plurality of display pixels (not shown) are arranged in a matrix.

  In addition, the liquid crystal display panel 2 includes an array substrate 4 in which thin film transistors (TFTs) (not shown) are provided in a matrix on the surface that is one main surface. A counter substrate 5 having a counter electrode (not shown) formed on the back surface is disposed opposite to the front surface of the array substrate 4. The upper end, which is one side in the height direction of the counter substrate 5, is located inside the upper end of the array substrate 4. The height direction of the counter substrate 5 is the vertical direction when the left side in FIG. 1 is the top and the right side is the bottom. Further, a liquid crystal layer (not shown) is interposed between the array substrate 4 and the counter substrate 5 and sealed to constitute the liquid crystal display panel 2.

  Then, on the surface side of the upper end portion of the array substrate 4 which is one side edge in the height direction of the liquid crystal display panel 2, an elongated rectangular flat plate driver circuit 6 serving as a circuit board is a flexible elongated rectangular flat plate-like print. A wiring board (Flexible Print Circuit: FPC) 7 is attached. Here, the driver circuit 6 is electrically connected to the liquid crystal display panel 2 and supplies a drive signal to drive the liquid crystal display panel 2 and display an image on the display screen area 3 of the liquid crystal display panel 2. .

  Further, polarizing plates 8a and 8b are disposed on the front and back surfaces of the liquid crystal display panel 2, respectively.

  Further, a bezel 11 having a rectangular frame shape is attached to the surface side which is one main surface of the liquid crystal display panel 2. The bezel 11 includes a rectangular frame-shaped main body portion 13 having a rectangular window portion 12 that exposes the display screen area 3 of the liquid crystal display panel 2 and has an opening formed in the center portion. The window portion 12 of the main body portion 13 is formed in a shape corresponding to the display screen area 3 of the liquid crystal display panel 2. Further, when the liquid crystal display panel 2 is accommodated on the back side of the main body 13, the outer peripheral edge 14 covering the edge of the liquid crystal display panel 2 protrudes vertically on the outer peripheral edge of the main body 13. It is provided integrally in a state.

  On the other hand, on the back side of the liquid crystal display panel 2, a backlight 21 as a rectangular plate-like planar light source device for allowing planar light to enter the display screen area 3 of the liquid crystal display panel 2 is attached to be opposed. ing. The backlight 21 is housed inside the outer peripheral edge portion 14 of the bezel 11 together with the liquid crystal display panel 2 with the front surface, which is one main surface of the backlight 21, facing the back surface of the liquid crystal display panel 2. ing. The driver circuit 6 attached to the liquid crystal display panel 2 has the printed wiring board 7 placed on the back side of the backlight 21 with the front side of the backlight 21 facing the back side of the liquid crystal display panel 2. By being curved, the backlight 21 is disposed on the back side.

  Further, the backlight 21 includes a cold cathode tube 22 as a discharge lamp, which is an elongated cylindrical tubular light source. A lamp holder 23 formed of elastic rubber or the like is fitted and attached to both ends of the cold cathode tube 22 in the longitudinal direction. Further, one end of a cable 24 is connected to each end of the cold cathode tube 22, and a housing (not shown) as a connector is attached to the other end of each cable 24.

  In addition, a prism light guide that is a planar light source conversion body having a substantially rectangular plate shape, with a light incident surface 25 that is one end on the lamp side that is one side facing the outer peripheral surface of the cold cathode tube 22 in parallel. A body 26 is arranged and arranged. The prism light guide 26 is formed of a light-transmitting resin or the like, and a prism (not shown) is integrally formed on the back surface 27 which is a non-light emitting surface as the other main surface of the prism light guide 26. Has been. In the prism light guide 26, linear light from the cold cathode tube 22 is incident through the light incident surface 25, and the linear light is light that is one main surface of the prism light guide 26. The light is refracted in a planar shape toward the surface 28 side as an emission surface and converted into a planar light source, and the display screen area 3 of the liquid crystal display panel 2 is irradiated with the planar light.

  Further, the prism light guide 26 uniformly refracts and reflects light incident from the light incident surface 25 of the prism light guide 26 to the surface 28 of the prism light guide 26 and In order to secure an accommodation space for the driver circuit 6 on the back surface 27 side from the non-light incident surface 29 on the opposite side of the body 26 which is the other side of the body 26, the light incident surface 25 side is directed toward the non-light incident surface 29 side. It is gradually thinned in parallel along the height direction.

  A condensing sheet 31, which is a substantially rectangular sheet-like optical sheet that covers the surface 28 of the prism light guide 26, is attached to the surface 28 of the prism light guide 26. The condensing sheet 31 condenses the planar light emitted from the surface 28 of the prism light guide 26. Further, a diffusion sheet 32, which is a substantially rectangular optical sheet covering the surface of the condensing sheet 31, is attached to the surface of the condensing sheet 31. The diffusion sheet 32 diffuses the light irradiated from the surface 28 of the prism light guide 26 and collected by the light collection sheet 31, and the surface of the surface 28 of the prism light guide 26 together with the light collection sheet 31. Uniform internal brightness and improve brightness.

  A reflection sheet 33, which is a rectangular sheet-like optical sheet, is attached to the back surface 27 of the prism light guide 26. The reflection sheet 33 is attached along the back surface 27 of the prism light guide 26, and is not adhered and fixed to the back surface of the prism light guide 26. In other words, the reflection sheet 33 is disposed on the opposite side of the prism light guide 26 from the liquid crystal display panel 2. In addition, the reflection sheet 33 directs light irradiated from the inside of the prism light guide 26 to the outside via the back surface 27 of the prism light guide 26 toward the surface 28 side of the prism light guide 26. To reflect.

  Further, on the back side opposite to the prism light guide 26 of the reflection sheet 33, an elongated rectangular sheet shape as a movement restricting portion for fixing the reflection sheet 33 in the height direction of the prism light guide 26. The fixing sheet 34 is affixed and fixed. The fixing sheet 34 is attached in a state where the longitudinal direction is along the width direction of the reflection sheet 33. In other words, the fixed sheet 34 is disposed on the opposite side of the reflecting sheet 33 from the prism light guide 26. The fixed sheet 34 abuts on a support piece 47 formed integrally with the frame 41, thereby restricting the movement of the reflective sheet 33 in the height direction with respect to the prism light guide 26. That is, the support piece portion 47 has a stopper function for the fixed sheet 34.

  On the other hand, the cold cathode tube 22 disposed to face the light incident surface 25 of the prism light guide 26 is circumferentially covered by a lamp reflector 35 as a sheet-like reflector curved in a substantially U-shape. Covered. The lamp reflector 35 reflects the light from the cold cathode tube 22 on the inner surface, and efficiently causes the reflected light to enter the light incident surface 25 of the prism light guide 26.

  Further, the upper end portion 36 which is one side portion in the height direction of the lamp reflector 35 is sandwiched between the surface 28 on the light incident surface 25 side of the prism light guide 26 and the diffusion sheet 32, and these prism guides are disposed. The light guide 26 is positioned more than the light incident surface 25 of the prism light guide 26 than one side edge of the light collecting sheet 31 positioned between the light body 26 and the diffusion sheet 32. The lower end 37, which is the other side in the height direction of the lamp reflector 35, projects from the upper end 36 of the lamp reflector 35 toward the non-light incident surface 29 side of the prism light guide 26. Further, the lower end portion 37 of the lamp reflector 35 covers the lower end side that is one side portion in the height direction of the surface of the reflection sheet 33.

  The light guide sheet 31 and the diffusion sheet 32 are attached to the front surface 28, the reflection sheet 33 is attached to the back surface 27, and the cold light guide tube 26 and the lamp reflector 35 are attached to the light incident surface 25 side. Are accommodated and held on the surface side which is one main surface of the substantially rectangular flat frame 41. The frame 41 holds the prism light guide 26, the cold cathode tube 22, and the reflection sheet 33 of the backlight 21, while the prism light guide 26, the cold cathode tube 22, and the reflection sheet 33 are respectively connected to the liquid crystal display panel 2. Attach to the back side.

  In other words, the frame 41 holds and fixes the prism light guide 26, the cold cathode tube 22, and the reflection sheet 33 on the opposite side of the liquid crystal display panel 2 in the bezel 11. The frame 41 is made of a synthetic resin such as plastic, and includes a main body 42 having a rectangular frame shape. The front surface side of the main body 42 abuts against the back surface side of the liquid crystal display panel 2 and is accommodated in the bezel 11 together with the liquid crystal display panel 2.

  Further, the non-light incident surface 29 side of the prism light guide 26 is fitted and held on the non-light incident surface 29 side of the prism light guide 26 of the backlight 21 which is one end of the main body 42. A stepped fitting step 43 is provided. Here, on the base end side of the bottom surface portion 44 facing the front surface side of the frame 41 in the fitting step portion 43, a tape body in the form of an elongated tape is formed along the width direction that is the longitudinal direction of the bottom surface portion 44. Double-sided tape 45 is affixed. Then, the double-sided tape 45 is attached to the back surface of the backlight 21 on the non-light incident surface 29 side of the prism light guide 26 in a state where the backlight 21 is fitted to the frame 41 and held, The non-light incident surface 29 side of the prism light guide 26 is attached to the upper end side in the height direction of the frame 41 and fixed.

  Then, on the base end side of the bottom surface portion 44 of the fitting step portion 43 of the frame 41, when the backlight 21 is fitted and held on the frame 41, the back surface of the prism light guide 26 of the backlight 21 An abutting step portion 46 is provided in which the edge portion on the upper end side of the reflecting sheet 33 disposed on the abutting portion is abutted and held. The contact step portion 46 is provided along the width direction of the frame 41 and restricts the movement of the reflection sheet 33 toward the upper end side in the height direction.

  Further, an elongated flat plate-like support piece portion 47 that supports the prism light guide 26 of the backlight 21 is integrally provided on the lower end side that is the other end side in the height direction of the frame 41. The support piece portion 47 has a longitudinal direction along the width direction of the frame 41. On the lower end side of the surface of the support piece portion 47, the lamp of the backlight 21 supported by the support piece portion 47 is provided. A holding step portion 48 that is held in contact with the lower end portion of the reflector 35 is formed along the longitudinal direction. Therefore, the support piece 47 is positioned closer to the cold cathode tube 22 than the fixed sheet 34 when the backlight 21 is fitted and held on the surface side of the frame 41, and the reflection sheet of the backlight 21 33 and the lower end portion 37 of the lamp reflector 35 are covered and the reflection sheet 33 and the lower end portion 37 of the lamp reflector 35 are supported.

  Further, on the upper side surface as one side surface in the height direction of the support piece portion 47, a contact surface 49 that contacts the side surface on the lower end side in the height direction of the fixed sheet 34 attached to the back surface side of the reflection sheet 33. Is provided. The contact surface 49 protrudes toward the side surface on the lower end side of the fixed sheet 34 and contacts the side surface on the lower end side of the fixed sheet 34. The contact surface 49 positions and fixes the position of the reflection sheet 33 in the height direction. That is, the support piece 47 regulates the movement of the reflection sheet 33 in the height direction with respect to the prism light guide 26 and the frame 41 by contact with the fixed sheet 34, so that the reflection sheet 33 is in an impact state. Prevents displacement and movement that can occur when the temperature rises. The reflection sheet 33 is not fixed to either the contact step portion 46 or the support piece portion 47 of the frame 41 by, for example, a double-sided tape. At the same time, the reflection sheet 33 is not fixed to the back surface side of the prism light guide 26 of the backlight 21 by, for example, a double-sided tape.

  Next, the operation of the above embodiment will be described.

  First, electric energy is supplied from the housing to the cold cathode tube 22 via the cable 24 to cause the cold cathode tube 22 to emit light.

  Then, the linear light emitted from the cold cathode tube 22 is reflected directly or on the inner surface of the lamp reflector 35 covering the cold cathode tube 22, and enters the light incident surface 25 of the prism light guide 26. Incident.

  The light incident on the light incident surface 25 of the prism light guide 26 is reflected by the prism formed on the back surface 27 of the prism light guide 26 and the reflection sheet 33 attached to the back surface 27 side. The light is converted into a planar shape toward the surface 28 side of the prism light guide 26 and emitted from the surface 28 of the prism light guide 26.

  Thereafter, the planar light emitted from the surface 28 of the prism light guide 26 passes through the condensing sheet 31 and is collected by the condensing sheet 31, and then through the diffusion sheet 32. The light is diffused by the diffusion sheet 32, and the in-plane luminance of the surface 28 of the prism light guide 26 is made uniform and the luminance is improved by the light collecting sheet 31 and the diffusion sheet 32.

  Further, the planar light transmitted through the light collecting sheet 31 and the diffusion sheet 32 is irradiated to the display screen area 3 of the liquid crystal display panel 2.

  And the light irradiated to the display screen area 3 of this liquid crystal display panel 2 selectively permeate | transmits the display screen area 3 of this liquid crystal display panel 2, and enters into a user's eyes, The display of this liquid crystal display panel 2 The image displayed in the screen area 3 is visually recognized by the user.

As described above, according to the embodiment, the support provided on the lower end side of the frame 41 when the reflecting sheet 33 is fitted into the main body portion 42 of the frame 41 together with the prism light guide 26. as the lower end of the side surface of the fixed side of the upper side sheet 34 of the strip part 47 serves as a stopper in contact with and attach the fixing sheet 34 on the back surface side of the reflection sheet 33.

  As a result, the reflective sheet 33 is fixed to the back surface 27 of the prism light guide 26 with a double-sided adhesive tape or the like, or the reflective sheet 33 is fixed to the contact step 46 or the support piece of the frame 41. The flat sheet direction with respect to the prism light guide 26 and the frame 41 by the reflection sheet 33 is achieved by the contact of the support piece portion 47 by the fixing sheet 34 without being attached and fixed to the 47 with a double-sided tape or the like. The movement to the lower end side along is controlled.

  Accordingly, the reflection sheet 33 can be reliably prevented from moving to the lower end side with respect to the prism light guide 26 and the frame 41 with a simple configuration, and the upper end side of the reflection sheet 33 can be guided by a double-sided tape or a single-sided tape. It is possible to eliminate the need to affix and fix the body 26 and the frame 41.

  For this reason, since the prism light guide 26 only needs to be fixed to the fitting step portion 43 of the frame 41 with the double-sided tape 45, the double-sided tape 45 can be integrated. 26, the thickness between the reflection sheet 33 and the frame 41 can be made thinner. Therefore, even the relatively large liquid crystal display device 1 with a narrow frame can be thinned with excellent portability with a simple configuration and can be improved in quality. At this time, in particular, since the thickness of the upper end side of the frame 41 becomes thinner, it is possible to secure a space for accommodating the driver circuit 6 and the like on the back side of the upper end side of the frame 41.

  At the same time, it is no longer necessary to attach the upper end of the reflection sheet 33 to the contact step 46 of the frame 41 with a double-sided tape or the like. When the two-sided tape is peeled off from the frame 41 and moved to the display screen area 3 of the liquid crystal display panel 2 when the two-sided tape is adhered and fixed to the display screen area 3, the double-sided tape appears in the display screen area 3. It can be reliably prevented with a simple configuration.

  Furthermore, even if the amount of overlap of the upper end portion of the reflection sheet 33 with respect to the contact step portion 46 of the frame 41 is reduced, it is possible to reliably prevent the reflection sheet 33 from coming off from the contact step portion 46 of the frame 41. Since the frame 41 can be made thinner, the liquid crystal display device 1 can be made thinner.

  In addition, since the upper end edge of the prism light guide 26 of the backlight 21 is fitted and held on the base end side of the fitting step portion 43 of the frame 41, the front end side of the fitting step portion 43 of the frame 41 is held. Compared with the case where the upper end edge of the prism light guide 26 is fitted and held, the stress on the frame 41 caused by holding the prism light guide 26 on the frame 41 can be reduced.

  In the above-described embodiment, the liquid crystal display device 1 in which the light modulation layer is a liquid crystal layer has been described. However, even a flat display device other than the liquid crystal display device 1 can be used correspondingly.

It is explanatory sectional drawing which shows one Embodiment of the flat display apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Liquid crystal display device as a flat display device 2 Liquid crystal display panel as a flat display panel 3 Display screen area as a display area
21 Backlight as a planar light source device
22 Cold cathode tube as a tubular light source
26 Prism light guide as light guide
33 Reflective sheet as an optical sheet
34 fixed seat
41 frames
45 Double-sided tape as tape
47 Support piece

Claims (4)

A flat display panel with a display area;
A planar light source device that is attached to face the flat display panel and irradiates the display area of the flat display panel with planar light,
A frame for holding the surface light source device;
The planar light source device includes a tubular light source, a light guide disposed so as to face one end of the tubular light source, and the light guide disposed on the opposite side of the flat display panel and fixed to the light guide. Without a sheet-like optical sheet held in the frame ,
On the opposite side of the optical sheet from the light guide, there is a fixed sheet that restricts the movement of the optical sheet in the planar direction relative to the light guide,
A flat display device, wherein a support piece formed integrally with the frame has a function of a stopper for the fixed sheet . The flat display device according to claim 1, wherein the support piece is positioned closer to the tubular light source than the fixed sheet . The flat display device according to claim 1, further comprising a tape body that fixes the light guide to the frame . A tubular light source;
A light guide disposed with one end facing the tubular light source;
A sheet-like optical sheet disposed on the side opposite to the light exit surface of the light guide;
A frame for holding the light guide and the optical sheet;
The optical sheet is held on the frame without being fixed to the light guide,
On the opposite side of the optical sheet from the light guide, there is a fixed sheet that restricts movement of the optical sheet in the planar direction relative to the light guide,
A planar light source device, wherein a support piece formed integrally with the frame functions as a stopper for the fixed sheet .

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