Patent Publication Number: US-2007115207-A1

Title: Display with a window assembly and a mobile phone having the same

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS  
      This application claims priority to and the benefit of Korean Patent Application No. 10-2005-112592, filed on Nov. 23, 2005, in the Korean Intellectual Property Office, the entire content of which is incorporated herein by reference.  
     BACKGROUND  
      Liquid crystal displays (LCDs) have been used as the displays in various electronic apparatuses including portable communication apparatuses such as cellular phones or PDA. A window is installed on a case of an electronic apparatus for protecting an LCD by isolating it from the outside. An opening is also formed on the case for exposing the LCD to the outside. In this case, the window is coupled with the opening to form a window assembly for a display, and therefore the LCD is protected while images can be viewed from the outside.  
      Hereinafter, a conventional window assembly in a display of a mobile phone will be described in detail, with reference to  FIGS. 1 and 2 .  
       FIG. 1  is an external perspective view showing a conventional mobile phone, and  FIG. 2  is a schematic view showing a portion of the display shown in  FIG. 1 .  
      As shown in  FIG. 1 , a conventional mobile phone  1  essentially includes a display unit  100  displayed so that users can recognize certain signals; an input unit  200  for inputting display signals to the display unit  100 , and a control unit (not shown in  FIG. 1 ) for controlling the input signals of the input unit  200  and the display signals of the display unit  100 .  
      Referring to  FIG. 2 , the display unit  100  of such a conventional mobile phone  1  includes a case  110 ; a window  130  installed in the case  110 ; a display unit  150  mounted between the window  130  and the case  110  to be installed inside of the mobile phone  1 ; and backlight unit  170  (so-called “BLU”).  
      The case  110  represents the bulk of the appearance of the mobile phone  1 , wherein a predetermined opening is formed for showing images from the display unit  150  installed inside of the case  110  to the outside, and a stepped part  112  is formed along edges of the opening.  
      The window  130  is installed in the stepped part  112  of the case  110 , and is designed to protect the display unit  150 , installed inside of the case  110 , from the outer environment.  
      The display unit  150  emits display signals by driving of the mobile phone  1  so that users can recognize the signals, and is arranged inside to correspond to a window  130  in the inside of the mobile phone  1 , namely the inside of the case  110 .  
      If the display unit  150  is installed inside of the case  110 , the display unit  150  in this embodiment is received into a backlight unit  170  for projecting the light to the display unit  150 , and the backlight unit  170  is adhered to an inner surface of the case  110  by, for example, a tape  190 , to fix the display unit  150  which is received into the backlight unit  170 .  
      A gap g 1  is generated between the window  130  and the display unit  150 , which are both installed in the stepped part  112  of the case  110 . The gap g 1  is an important factor in determinaing a thickness t 1  of the display unit  100  in the mobile phone  1 .  
      However, there has been a demand that the gap g 1  of the display unit  100  should be reduced to meet an increasing demand for thin mobile phone  1 .  
      Also, the mobile phone  1  with such a structure has a poor impact resistance against impacts applied from the outside and allows the backlight unit  170  to be in direct contact with the inside of the case  110 . An adhesion space, therefore, may not be sufficiently secured and its yield may be lowered due to its complicated process.  
     SUMMARY OF THE INVENTION  
      A display with a window assembly includes a display unit for optically displaying predetermined signals; a backlight unit provided on a first side of the display unit to project light to the display unit and having a housing unit for enclosing at least a portion of the display unit so that a second side of the display unit is exposed, wherein the housing unit has at least one protrusion arranged to protrude toward the exposed, second side of the display unit; a window member closely adhered to at least a portion of the housing unit of the backlight unit and the exposed second side of the display unit, and coupled with the at least one protrusion of the housing unit; an adhesion unit arranged between the window member and the housing unit of the backlight to adhere the window member and the housing unit of the backlight unit to each other; and a case unit formed with an opening so that the window member can be exposed through the opening, and having a stepped part on a side of an edge of the opening and coupled with the window member.  
      A circumference of the window member, in one embodiment, corresponds to a circumference of the backlight unit that closely adheres to the window member. The adhesion unit may be arranged on at least one side of the backlight unit close to the window member, and may be further arranged between the window member and the display unit to closely adhere the window member and the display unit to each other. In one embodiment, the adhesion unit is arranged to closely adhere the display unit to the window member and the backlight unit to the window member so that an inner portion can be formed between the display unit to the window member, wherein the inner portion is smaller than or identical in size to outer dimensions of the backlight unit or the window member.  
      Facing surfaces of the window member, the display unit, and the backlight unit have a rectangular shape, and the adhesion unit may be formed along an outermost side of the backlight unit and the window member so that a circumference of the adhesion unit can be identical to outer dimensions of the backlight unit or the window member, and arranged to correspond to the facing surfaces of the display unit or the window member. The adhesion unit, in one embodiment, is formed along an outermost side of the backlight unit and the window member so that a circumference of the adhesion unit can be identical to outer dimensions of the display unit or the window member, and has an inner portion to which at least a portion of the display unit is exposed.  
      Facing surfaces of the window member, the display unit, and the backlight unit may have a rectangular shape, and the adhesion unit may be formed along an outermost side of the backlight unit and the window member so that a circumference of the adhesion unit can be smaller than outer dimensions of the backlight unit or the window member, and the adhesion unit is arranged to correspond to the facing sides of the display unit or the window member.  
      The adhesion unit may be formed along an outermost side of the backlight unit and the window member so that a circumference of the adhesion unit can be smaller than outer dimensions of the backlight unit or the window member, and may have an inner portion to which at least a portion of the display unit is exposed. The stepped part may be formed to correspond to the opening of the case unit in which the stepped part is formed.  
      The at least one protrusion of the housing unit provided in the backlight unit may be integrally or separately formed with the housing unit. The backlight unit may also be formed on a surface of the housing unit closely adhered to the window member.  
      In one embodiment, the window member has a notch formed so that it can be coupled with a one of the at least one protrusion of the housing unit.  
      In another embodiment, the at least one protrusion of the housing unit provided in the backlight unit is further formed on an outermost circumference of a surface the housing unit closely adhered to the window member.  
      The housing unit provided in the backlight unit, in one embodiment, has a rectangular shape surface, and the at least one protrusion is provided in at least one corner angle of the housing unit. The display unit may include a liquid crystal display.  
      The window member may be formed so that it can transmit the light at least over a visible light wavelength.  
      One embodiment of a mobile phone includes the display with a window assembly as described above; an input unit for transmitting input signals to input display signals into the display; and a control unit for controlling the input signals of the input unit and the display signals of the display. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
      These and/or other aspects and features of the invention will become apparent and more readily appreciated from the following description of examples of embodiments, taken in conjunction with the accompanying drawings of which:  
       FIG. 1  is an external perspective view showing a conventional mobile phone;  
       FIG. 2  is a schematic cross-sectional view showing a portion of the display shown in  FIG. 1 ;  
       FIGS. 3A  to  3 D are partial schematic cross-sectional views showing various embodiments of a display with a window assembly according to the present invention;  
       FIGS. 4A  to  4 H are partial plane views schematically showing various embodiments of an adhesion unit provided on a display unit and a backlight unit in a display with a window assembly according to the present invention;  
       FIGS. 5A and 5B  are perspective views schematically showing various combined embodiments of a backlight unit and a protrusion in a display with a window assembly according to the present invention;  
       FIGS. 6A and 6B  are partial perspective views schematically showing couplings between the backlight unit and the protrusion in  FIG. 5A  and  FIG. 5B , respectively;  
       FIGS. 7A  to  7 F are partial plane views schematically showing various embodiments of a backlight unit and a protrusion in a display with a window assembly according to the present invention;  
       FIGS. 8A and 8B  are perspective views schematically showing various combined embodiments of a backlight unit, in which a protrusion is arranged, and a window member in a display with a window assembly according the present invention; and  
       FIG. 9  is an external perspective view showing an embodiment of a mobile phone having a display with a window assembly according to the present invention. 
    
    
     DETAILED DESCRIPTION  
      Hereinafter, a display with a window assembly according to examples of embodiments of the present invention will be described with reference to the accompanying drawings.  
       FIGS. 3A  to  3 D are partial schematic cross-sectional views showing various embodiments of a display with a window assembly according to the present invention, and  FIGS. 4A  to  4 H are partial plan views schematically showing various embodiments of an adhesion unit provided on a display unit and a backlight unit in a display with a window assembly according to the present invention.  
      A display with a window assembly  700 ,  700 ′,  700 ″,  700 ′″ according to the embodiments of the present invention shown in  FIGS. 3A-3D  includes a display unit  750  for optically displaying predetermined signals; and a backlight unit  770  (BLU) provided on a first side of the display unit  750  to project the light to the display unit  750 . The backlight unit  770  also has a housing unit for enclosing a portion of a second side of the display unit  750 . The second side of the display unit  750  is exposed to a window member  730 . The housing unit has at least one predetermined protrusion  772  protruding in a direction away from the first side of the display unit  750 . The window member  730  is closely adhered to a portion of the housing unit of the backlight unit  770  and is coupled with at least one predetermined protrusion  772  of the housing unit. The window member  730  is also closely adhered to the exposed second side of the display unit  750 . Referring to  FIGS. 3A-3B , an adhesion unit is arranged between the window member  730  and the housing unit of the backlight unit  770  to adhere them to each other. A predetermined opening in the case  710  is formed so that the window member  730  can be inserted, and a predetermined stepped part  712  formed in one side of the opening edge allows coupling of the window member  730  with the stepped part  712 .  
      As shown in  FIGS. 3A  to  3 B, a predetermined opening is formed in a case  710 , and the opening is formed to display pictures to users. In the case  710  in which the opening is formed, a predetermined stepped part  712  is formed along edges of the opening formed thereof, and the stepped part  712 , in these embodiments, are formed entirely along the opening edge. However, the invention is not limited thereto and the stepped part may be formed along a portion of the opening edge. The stepped part  712  in these embodiments is formed on one side of the case  710 , and a window  730  is then coupled with the stepped part  712 . Although not shown in the figures, different shapes other than the stepped part  712  shown may be realized according to desired characteristics, namely if windows are installed on both sides of the case  710 , or if grooves are formed in an inner surface of the opening edge formed in the case  710  to fix the window  730  to the grooves. The window  730  may also be closely coupled with the grooves, and the stepped part  712  may be entirely or partially formed on the edge of the opening formed in the case  710 . The arrangement of these elements thus depends on the desired characteristics.  
      The window  730  is made of materials capable of transmitting light at least over the visible light wavelength, and display signals emitted from the display unit  750  are transmitted through the window  730  so that users can recognize the display signals.  
      The display unit  750  is installed inside of the case  710 , and is formed to correspond to the opening and window  730  of the case  710  so that it can emit display signals for users to recognize. The display unit  750  may be a liquid crystal display (LCD) composed of liquid crystals or any other suitable display device, such as are used for other applications.  
      The first side of the display unit  750  is provided close to one side of the window  730 . The display unit  750 , more specifically a circumference of the display unit  750 , is smaller than or the same size as a circumference of the window  730  which closely adheres to the display unit  750 . In the display unit  750  and the window  730 , which are closely adhered to each other, circumferences of each of the closely adhered surfaces precisely correspond to each other upon closely adhering to each other if they have the same circumferences. Center points of the display unit  750  and the window  730 , in this embodiment, are in agreement with each other for each circumference upon closely adhering to each other if a circumference of the display unit  750  is smaller than that of the window  730 .  
      In order to display the display signals from the display unit  750 , a backlight unit  770  is provided at a surface of the display unit  750 , more specifically at a surface to which the display unit  750  is closely adhered, and therefore the light at least over the visible light wavelength may be projected into the display unit  750 . The surface of the display unit  750  adhering to the backlight unit  770  is on an opposite side as the surface of the display unit  750  adhering to the window  730 .  
      The backlight unit  770  has a housing unit, and, in this embodiment, the display unit  750  is shaped as a rectangular hexahedron with outer surfaces. One outer surface is closely adhered to the window  730  and another outer surface is adjacent to the backlight unit  770 .  
      The housing unit of the backlight unit  770  is closely adhered to at least one of the surfaces of the window  730 , which is not closely adhering to the display unit  750 . The side of the window  730  that adheres to the backlight unit  770  also closely adheres to the display unit  750  if a circumference of the adhering surface of the display unit  750  is smaller than a circumference of the window.  
      A circumference of the window  730 , in this embodiment, is greater than a circumference of the adhering surface of the display unit  750 . The circumferential surfaces of the window  730  that are peripheral to the adhering surface of the display unit  750  are closely adhered to the housing unit of the backlight unit  770 . That is, in this embodiment, the surface area of the window  730  is identical to the sum of the surface area of the display unit  750  and the surface area of the adhering surface between the window  730  and the housing unit of the backlight unit  770 .  
      The housing unit provided in the backlight unit  770  may be variously modified according to its desired rigidity and functions, and therefore it is shown in the accompanying drawings of this specification without distinction of the backlight unit  770 .  
      When the display unit  750  and the window  730  enclosed by the housing unit of the backlight unit  770  are closely adhered to each other, an adhesion unit is provided between the window  730  and the housing unit of the backlight unit  770  so that the window  730  and the housing unit of the backlight unit  770  can be closely adhered to each other. In this embodiment, the adhesion unit is a tape  790 , but it may be any other element suitable for adhesion.  
      The tape  790  provided between the window  730  and the housing unit of the backlight unit  770  may be formed in a surface where the housing unit of the backlight unit  770  is closely adhered to the window  730  ( FIGS. 4A  to  4 H) so that the tape&#39;s  790  outer dimension can be smaller than ( FIGS. 4A, 4B ,  4 E,  4 F) or identical to ( FIGS. 4C, 4D ,  4 G,  4 H) that of the housing unit of the backlight unit  770 . The display unit  750  forms a predetermined open or closed opening so that display signals displayed by the display unit  750  can be recognized by the users by means of the window  730  and the opening of the case  710 , as shown in  FIGS. 4A  to  4 H.  
      In this case, a gap g 7  is formed between the window  730  and the display unit  750 , and the gap g 7  may have a smaller value than a gap g 1  in a conventional display  100  shown in  FIG. 2 .  
      As shown in FIGS.  3 B and  4 A- 4 H, the tape  790 ′,  791 - 797  provided between the window  730  and the housing unit of the backlight unit  770  may be formed over the surface where the housing unit of the backlight unit  770  is closely adhered to the window  730 , as well as the surface where the display unit  750  is closely adhered to the window  730  ( FIGS. 4A, 4B ,  4 C,  4 H) and its outer dimension can be smaller than ( FIG. 4A ,  FIG. 4B ), or identical to ( FIG. 4C ,  FIG. 4H ) that of the housing unit of the backlight unit  770 . The display unit  750  forms a predetermined open or closed opening so that display signals displayed by the display unit  750  can be recognized by the users by means of the window  730  and the opening of the case  710 .  
      In this case, a gap g 7 ′ is formed between the window  730  and the display unit  750 , and the gap g 7 ′ may have a smaller value than a gap g 1  in a conventional display  100  shown in  FIG. 2 . The gap g 7 ′ may have a higher value than the above gap g 7  according to thickness of the tape  790 ,  790 ′ inserted between the display unit  750  and the window  730 . This larger gap may have advantages considering the rigidity of the display.  
      Generally, for the window  730 , the display unit  750  and the housing unit of the backlight unit  770 , each having a rectangular shape, the tape  792 ,  793 ,  796 ,  797  is formed so that it can correspond to the most outer side ( FIG. 4C ,  FIG. 4D ,  FIG. 4G  and  FIG. 4H ) on the surfaces where the housing unit of the backlight unit  770  is closely adhered to the window  730 , or the housing unit of the backlight unit  770  and the display unit  750  are closely adhered to the window  730 . Namely, a circumference of the tape is formed so that its outer dimension can be identical to that of the housing unit of the backlight unit  770  and/or the window  730 . The circumference of the tape  790 ′,  792 ,  794  may also be formed to correspond to opposite sides of the display unit  750  having a rectangular shape, as shown in  FIGS. 4A, 4C , and  4 E. The tape  793 ,  796 ,  797  can also be formed to have a predetermined closed interval along the. outer circumference of the housing unit of the backlight unit  770  having a rectangular shape, as shown in  FIG. 4D ,  FIG. 4G  and  FIG. 4H . The tape  791 ,  795  may also be arranged to have a smaller, closed outer dimension than that of the housing unit of the backlight unit  770 , as shown in  FIG. 4B  and  FIG. 4F .  
      As shown in  FIGS. 3C and 3D , the window  730 ′ has a stepped part  732  so as to correspond to the stepped part  712  formed in the case  710 , and therefore it may be designed to fill the opening of the case  710 .  
      The case  710  may have an inward stepped part  712 , and have an outward. stepped part (not shown). The window  730 ′ provided in the stepped part  712  according to each modified embodiment also has a stepped part  732  so that it can fill the opening of the case  710  with a shape corresponding to the window  730 ′, and the stepped part  712  of the case  710  may be a more complicated stepped part  712  in addition to the stepped part  712  as shown in the figure. At this time, the stepped part  732  of the window  730 ′ may be also complicated to correspond to the window  730 ′.  
      The tape  790 ,  790 ′ may be further provided between the display unit  750  and the window  730 ′, as shown in  FIG. 3C  and  FIG. 3D . In this case, the tape  790 ,  790 ′ may be integrally or separately formed so that the tape  790 ′ provided between the backlight unit  770  and the window  730 ′ can be further extended between the display unit  750  and the window  730 ′.  
      In the modified embodiments of each display  700 ,  700 ′,  700 ″,  700 ′″ as described above, the display has gaps g 7 , g 7 ′ between the window  730 ,  730 ′ and the display unit  750 , and the gaps g 7 , g 7 ′ have a smaller value than the gap g 1  in the conventional display  100  as shown in  FIG. 2 , and therefore it is possible to make the display thinner, and the display may be easily assembled by closely adhering the window  730 ,  730 ′ and the housing unit of the backlight unit  770  to each other, or adhering the housing unit of the backlight unit  770  and the display unit  750  to each other using a tape  790 ′,  790 - 797 . Accordingly, the display may be more easily assembled when compared to the conventional display  100  since an adhesion space is. easily secured, and therefore its entire cost may be reduced.  
      Referring to  FIG. 3A  to  FIG. 3D , a predetermined protrusion  772  is provided on the housing unit of the backlight unit  770 , and the protrusion  772  is formed in a direction of the exposed side of the display unit  750 , namely toward a surface of the window  730 ,  730 ′ which is closely adhered to the display unit  750 , and then plays a role to guide the window  730 ,  730 ′ when the window  730 ,  730 ′ is closely adhered to the backlight unit  770 .  
       FIGS. 5A and 5B  are perspective views schematically showing various combined embodiments of a backlight unit and a protrusion in a display with a window assembly according to the present invention, and  FIGS. 6A and 6B  are partial perspective views schematically showing coupling between the backlight unit and the protrusions in  FIG. 5A  and  FIG. 5B , respectively.  
      A predetermined protrusion  772  provided in the housing unit of the backlight unit  770  may be formed on the surface of the backlight unit  770  that is to be closely adhered to the window (not shown), as shown in  FIG. 5A  and  FIG. 6A . Another embodiment of a protrusion  772 ′ is formed on the most outer circumference of the surface of the backlight unit  770  that is to be closely adhered to the window (not shown), as shown in  FIG. 5B  and  FIG. 6B .  
      These protrusions  772 ,  772 ′ may be integrally formed with the housing unit of the backlight unit  770 , or separately formed (not shown) so that it can be coupled with the housing unit of the backlight unit  770  using known connection methods, and the combination thereof may be also used.  
      The display may be integrally formed considering rigidity and a production yield of its structure, but it may be also be separately formed considering the difficulty of manufacturing the housing unit, or easy changeability upon generation of poor protrusions  772 ,  772 ′.  
      The protrusions  772 ,  772 ′ may be formed on its four corner angles for the housing unit of the backlight unit  770  having a rectangular shape so that it has corner angles along two sides adjacent to the corner angles because it plays a role to guide the window  730  when the protrusion  772 ,  772 ′ is closely adhered to the window.  
       FIGS. 7A  to  7 F are partial plane views schematically showing various combined embodiments of a backlight unit and a protrusion in a display with a window assembly according to the present invention.  
      The protrusion  772 ,  772   a ,  772   b  provided in the housing unit of the backlight unit  770  may be formed on a surface to be closely adhered to the window ( FIG. 7A ,  FIG. 7C  and  FIG. 7D ), or the protrusion  772 ′,  772   a ′,  772   b ′ may be formed on the most outer circumference of the surface to be closely adhered to the window ( FIG. 7B ,  FIG. 7E  and  FIG. 7F ), and the combination thereof may be also used, as described above.  
      The protrusion  772   b ,  772   b ′ may be formed on a side between one corner angle and another corner angle adjacent the one corner angle for the housing unit of the backlight unit  770  having a rectangular shape ( FIG. 7C  and  FIG. 7E ), and the protrusion  772   a ,  772   a ′ may be formed on at least one corner angles ( FIG. 7A  and  FIG. 7B ), and the combination thereof may be also used ( FIG. 7D  and  FIG. 7F ).  
       FIGS. 8A and 8B  are perspective views schematically showing various combined embodiments of a backlight unit, in which a protrusion is arranged, and a window member in a display with a window assembly according to the present invention.  
      The protrusion  772 ,  772 ′, provided in the housing unit of the backlight unit  770  having the arrangement described above, plays a role to guide the window  730 ,  730 ″, and then facilitates its assembling when the window  730 ,  730 ″ is closely adhered to the backlight unit  770  and the display unit  750  received into the backlight unit  770 , as shown in  FIG. 8A  and  FIG. 8B .  
      The adhesion unit is not shown in  FIG. 8A  and  FIG. 8B , but is the same as described above. However, the adhesion unit  790  may be formed so that its arrangement can be escaped in different directions when the protrusion  772 ,  772 ′ is formed on a surface of the backlight unit  770  closely adhered to the window  730 .  
      A notch  737  is formed on the window  730 ″ so that it can be coupled with the window  730 ″ when the protrusion  772  is formed on the surface of the backlight unit  770  closely adhered to the window  730 ″, as shown in  FIG. 8A . In addition to such an arrangement, the window may form a notch or indentation for coupling with the protrusion in which the protrusion  772   a ,  772   b  is formed on a surface of the backlight unit closely adhered to the window, namely in the arrangement as shown in  FIG. 7C  and  FIG. 7D , and may also form a notch on the window, coupled with the protrusion provided on a surface of the backlight unit closely adhered to the window  730  having other arrangements not shown herein.  
      If the protrusion  772 ′ is further formed on the most outer circumference of a surface of the backlight unit  770  closely adhered to the window  730 , the window  730  may be closely adhered to the backlight unit  770  and the display unit  750  received into the backlight unit  770  even though the notch  737  as shown above in  FIG. 8A  is not completely formed, as shown in  FIG. 8B . Accordingly, this arrangement is identical to other arrangements of the protrusion  772 ′ further formed on the most outer circumference of the surface of the backlight unit  770  closely adhered to the window  730 .  
      Hereinafter, a mobile phone having the display with a window assembly according to an example of an embodiment of the present invention will be described in detail with reference to the accompanying drawing.  
       FIG. 9  is an external perspective view showing an embodiment of a mobile phone having the display with a window assembly according to the present invention.  
      The mobile phone  7  having the display with a window assembly according to an embodiment of the present invention includes the display with a window assembly  700  according to an embodiment of the present invention; an input unit  800  formed to input display signals into the display  700 ; and a control unit (not shown) for controlling the input signals of the input unit  800  and the display signals of the display.  
      Referring to  FIG. 9 , the display  700  is formed as a display  700  having gaps g 7  or g 7 ′ between the window  730  and the display unit  750 , and an input unit  800  is formed to input display signals into the display  700 . The input unit  800  is a conventional input unit  800 , and includes a keypad for manual works of users, a sound-recognition unit for sound, a receiving unit for communication signals, an incident light-recognition unit for a camera attached to a phone  7 , and other elements for generating input signals in general.  
      Also, a conventional control unit is formed in the phone  7  so that it can control the input signals of the input unit  800  and the display signals of the display  700 .  
      The phone  7  arranged thus may have a shape as shown in  FIG. 9 , and have other shapes having the display  700 , the input unit  800  and the control unit. The thickness t 7  of the phone  7 , more specifically the thickness t 7  formed as the display  700  in the phone  7  may be thinner than the thickness t 1  in the conventional phone  1  as shown in  FIG. 1  due to the gaps g 7  or g 7 ′ between the window  730  and the display unit in the display  700 .  
      Although a few embodiments of the present invention have been shown and described in detail, it would be appreciated by those skilled in the art that the description proposed herein are examples of embodiments for the purpose of illustrations only, not intended to limit the scope of the invention. And, it should be also understood that other equivalents and modifications could be made thereto without departing from the spirit and scope of the invention.  
      As described above, according to various embodiments of the present invention, the display with a window assembly and the mobile phone having the same may reduce the manufacturing cost since the final products becomes thinner, and are also easily assembled.  
      The display with a window assembly and the mobile phone having the same may improve an impact resistance against impacts applied from the outside, and may smoothly carry out its manufacturing process to increase its yield by securing an adhesion space.  
      Further, the display with a window assembly and the mobile phone having the same may smoothly carry out its process by improving a guiding efficiency upon manufacturing a window assembly, and therefore further increase its production yield.