Abstract:
An illumination device capable of suppressing the generation of uneven luminescence is provided. The illumination device comprises: an LED package ( 25 ); a reflective sheet ( 23 ) with an exposure hole ( 23   c ) for exposing the LED package ( 25 ); and a pressing member ( 27 ) for pressing down the reflective sheet ( 23 ). The pressing member ( 27 ) has a sheet pressing section ( 27   a ) arranged so to surround the circumference of the LED package ( 25 ), and an edge section ( 23   d ) of the exposure hole ( 23   c ) is pressed down by the sheet pressing section ( 27   a ).

Description:
TECHNICAL FIELD  
       [0001]    The present invention relates to an illumination device and a display device. 
       BACKGROUND ART  
       [0002]    In a liquid crystal display device that is one of display devices, a liquid crystal display panel for displaying an image is not light emissive, accordingly, an illumination device is disposed on a rear side (side opposite to a display side of the liquid crystal display panel) of the liquid crystal display panel and the liquid crystal display panel is illuminated with light from the illumination device. Meanwhile, the illumination device disposed on the rear side of the liquid crystal display panel is called a backlight unit or the like, for example. 
         [0003]    As a light source used in a backlight unit, a cold-cathode fluorescent lamp, in which mercury or xenon is sealed in a fluorescent tube, is known. However, in a case where the cold-cathode fluorescent lamp is used as a light source of a backlight unit, the light emission brightness and life are insufficient, further, there is a disadvantage that the brightness on a low voltage side declines and it becomes hard to obtain well-balanced light emission. 
         [0004]    Accordingly, to solve these disadvantages, a backlight unit is proposed, which instead of the cold-cathode fluorescent lamp, uses an LED (light emitting diode) package as a light source. When an LED package is used as a light source of a backlight unit, the above disadvantages are solved, low power consumption is easily achievable and an environmental load is reducible. 
         [0005]    Besides, backlight units are roughly classified into two types of an edge light type and a direct type. 
         [0006]    In the edge light type of backlight unit, a light guide plate is disposed right under a liquid crystal display panel (region opposing a rear surface of the liquid crystal display panel) and a light source is disposed to oppose a predetermined side end surface of the light guide plate. In the edge light type of backlight unit, when light is emitted from the light source, the light from the light source is introduced into the light guide plate via the predetermined side end surface. And, the light introduced into the light guide plate is output from a front surface (surface faced to the liquid crystal display panel) of the light guide plate, whereby the liquid crystal display panel is illuminated. 
         [0007]    On the other hand, in the direct type of backlight unit, a light source is disposed right under a liquid crystal display panel. Such direct type of backlight unit is advantageous to illuminate a large area with a high output and is often used in a large-sized liquid crystal display device. 
         [0008]    Meanwhile, in the direct type of backlight unit that uses an LED package as the light source, to efficiently cast light emitted from the LED package onto the liquid crystal display panel, a reflection sheet is generally used (e.g., see a patent document 1). 
         [0009]    As an example, as shown in  FIG. 13 , usually, an LED package  101  is mounted on a mount surface of a board  102 , accordingly, a reflection sheet  103  is disposed on the mount surface of the board  102 . And, to prevent the LED package  101  from being covered by the reflection sheet  103 , the reflection sheet  103  is provided with an exposure hole  103   a , and the LED package  101  is exposed (protruded) from the exposure hole  103   a  of the reflection sheet  103 . 
       CITATION LIST  
     Patent Literature 
       [0010]    PLT1: JP-A-2005-352427 
       SUMMARY OF INVENTION  
     Technical Problem 
       [0011]    However, when the reflection sheet  103  is disposed to cover the mount surface of the board  102  and the LED package  101  is exposed from the exposure hole  103   a  of the reflection sheet  103 , as shown in  FIG. 14 , there is a case where an edge portion  103   b  of the exposure hole  103   a  of the reflection sheet  103  warps up and rises. And, when the edge portion  103   b  of the exposure hole  103   a  of the reflection sheet  103  warps up, the light reflection by the reflection sheet  103  is not well performed in a surrounding region of the LED package  101 . As a result of this, the brightness of a region corresponding to the surrounding region of the LED package  101  declines, and brightness unevenness occurs. 
         [0012]    The present invention has been made to solve the above problems, and it is an object of the present invention to provide an illumination device and a display device that are able to alleviate occurrence of the brightness unevenness. 
       Solution to Problem 
       [0013]    To achieve the above object, an illumination device according to a first aspect of the present invention includes: a light source; a reflection sheet that is provided with an exposure hole for exposing the light source; and a press member that presses down the reflection sheet. And, the press member includes a sheet press portion that is disposed to surround a circumference of the light source, and an edge portion of the exposure hole of the reflection sheet is pressed down by the sheet press portion. 
         [0014]    In the illumination device according to the first aspect, as described above, the press member is provided with the sheet press portion that is disposed to surround the circumference of the light source and the edge portion of the exposure hole of the reflection sheet is pressed down by the sheet press portion, whereby it is possible to make small or remove the warp (rise) of the edge portion of the exposure hole of the reflection sheet. Because of this, the light reflection by the reflection sheet is well performed in the surrounding region of the light source. As a result of this, it becomes possible to alleviate the occurrence of the disadvantage that the brightness unevenness occurs because of a decline of the brightness of a region that corresponds to the surrounding region of the light source. 
         [0015]    In the illumination device according to the first aspect, it is preferable that the sheet press portion is composed of an annular body capable of surrounding an entire circumference of the light source. According to this structure, it is possible to press down the entire circumference of the edge portion of the exposure hole of the reflection sheet, accordingly, the occurrence of the warp at the edge portion of the exposure hole of the reflection sheet is more alleviated. 
         [0016]    In the illumination device according to the first aspect, it is preferable that the sheet press portion is formed into a shape along a shape of the edge portion of the exposure hole of the reflection sheet. According to this structure, it is possible to surely press down a portion (i.e., the edge portion of the exposure hole of the reflection sheet) which is a part of the entire reflection sheet and where the warp is prone to occur. Meanwhile, for example, in a case where an opening shape of the exposure hole of the reflection sheet is a circular shape, the shape of the edge portion of the exposure hole of the reflection sheet becomes an annular shape, accordingly, it is preferable that the shape of the sheet press portion also is formed into a circular shape. Besides, in a case where the shape of the opening shape of the exposure hole of the reflection sheet is a quadrangular shape, the shape of the edge portion of the exposure hole of the reflection sheet becomes a quadrangular shape, accordingly, it is preferable that the shape of the sheet press portion also is formed into a quadrangular shape. 
         [0017]    In the illumination device according to the first aspect, it is preferable that the illumination device further includes a housing that has a bottom portion on a bottom surface of which the reflection sheet is placed; the press member further includes a mount portion that is mounted on the bottom portion of the housing; and the sheet press portion and the mount portion are connected to each other via a connection portion that extends in a direction parallel to the bottom surface of the bottom portion of the housing. According to this structure, by mounting the mount portion on the bottom portion of the housing, it is possible to fix the press member to the bottom portion of the housing. 
         [0018]    Besides, the sheet press portion and the mount portion are connected to each other via the connection portion that extends in the direction parallel to the bottom surface of the bottom portion of the housing, accordingly, the mount portion is away from the sheet press portion by a length of the connection portion in the direction parallel to the bottom surface of the bottom portion of the housing. Because of this, a region (region around which the light source is not present) away from the surrounding region of the light source is used as a mount space where to mount the mount portion, accordingly, it is possible to widely secure the mount space. According to this, the degree of freedom of selecting a method for mounting the mount portion increases. 
         [0019]    In the structure where the press member further includes the mount portion that is mounted on the bottom portion of the housing, it is preferable that the bottom portion of the housing and the reflection sheet are fastened by the mount portion. According to this structure, the press portion itself is fixed to the bottom portion of the housing, and the reflection sheet also is fixed to the bottom portion of the housing. In other words, it is possible to fix the reflection sheet to the bottom portion of the housing without additionally preparing a fix member and the like for fixing the reflection sheet to the bottom portion of the housing. 
         [0020]    In the structure where the press member includes the sheet press portion and the mount portion, the sheet press portion may include a plurality of sheet press portions, the mount portion may include one mount portion, and the plurality of sheet press portions may be connected to the one mount portion. According to this structure, for example, in a case where the one mount portion is connected to two sheet press portions, it is possible to press down the edge portions of two exposure holes of the reflection sheet by means of the one press member. Because of this, it becomes unnecessary to prepare the same number of press members as the number of the exposure holes of the reflection sheet, and the number of components is reduced. 
         [0021]    Besides, in the structure where the press member includes the sheet press portion and the mount portion, the sheet press portion may include one sheet press portion, the mount portion may include a plurality of mount portions, and the one sheet press portion may be connected to the plurality of mount portions. According to this structure, the fixing of the press member becomes strong, and it is possible to perform more strongly the pressing-down of the edge portion of the exposure hole of the reflection sheet by means of the sheet press portion. 
         [0022]    A display device according to a second aspect of the present invention includes the illumination device according to the first aspect and a display panel that is illuminated with the light from the illumination device. 
         [0023]    In the display device having this structure, it is possible to alleviate the occurrence of brightness unevenness. 
       Advantageous Effects of Invention 
       [0024]    As described above, according to the present invention, it is possible to obtain an illumination device and a display device that are able to alleviate the occurrence of brightness unevenness. 
     
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         [0025]      FIG. 1  is an exploded perspective view of a liquid crystal display device (display device) that includes a backlight unit (illumination device) according to a first embodiment of the present invention. 
           [0026]      FIG. 2  is a plan view of a press member of the backlight unit according to the first embodiment of the present invention. 
           [0027]      FIG. 3  is a side view of the press member of the backlight unit according to the first embodiment of the present invention. 
           [0028]      FIG. 4  is a plan view showing a state where the press member of the backlight unit according to the first embodiment of the present invention presses down a reflection sheet. 
           [0029]      FIG. 5  is a sectional view showing a state where the press member of the backlight unit according to the first embodiment of the present invention presses down a reflection sheet. 
           [0030]      FIG. 6  is a view for describing a method for mounting the press member of the backlight unit according to the first embodiment of the present invention. 
           [0031]      FIG. 7  is a view for describing a modification of the press member of the backlight unit according to the first embodiment of the present invention. 
           [0032]      FIG. 8  is a view for describing a modification of the press member of the backlight unit according to the first embodiment of the present invention. 
           [0033]      FIG. 9  is a view for describing a modification of the press member of the backlight unit according to the first embodiment of the present invention. 
           [0034]      FIG. 10  is a view for describing a modification of the press member of the backlight unit according to the first embodiment of the present invention. 
           [0035]      FIG. 11  is a plan view showing a state where a press member of a backlight unit according to a second embodiment of the present invention presses down a reflection sheet. 
           [0036]      FIG. 12  is a plan view showing a state where a press member of a backlight unit according to a third embodiment of the present invention presses down a reflection sheet. 
           [0037]      FIG. 13  is a view showing around a light source of a conventional backlight unit. 
           [0038]      FIG. 14  is a view for describing a conventional problem. 
       
    
    
     DESCRIPTION OF EMBODIMENTS  
     First Embodiment 
       [0039]    A structure of a display device including an illumination device according to a first embodiment of the present invention is described with reference to  FIG. 1  to  FIG. 6 . 
         [0040]    This display device is a liquid crystal display device and, as shown in  FIG. 1 , includes at least: a liquid crystal display panel (illuminated body)  10  that displays an image; and a backlight unit  20  that is disposed on a rear side opposite to a display side of the liquid crystal display panel  10 . Meanwhile, the liquid crystal display panel  10  is an example of a “display panel” of the present invention, and the backlight unit  20  is an example of an “illumination device” of the present invention. 
         [0041]    The liquid crystal display panel  10  has a display region where an image is actually displayed and a non-display region that is a surrounding region of the display region. And, in the display region of the liquid crystal display panel  10 , a plurality of pixels are disposed in a matrix shape. 
         [0042]    Each of the plurality of pixels is driven by a switching device, a pixel electrode, a common electrode and the like. Meanwhile, for the sake of easy understanding of the figure, the switching device, the pixel electrode and the common electrode are not shown, and also a wiring electrically connected to these is not shown. 
         [0043]    The switching device is composed of a TFT (thin film transistor), a gate of the switching device is connected to a gate line (scan line), and a source of the switching device is connected to a source line (data line). Besides, the pixel electrode is connected to a drain of the switching device, and the common electrode is disposed to oppose the pixel electrode, further, liquid crystal (not shown) is sandwiched between the pixel electrode and the common electrode. Meanwhile, the switching device is separately disposed for each pixel and the pixel electrode also is separately disposed for each pixel. On the other hand, as indicated by the name, the common electrode is common to each pixel. 
         [0044]    Besides, the backlight unit  20  employs the direct type, emits white backlight in a surface shape and illuminates the rear surface of the liquid crystal display panel  10  with no unevenness by means of the backlight. 
         [0045]    And, during the display operation, based on an image signal, an optical characteristic (light transmittance) of the liquid crystal is changed for every pixel. Specifically, for each pixel, predetermined electric power is supplied to the pixel electrode via the switching device, whereby an electric field is generated between the pixel electrode and the common electrode. And, the orientation of the liquid crystal, that is, the transmittance for light passing through the liquid crystal is changed by the electric field generated between the pixel electrode and the common electrode. 
         [0046]    Because of this, when the backlight is output from the backlight unit  20  and the rear surface of the liquid crystal display panel  10  is illuminated with the backlight, the penetration amount of the backlight passing through the liquid crystal display panel  10  is different for every pixel. According to this, a desired image is displayed on the display surface of the liquid crystal display panel  10 . 
         [0047]    Hereinafter, structures of the liquid crystal display panel  10  and backlight unit  20  are described in more detail. 
         [0048]    The liquid crystal display panel  10  includes at least two transparent boards  11 ,  12 . One transparent board  11  is called an active matrix board, and the other transparent board  12  is disposed to oppose the transparent board  11 , accordingly, there is a case where the other transparent board is called an opposite board or there is a case where the other transparent board is called a color filter board. 
         [0049]    On a predetermined surface of the one transparent board  11 , the switching device and the pixel electrode are formed, and also the gate line (scan line) and the source line (data line) electrically connected to these are formed. Besides, on a predetermined surface of the other transparent board  12 , the common electrode is formed. Meanwhile, on the predetermined surface of the other transparent board  12 , besides the common electrode, a color filter is further formed if necessary. And, the respective predetermined surfaces of the two transparent electrodes  11 ,  12  are covered by an orientation film (not shown) capable of orienting the liquid crystal in a specific direction. 
         [0050]    Besides, the two transparent boards  11 ,  12  are attached to each other via a seal member (not shown) such that the respective predetermined surfaces oppose each other. And, the liquid crystal is sealed between the two transparent boards  11 ,  12 . According to this, the state is obtained, where the liquid crystal is sandwiched between the pixel electrode and the common electrode (between the orientation film for covering the predetermined surface of the one transparent board  11  and the orientation film for covering the predetermined surface of the other transparent board  12 ). 
         [0051]    Further, respective outer sizes of the two transparent boards  11 ,  12  are different from each other, and the outer size of the transparent board  11  is larger than the outer size of the transparent electrode  12 . Accordingly, the two transparent boards  11 ,  12  are attached to each other, however, respective predetermined ends of the transparent boards  11 ,  12  do not match each other, and a portion of the predetermined surface of the transparent board  11  is exposed from the transparent board  12 . This exposed portion of the predetermined surface of the transparent board  11  is a region of the non-display region and used to electrically connect a driver (not shown) to the transparent board  11 . 
         [0052]    Besides, a light polarization sheet  13  for transmitting a light wave only in a specific vibration direction is attached by one to each of surfaces opposite to the predetermined surfaces (surfaces facing the liquid crystal) of the two transparent boards  11 ,  12 . And, respective transmission axes of the two light polarization sheets  13  are deviated from each other by about 90°. 
         [0053]    The backlight unit  20  disposed on the rear side of the liquid crystal display panel  10  includes at least: a back chassis  21 ; a light emitting module  22 ; a reflection sheet  23 ; and an optical sheet  24 . Meanwhile, the back chassis  21  is an example of a “housing” of the present invention. 
         [0054]    The back chassis  21  is formed into a substantially box shape with a side opposing the liquid crystal display panel  10  opened. In other words, the back chassis  21  includes a bottom portion  21   a  that has a substantially rectangular shape when viewed from top (when viewed from the liquid crystal display panel  10  in a planar manner) and a side portion  12   b  that is disposed upright on an outer circumference of the bottom portion  21   a . And, a region surrounded by the bottom portion  21   a  and side portion  21   b  of the back chassis  21  is used as a housing region. 
         [0055]    The light emitting module  22  is intended to generate the light that is the basis of the backlight, a plurality of the light emitting modules are housed in the housing region of the back chassis  21  and fixed to the bottom portion  21   a  of the back chassis  21 . And, in the state where the backlight unit  20  is disposed on the rear side of the liquid crystal display panel  10 , the light emitting module  22  is disposed right under (region that opposes the rear surface of the liquid crystal display panel  10 ) the liquid crystal display panel  10 . 
         [0056]    The light emitting module  22  has a structure that includes two or more LED packages  25  as the light source each of which emits white LED light and the two or more LED packages  25  are mounted on a mount surface of the same LED board  26  that is formed into a strip shape. Besides, the two or more LED packages  25  are ranged in a line along a long-edge direction of the LED board  26  and connected in series with each other. 
         [0057]    Meanwhile, a method for changing the LED light emitted from the LED package  25  to the white color light is not especially limited, and a combination of a fluorescer for converting blue LED light into yellow light and a blue LED may be used as the LED package  25 ; and a combination of fluorescers for converting blue LED light into respective color light of green and red and a blue LED may be used as the LED package  25 . Further, a combination of three kinds of LEDs of a blue LED, a green LED and a red LED may be used as the LED package  25 . 
         [0058]    Further, also the number of the LED packages  25  mounted on the mount surface of the same LED board  26  is not especially limited, and is changeable in accordance with use. 
         [0059]    Besides, it is already described that the plurality of light emitting modules  22  are housed in the housing region of the back chassis  21 , and the plurality of light emitting modules  22  are ranged two dimensionally in an X direction (long-edge direction of the back chassis  21 ) and a Y direction (short-edge direction of the back chassis  21 ) that are parallel to a bottom surface of the bottom portion  21   a  of the back chassis  21 . Meanwhile, in this state, a long-edge direction of the LED board  26  matches the X direction and a short-edge direction of the LED board  26  matches the Y direction. 
         [0060]    And, light emitting modules  22  adjacent to each other in the X direction are electrically connected to each other via a not-shown connector. In other words, the LED boards  26 , which are respectively included in one light emitting module  22  and the other light emitting module  22  adjacent to each other in the X direction, are electrically connected to each other via the connector. 
         [0061]    The reflection sheet  23  is intended to reflect the LED light emitted from the LED package  25  to the liquid crystal display panel  10 , and housed in the housing region of the back chassis  21  together with the light emitting module  22 . A shape of the reflection sheet  23  has a bottom portion  23   a  having a substantially rectangular shape when viewed from top and a side portion  23   b  disposed upward to be inclined on an outer circumference of the bottom portion  23   a.    
         [0062]    And, in the state where the reflection sheet  23  is housed in the housing region of the back chassis  21 , the bottom portion  23   a  of the reflection sheet  23  is placed on the bottom surface of the bottom portion  21   a  of the back chassis  21  with the LED board  26  interposed between them. In other words, the bottom portion  23   a  of the reflection sheet  23  covers the mount surface of the LED board  26  (also inclusive of a surface of the bottom surface of the bottom portion  21   a  of the back chassis  21  that does not overlap the LED board  26 ). On the other hand, the side portion  23   b  of the reflection sheet  23  covers an inner surface of the side portion  21   b  of the back chassis  21 . 
         [0063]    Meanwhile, if the entire mount surface of the LED board  26  is covered by means of the bottom portion  23   a  of the reflection sheet  23 , the LED package  25  mounted on the mount surface of the LED board  26  is also covered by the bottom portion  23   a  of the reflection sheet  23 . Because of this, the light emission of the LED package  25  is discouraged. Accordingly, to expose the LED package  25  toward the liquid crystal display panel  10 , the bottom portion  23   a  of the reflection sheet  23  is provided with the same number of exposure holes  23   c  having a circular opening shape as the number of the LED packages  25 . And, the LED package  25  is exposed (protruded) by one from each of these exposure holes  23   c  of the reflection sheet  23  toward the liquid crystal display panel  10 . 
         [0064]    The optical sheet  24  is a group of sheets that include a diffusion sheet, a prism sheet and the like, and is disposed to close the open side of the back chassis  21 . In other words, the optical sheet  24  is disposed on a side that opposes the bottom surface (bottom surface of the bottom portion  23   a  of the reflection sheet  23 ) of the bottom portion  21   a  of the back chassis  21 , thereby covering the light emitting module  22  from the liquid crystal display panel  10  side. Accordingly, the LED light emitted from the LED package  25  enters the optical sheet  24  to undergo light diffusion and collection, thereafter shines on the rear surface of the liquid crystal display panel  10 . Meanwhile, the kind and number of the optical sheets  24  are suitably changed in accordance with usage. 
         [0065]    Here, in the first embodiment, a press member  27  shown in  FIG. 2  and  FIG. 3  is further disposed in the backlight unit  20 . And, as shown in  FIG. 4  and  FIG. 5 , by using the press member  27 , the reflection sheet  23  is pressed down and the reflection sheet  23  is fixed to the bottom portion  21   a  of the back chassis  21 . Meanwhile,  FIG. 4  is not a sectional view, however, for the sake of easy understanding of the figure, hatching is applied to a portion that corresponds to the press member  27 . 
         [0066]    This press member  27  uses a high reflection material (e.g., a polycarbonate resin that includes a titanium oxide, a barium sulfate and the like) as a constituent material, and has one sheet press portion  27   a  that actually presses down the reflection sheet  23  and one mount portion  27   b  that is mounted on the bottom portion  21   a  of the back chassis  21 . 
         [0067]    The sheet press portion  27   a  is composed of a continuous circular annular body and disposed to surround the entire circumference of the LED package  25  that is exposed from the exposure hole  23   c  of the reflection sheet  23 . In other words, a shape of the sheet press portion  27   a  is formed into a annular shape (annular shape along the opening shape of the exposure hole  23   c  of the reflection sheet  23 ) along a shape of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 . And, by means of this sheet press portion  27   a , the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  is pressed down from the optical sheet  24  side (liquid crystal display panel  10  side). 
         [0068]    The mount portion  27   b  has substantially a shape like a push rivet (fastener member). In other words, a structural body, which includes a cylinder body  27   c  having a split pin-shaped tip end and a shaft body  27   d  fitted into the cylinder body  27   c , is used as the mount portion  27   d , the shaft body  27   d  is fitted into the cylinder body  27   c  and pressed into as it is, whereby the tip end (the split pin-shaped portion) of the cylinder body  27   c  is widened. And, the mount portion  27   b  is mounted on the bottom portion  21   a  of the back chassis  21 , whereby the press member  27  itself is fixed to the bottom portion  21   a  of the back chassis  21  and the reflection sheet  23  is fixed to the bottom portion  21   a  of the back chassis  21 . 
         [0069]    As a specific mount structure, a mount hole H for mounting the mount portion  27   b  is formed beforehand through the bottom portion  21   a  of the back chassis  21 . Likewise, the mount hole H is also formed beforehand through the bottom portion  23   a  of the reflection sheet  23  and the LED board  26 . And, in the state where the mount portion  27   b  is inserted in the mount hole H, the tip end of the cylinder body  27   c  is widened (the shaft body  27   d  is pressed in the cylinder body  27   c ), whereby the mount portion  27   b  is mounted on the bottom portion  21   a  of the back chassis  21 . 
         [0070]    Meanwhile, in the mount procedure, as shown in  FIG. 6 , first, the cylinder body  27   c  demounted from the shaft body  27   d , that is, the cylinder body  27   c  whose tip end is not widened is inserted into the mount hole H. Thereafter, the shaft body  27   d  is fitted into the cylinder body  27   c . At this time, the shaft body  27   d  is pressed into until the tip end of the cylinder body  27   c  is widened. According to this, as shown in  FIG. 5 , the mount portion  27   b  is mounted on the bottom portion  21   a  of the back chassis  21 . 
         [0071]    When the mount portion  27   b  is mounted on the bottom portion  21   a  of the back chassis  21  in this way, the press member  27  itself is fixed to the bottom portion  21   a  of the back chassis  21 , and the bottom portion  21   a  of the back chassis  21 , the LED board  26  and the bottom portion  23   a  of the reflection sheet  23  are fastened by the mount portion  27   b . In other words, the reflection sheet  23  is fixed to the bottom portion  21   a  of the back chassis  21 . 
         [0072]    Besides, the sheet press portion  27   a  and the mount portion  27   b  are connected to each other via a connection portion  27   e . This connection portion  27   e  is formed to extend in a direction (X direction) parallel to the bottom surface (bottom surface of the bottom portion  21   a  of the back chassis  21 ) of the bottom portion  23   a  of the reflection sheet  23 . And, the sheet press portion  27   a  is connected to one end of the connection portion  27   e  in the X direction, while the mount portion  27   b  (shaft body  27   d ) is connected to the other end opposite to the one end of the connection portion  27   e  in the X direction. In other words, the sheet press portion  27   a  and the mount portion  27   b  are away from each other by a length of the connection portion  27   e  in the X direction. Because of this, the mount hole H into which the mount portion  27   b  is inserted is not formed through the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  but formed through a portion (portion different from the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 ) away from the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 . 
         [0073]    Besides, in the first embodiment, the number of the press members  27  is equal to the number of the exposure holes  23   c  of the reflection sheet  23 . And, the press member is allocated by one to each of the exposure holes  23   c  of the reflection sheet  23 . 
         [0074]    In the first embodiment, as described above, the sheet press portion  27   a  disposed to surround the circumference of the LED package  25  is formed on the press member  27 , and the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  is pressed down by means of the sheet press portion  27   a , whereby it is possible to make small or remove the warp (rise) of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 . According to this, the light reflection by the reflection sheet  23  is well performed in the surrounding region of the LED package  25 . As a result of this, it becomes possible to alleviate the occurrence of the disadvantage that the brightness unevenness occurs because of the decline of brightness in the region that corresponds to the surrounding region of the LED package  25 . 
         [0075]    Besides, in the first embodiment, as described above, the sheet press portion  27   a  is composed of the annular body capable of surrounding the entire circumference of the LED package  25 , accordingly, it is possible to press down the entire circumference of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 . According to this, the occurrence of the warp of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  is more alleviated. 
         [0076]    Besides, in the first embodiment, as described above, the sheet press portion  27   a  is formed into the shape along the shape of the edge portion  23   d  of the exposure hole  23   c  of the refection sheet  23 , accordingly, it is possible to surely press down a portion (i.e., the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23 ) which is a part of the entire reflection sheet  23  and where the warp is prone to occur by means of the sheet press portion  27   a.    
         [0077]    Besides, in the first embodiment, as described above, by connecting the mount portion  27   b  mounted on the bottom portion  21   a  of the back chassis  21  to the sheet press portion  27   a , the mount portion  27   b  is mounted on the bottom portion  21   a  of the back chassis  21 , whereby it possible to easily fix the press member  27  to the bottom portion  21   a  of the back chassis  21 . 
         [0078]    And, in this case, the sheet press portion  27   a  and the mount portion  27   b  are connected to each other via the connection portion  27   e  that extends in the X direction, accordingly, the mount portion  27   b  is away from the sheet press portion  27   a  by the length of the connection portion  27   e  in the X direction. Because of this, the region (region around which the LED package  25  is not present) away from the surrounding region of the LED package  25  is used as a mount space for mounting the mount portion  27   b , accordingly, it is possible to widen the mount space. According to this, the degree of freedom of selecting the method for mounting the mount portion  27   b  increases. 
         [0079]    Besides, in the first embodiment, as described above, by making it possible to perform the fastening of the bottom portion  21   a  of the back chassis  21  and the bottom portion  23   a  of the reflection sheet  23  by means of the mount portion  27   b , it is possible to fix the reflection sheet  23  to the bottom portion  21   a  of the back chassis  21  without additionally preparing a fix member and the like for fixing the reflection sheet  23  to the bottom portion  21   a  of the back chassis  21 . 
         [0080]    Meanwhile, a modification of the first embodiment is conceivable as follows. 
         [0081]    In other words, in the structure of the first embodiment, as shown in  FIG. 7 , a cutout may be formed at a portion of the sheet press portion  27   a . Meanwhile,  FIG. 7  is not a sectional view, however, for the sake of easy understanding of the figure, hatching is applied to the portion that corresponds to the press member  27 . 
         [0082]    Besides, in the structure of the first embodiment, in a case where the exposure hole  23   c  of the reflection sheet  23  is opened into a shape different from the circular shape, in accordance with that, the shape of the sheet press portion  27   a  may be changed. For example, as shown in  FIG. 8 , if the opening shape of the exposure hole  23   c  of the reflection sheet  23  is a quadrangular shape, the shape of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  becomes a quadrangular shape, accordingly, it is preferable to form the shape of the sheet press portion  27   a  into a quadrangular shape. Meanwhile,  FIG. 8  is not a sectional view, however, for the sake of easy understanding of the figure, hatching is applied to the portion that corresponds to the press member  27 . 
         [0083]    Besides, in the structure of the first embodiment, the mount portion  27   b  of the push rivet structure may not be formed on the press member  27  but, as shown in  FIG. 9 , a mount portion  37   b , which has an engagement piece engageable with the bottom portion  21   a  of the back chassis  21 , may be formed on the mount member  27 . In this case, by engaging the mount portion  37   b  inserted in the mount hole H of the bottom portion  21   a  of the back chassis  21  with the bottom portion  21   a  of the back chassis  21 , the press member  27  is fixed to the bottom portion  21   a  of the back chassis  21 . 
         [0084]    Or, as shown in  FIG. 10 , a mount portion  47   b  to be screwed into a nut (screw member) N may be formed on the press member  27 . In this case, by screwing the nut N onto the mount portion  47   b  inserted in the mount hole H of the bottom portion  21   a  of the back chassis  21 , the press member  27  is fixed to the bottom portion  21   a  of the back chassis  21 . 
       Second Embodiment 
       [0085]    Hereinafter, with reference to  FIG. 11 , a structure of a press member  57  according to a second embodiment is described. Meanwhile, of the press member  57  according to the second embodiment, portions having the same functions as the first embodiment are indicated by the same reference numbers, and detailed description of them is skipped. Besides,  FIG. 11  is not a sectional view, however, for the sake of easy understanding of the figure, hatching is applied to a portion that corresponds to the press member  57 . 
         [0086]    The press member  57  according to the second embodiment, as shown in  FIG. 11 , integrally has two sheet press portions  27   a . In other words, a structure is employed, in which the two sheet press portions  27   a  are connected to the one mount portion  27   b.    
         [0087]    The other structures of the second embodiment are the same as the first embodiment. 
         [0088]    In the second embodiment, by using the press member  57  described above, it is possible to press down the edge portions  23   d  of the two exposure holes  23   c  of the reflection sheet  23  by means of the one press member  57 . Because of this, it becomes unnecessary to prepare the same number of the press members  57  as the number of the exposure holes  23   c  of the reflection sheet  23 , whereby the number of components is reduced. 
         [0089]    The other effects of the second embodiment are the same as the first embodiment. 
       Third Embodiment 
       [0090]    Hereinafter, with reference to  FIG. 12 , a structure of a press member  67  according to a third embodiment is described. Meanwhile, of the press member  67  according to the third embodiment, portions having the same functions as the first embodiment are indicated by the same reference numbers, and detailed description of them is skipped. Besides,  FIG. 12  is not a sectional view, however, for the sake of easy understanding of the figure, hatching is applied to a portion that corresponds to the press member  67 . 
         [0091]    The press member  67  according to the third embodiment, as shown in  FIG. 12 , integrally has two mount portions  27   b . In other words, a structure is employed, in which the one sheet press portion  27   a  is connected to the two mount portions  27   b.    
         [0092]    The other structures of the third embodiment are the same as the first embodiment. 
         [0093]    In the third embodiment, by using the press member  67  described above, the fixing of the press member  67  becomes strong, and it is possible to perform more strongly the pressing-down of the edge portion  23   d  of the exposure hole  23   c  of the reflection sheet  23  by means of the sheet press portion  67   a.    
         [0094]    The other effects of the third embodiment are the same as the first embodiment. 
         [0095]    It should be considered that the embodiments disclosed this time are examples in all respects and are not limiting. The scope of the present invention is not indicated by the above description of the embodiments but by the claims, and all modifications within the scope of the claims and the meaning equivalent to the claims are covered. 
         [0096]    For example, in the above embodiments, the example is described, in which the present invention is applied to an illumination device disposed in a liquid crystal display device, however, the present invention is not limited to this, and may be applied to an illumination device disposed in a display device other than the liquid crystal display device. 
       REFERENCE SIGNS LIST  
       [0000]    
       
           10  liquid crystal display panel (display panel) 
           20  backlight unit (illumination device) 
           21  back chassis (housing) 
           21   a  bottom portion 
           23  reflection sheet 
           23   c  exposure hole 
           23   d  edge portion 
           25  LED package (light source) 
           27 ,  57 ,  67  press members 
           27   a  sheet press portion 
           27   b ,  37   b ,  47   b mount portions 
           27   e  connection portion