PATENT DOCUMENT

Publication Number: US-9420714-B2
Application Number: US-201213716700-A
Country: US
Kind Code: B2

Title: Electronic device with unified display mounting structures

Abstract:
An electronic device is provided with a display such as a liquid crystal display mounted in an electronic device housing. The display has display layers such as a layer of liquid crystal material, a color filter layer, a thin-film transistor layer, and polarizer layers. The display also has backlight structures and a display cover layer. Display mounting structures are formed from a metal member that also serves as a structural midplate within the electronic device housing. Plastic reflector structures such as white plastic and plastic trim structures are molded onto the midplate. The plastic reflector structures form a rectangular recess that receives the light guide plate. The midplate has bent wall portions that form a rectangular recess that receives the display layers. The trim structures define a rectangular recess that receives the display cover layer. Protruding portions with openings attach the midplate to the housing.

Claims:
What is claimed is: 
     
       1. An electronic device, comprising:
 a housing; 
 a planar metal midplate member mounted to the housing that stiffens the housing; 
 reflector structures on the planar midplate member that form a recess; and 
 display backlight structures in the recess formed from the reflector structures. 
 
     
     
       2. The electronic device defined in  claim 1  wherein the reflector structures comprise injection molded plastic structures that are injection molded onto the planar metal midplate member. 
     
     
       3. The electronic device defined in  claim 1  wherein the planar metal midplate member has walls that form a recess and wherein the electronic device further comprises display layers mounted in the recess formed by the walls of the planar metal midplate member. 
     
     
       4. The electronic device defined in  claim 3  further comprising plastic trim structures that are injection molded onto the planar midplate member. 
     
     
       5. The electronic device defined in  claim 4  wherein the plastic trim structures form a recess and wherein the electronic device further comprises a display cover layer that is received within the recess formed by the plastic trim structures. 
     
     
       6. The electronic device defined in  claim 5  wherein the plastic trim structures include at least one opening. 
     
     
       7. The electronic device defined in  claim 6  wherein the opening has a slot shape and is formed along an edge of the planar metal midplate member to accommodate a flexible printed circuit. 
     
     
       8. The electronic device defined in  claim 6  wherein the opening comprises a circular camera window opening. 
     
     
       9. The electronic device defined in  claim 5  wherein the housing has portions that are configured to support an outer edge surface of the trim structures. 
     
     
       10. The electronic device defined in  claim 5  wherein the display cover layer has a speaker port opening and wherein the plastic trim structures include a speaker port opening that is aligned with the speaker port opening in the display cover layer. 
     
     
       11. The electronic device defined in  claim 5  further comprising a layer of adhesive that attaches the display cover layer to the plastic trim structures. 
     
     
       12. The electronic device defined in  claim 5  further comprising leg structures that attach the planar metal midplate member to the housing. 
     
     
       13. The electronic device defined in  claim 12  wherein the leg structures comprise protruding bent portions of the planar midplate member with holes. 
     
     
       14. The electronic device defined in  claim 12  wherein the leg structures comprise metal members with holes that are welded to the planar midplate member. 
     
     
       15. Display mounting structures into which a display cover layer for an electronic device is assembled, comprising:
 a sheet metal plate having a rectangular periphery; and 
 injection molded plastic trim structures that are injection molded on the sheet metal plate and that surround the periphery to create a rectangular recess that receives the display cover layer. 
 
     
     
       16. The display mounting structures defined in  claim 15  wherein the sheet metal plate has wall portions that surround a rectangular recess that is configured to receive a display backlight light guide plate with edges, the electronic device display mounting structures further comprising reflective structures around the rectangular recess that are configured to reflect light leaking from the display backlight light guide plate back into the edges. 
     
     
       17. The display mounting structures defined in  claim 16  wherein the reflective structures comprise injection molded white plastic that is injection molded onto the sheet metal plate. 
     
     
       18. The display mounting structures defined in  claim 16  wherein the reflective structures comprise white paint on the sheet metal plate. 
     
     
       19. The display mounting structures defined in  claim 16  wherein the reflective structures comprise white tape that is attached to the sheet metal plate with adhesive. 
     
     
       20. The display mounting structures defined in  claim 15  wherein the electronic device has a housing and wherein the sheet metal plate forms a structural midplate member configured to attach to the housing to prevent the housing from twisting. 
     
     
       21. Display mounting structures into which a display cover layer, liquid crystal display layers, and backlight structures including a light guide plate are assembled, the display mounting structures comprising:
 a rectangular sheet metal plate; 
 plastic reflector structures molded onto the rectangular sheet metal plate; and 
 plastic trim structures molded onto the rectangular sheet metal plate, wherein the plastic reflector structures form a first rectangular recess into which the light guide plate is mounted, wherein the rectangular sheet metal plate has wall portions that define a second rectangular recess into which the liquid crystal display layers are mounted, and wherein the plastic trim structures form a third rectangular recess into which the display cover layer is mounted. 
 
     
     
       22. The electronic device defined in  claim 21  wherein the plastic trim structures include planar portions at first and second opposing ends of the rectangular sheet metal plate and wherein the planar portion at the first end has a speaker opening and a camera opening. 
     
     
       23. The electronic device defined in  claim 22  wherein the planar portion at the second end has an opening.

Description:
BACKGROUND 
     This relates generally to electronic devices and, more particularly, to electronic devices with displays. 
     Electronic devices often include displays. For example, cellular telephones and portable computers often include displays for presenting information to a user. Displays may include backlight structures, liquid crystal display layers, and a cover glass layer. For structural support, an electronic device may sometimes be provided with an internal sheet metal support member that spans the housing walls in the device. 
     Incorporating structures such as these within the limited space available in a compact electronic device poses challenges. If care is not taken, a device may have insufficient structural support or may be undesirably bulky. 
     It would therefore be desirable to be able to provide improved configurations for providing electronic devices with structures such as internal housing support members and displays. 
     SUMMARY 
     An electronic device is provided with a display such as a liquid crystal display mounted in an electronic device housing. The display has display layers such as a layer of liquid crystal material, a color filter layer, a thin-film transistor layer, and polarizer layers. The display also has backlight structures and a display cover layer. Display mounting structures are formed from a metal member such as a stainless steel sheet metal structure that serves as a structural midplate within the electronic device housing. 
     Plastic reflector structures such as white plastic structures are molded onto the midplate in a rectangular ring shape. The plastic reflector structures form a rectangular recess that receives the light guide plate. The reflective structures reflect light that has leaked from the backlight structures back into the backlight structures to improve backlight efficiency. If desired, a reflective coating such as a layer of white paint or a tape layer may be used as reflective structures. 
     The midplate may have bent wall portions that form a rectangular recess that receives the display layers. The bent wall may have a downwardly extending portion that forms leg structures. The leg structures may be used in attaching the display mounting structures to the housing. If desired, separate leg structures may be welded to the midplate. Openings in the leg structures may be configured to receive a mating engagement feature such as a spring structure that is attached to the housing. Screws or other fasteners may also be used in attaching the leg structures and therefore the midplate and other display mounting structures to the housing. 
     The trim structures define a rectangular recess that receives the display cover layer. The trim structures may have planar portions at opposing ends of the midplate. Openings such as speaker openings, camera openings, sensor openings, and button openings may be formed in the planar portions of the trim structures. A layer of adhesive may be used to attach the planar portions of trim structures and other portions of the trim structures to the display cover layer. 
     Further features, their nature and various advantages will be more apparent from the accompanying drawings and the following detailed description of the preferred embodiments. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a perspective view of an illustrative electronic device such as a handheld electronic device with display and housing structures in accordance with an embodiment. 
         FIG. 2  is a cross-sectional side view of an illustrative display of the type that may be used in the device of  FIG. 1  in accordance with an embodiment. 
         FIG. 3  is a cross-sectional side view of a display mounting structure that is configured to provide structural support in a device housing in accordance with an embodiment. 
         FIG. 4  is a cross-sectional side view of an electronic device containing display mounting structures for mounting display components and providing structural support in a housing in accordance with an embodiment. 
         FIG. 5  is a cross-sectional side view of display mounting structures having an inner peripheral edge that has been covered with a reflective coating in accordance with an embodiment of the present invention. 
         FIG. 6  is a cross-sectional side view of display mounting structures in which a light guide plate has been mounted that has a peripheral edge coated with a reflective coating layer in accordance with an embodiment. 
         FIG. 7  is a system diagram showing how display mounting structures that are configured to provide an electronic device with structural support may be constructed in accordance with an embodiment of the present invention. 
         FIG. 8  is a perspective view of an illustrative display mounted under a display cover layer using display mounting structures having legs that engage with features on a mating device housing in accordance with an embodiment. 
         FIG. 9  is a cross-sectional side view of a portion of a display mounting structure that has a leg structure attached to an electronic device housing wall using a fastener such as a screw in accordance with an embodiment. 
         FIG. 10  is a cross-sectional side view of a portion of a display mounting structure that has a leg structure attached to an electronic device housing wall using a mating engagement feature such as a spring that engages an opening in the leg structure in accordance with an embodiment. 
         FIG. 11  is a cross-sectional side view of a portion of a display mounting structure that has a leg structure that has been formed from an integral bent portion of a sheet metal display mounting plate in accordance with an embodiment. 
         FIG. 12  is a cross-sectional side view of a portion of a display mounting structure having an insert-molded trim structure that mates with a portion of a housing wall in accordance with an embodiment of the present invention. 
         FIG. 13  is a cross-sectional side view of a corner portion of a display mounting structure attached to an electronic device housing wall so that an integral trim portion of the display mounting structure lies above the upper edge of the housing wall in accordance with an embodiment. 
         FIG. 14  is a cross-sectional side view of a corner portion of a display mounting structure attached to an electronic device housing wall so that a display cover layer that is uncovered by trim structures is mounted above the upper edge of the housing wall in accordance with an embodiment. 
         FIG. 15  is a perspective view of a portion of a display mounting structure formed from a planar sheet metal structure and plastic structures such as injection molded plastic in accordance with an embodiment. 
         FIG. 16  is a cross-sectional side view of a portion of an electronic device showing how display structures may be mounted within the device using display mounting structures formed from a sheet metal member and injection molded plastic structures in accordance with an embodiment. 
         FIG. 17  is a perspective view of illustrative display structures and display mounting structures in accordance with an embodiment. 
     
    
    
     DETAILED DESCRIPTION 
     Displays in electronic devices such as liquid crystal displays are mounted in display mounting structures. The display mounting structures include structures that support and surround layers of a backlight unit, liquid crystal display layers, and a display cover layer such as a clear layer of plastic or glass. The display mounting structures span an interior portion of a device housing to contribute structural support to the display housing. 
     Housing engagement features and trim features are integrated into the display mounting structures. The display mounting structures serve multiple functions in an electronic device such as display layer and backlight layer mounting functions, display cover layer trim and mounting functions, housing engagement functions, and housing support functions, so the display mounting structures may sometimes be referred to as unified display structures or unified display mounting structures. 
     An illustrative electronic device of the type that may be provided with unified display mounting structures such as these is shown in  FIG. 1 . In electronic device  10  of  FIG. 1 , display  14  is mounted on within housing  12 . Device  10  may be a handheld device such as a cellular telephone, music player, gaming device, navigation unit, or other compact device or may be other electronic equipment such as a computer monitor, a tablet computer, a portable computer, television equipment, etc. In the example of  FIG. 1 , housing  12  has opposing front and rear surfaces. Display  14  is mounted on the front face of housing  12 . Display  14  has an exterior layer that includes openings for components such as button  16  and speaker port  18 . Window structures such as window  20  may be formed for cameras and sensors. 
     Housing  12  of device  10 , which is sometimes referred to as a case, is formed of materials such as plastic, glass, ceramics, carbon-fiber composites and other fiber-based composites, metal (e.g., machined aluminum, stainless steel, or other metals), other materials, or a combination of these materials. Device  10  may be formed using a unibody construction in which most or all of housing  12  is formed from a single structural element (e.g., a piece of machined metal or a piece of molded plastic) or may be formed from multiple housing structures (e.g., outer housing structures that have been mounted to internal frame elements or other internal housing structures). 
     Display  14  may be a touch sensitive display that includes a touch sensor or may be insensitive to touch. Touch sensors for display  14  may be formed from an array of capacitive touch sensor electrodes, a resistive touch array, touch sensor structures based on acoustic touch, optical touch, or force-based touch technologies, or other suitable touch sensor components. 
     Display  14  for device  10  includes display pixels formed from liquid crystal display (LCD) components or other suitable image pixel structures. 
     A display cover layer may cover the surface of display  14  or a display layer such as a color filter layer or other portion of a display may be used as the outermost (or nearly outermost) layer in display  14 . The outermost display layer may be formed from a transparent glass sheet, a clear plastic layer, or other transparent member. 
     Central rectangular region AA of display  14  forms an active area that includes an array of display pixels. The display pixels produce images for the user of device  10 . Display  14  has an inactive border region IA that surrounds active region AA. In inactive border region IA, the underside of the outermost glass or plastic layer of device  10  is provided with a layer of black ink or other opaque masking material. Inactive border region IA is free of display pixels and does not produce images for the user of device  10 . If desired, openings such as an opening associated with window  20  of  FIG. 1  can be provided in the opaque masking layer to accommodate proximity sensors, ambient light sensors, cameras, and other device that receive or transmit light through the display cover layer of display  14 . 
     A cross-sectional side view of an illustrative configuration for display  14  of device  10  is shown in  FIG. 2 . As shown in  FIG. 2 , display  14  includes backlight structures such as backlight unit  42  for producing backlight  44 . During operation, backlight  44  travels outwards (vertically upwards in dimension Z in the orientation of  FIG. 2 ) and passes through display pixel structures in display layers  46 . This illuminates any images that are being produced by the display pixels for viewing by a user. For example, backlight  44  illuminates images on display layers  46  that are being viewed by viewer  48  in direction  50 . 
     Display layers  46  form a liquid crystal display or may be used in forming displays of other types. Touch sensor structures such as capacitive touch sensor array structures formed from patterned indium tin oxide electrodes may be integrated into display layers  46  (e.g., to form a touch screen display). 
     In a configuration in which display layers  46  are used in forming a liquid crystal display, display layers  46  include a liquid crystal layer such a liquid crystal layer  52 . Liquid crystal layer  52  is sandwiched between display layers such as display layers  58  and  56 . Layers  56  and  58  are interposed between lower polarizer layer  60  and upper polarizer layer  54 . 
     Layers  58  and  56  are formed from transparent substrate layers such as clear layers of glass or plastic. Layers  56  and  58  are layers such as a thin-film transistor layer (e.g., a thin-film-transistor substrate such as a glass layer coated with a layer of thin-film transistor circuitry) and/or a color filter layer (e.g., a color filter layer substrate such as a layer of glass having a layer of color filter elements such as red, blue, and green color filter elements arranged in an array). Conductive traces, color filter elements, transistors, and other circuits and structures are formed on the substrates of layers  58  and  56  (e.g., to form a thin-film transistor layer and/or a color filter layer). Touch sensor electrodes may also be incorporated into layers such as layers  58  and  56  and/or touch sensor electrodes may be formed on other substrates. 
     With one illustrative configuration, layer  58  is a thin-film transistor layer that includes an array of thin-film transistors and associated electrodes (display pixel electrodes) for applying electric fields to liquid crystal layer  52  and thereby displaying images on display  14 . Layer  56  is a color filter layer that includes an array of color filter elements for providing display  14  with the ability to display color images. If desired, layer  58  may be a color filter layer and layer  56  may be a thin-film transistor layer. 
     During operation of display  14  in device  10 , control circuitry (e.g., one or more integrated circuits such as components  68  on printed circuit  66  of  FIG. 2  and/or other circuitry) is used to generate information to be displayed on display  14  (e.g., display data). The information to be displayed is conveyed from circuitry  68  to display driver integrated circuit  62  using a signal path such as a signal path formed from conductive metal traces in flexible printed circuit  64  (as an example). 
     Display driver circuitry such as display driver integrated circuit  62  of  FIG. 2  is mounted on thin-film-transistor layer driver ledge  82  or elsewhere in device  10 . A flexible printed circuit cable such as flexible printed circuit  64  is used in routing signals between printed circuit  66  and thin-film-transistor layer  58 . If desired, display driver integrated circuit  62  may be mounted on printed circuit  66  or flexible printed circuit  64 . Printed circuit  66  is formed from a rigid printed circuit board (e.g., a layer of fiberglass-filled epoxy) or a flexible printed circuit (e.g., a flexible sheet of polyimide or other flexible polymer layer). 
     Backlight structures  42  include a light guide plate such as light guide plate  78 . Light guide plate  78  is formed from a transparent material such as clear glass or plastic. During operation of backlight structures  42 , a light source such as light source  72  generates light  74 . Light source  72  may be, for example, an array of light-emitting diodes. Light source  72  may be located under driver ledge  82  or, as shown in  FIG. 2 , may be mounted adjacent to light guide plate  78  on an opposing edge of display  14 . 
     Light  74  from one or more light sources such as light source  72  is coupled into one or more corresponding edge surfaces such as edge surface  76  of light guide plate  78  and is distributed in dimensions X and Y throughout light guide plate  78  due to the principal of total internal reflection. Light guide plate  78  includes light-scattering features such as pits or bumps. The light-scattering features are located on an upper surface and/or on an opposing lower surface of light guide plate  78 . 
     Light  74  that scatters upwards in direction Z from light guide plate  78  serves as backlight  44  for display  14 . Light  74  that scatters downwards is reflected back in the upwards direction by reflector  80 . Reflector  80  is formed from a reflective material such as a layer of white plastic or other shiny materials. 
     To enhance backlight performance for backlight structures  42 , backlight structures  42  include optical films  70 . Optical films  70  include diffuser layer structures for helping to homogenize backlight  44  and thereby reduce hotspots, compensation film structures for enhancing off-axis viewing, and one or more brightness enhancement films (also sometimes referred to as turning films) for collimating backlight  44 . Optical films  70  overlap the other structures in backlight unit  42  such as light guide plate  78  and reflector  80 . For example, if light guide plate  78  has a rectangular footprint in the X-Y plane of  FIG. 2 , optical films  70  and reflector  80  preferably have a matching rectangular footprint. 
     The outermost layer of display  14  may be a protective display layer such as a layer of glass that covers layers  46  or a display layer such as color filter layer  56  (e.g., a glass substrate layer in layer  56 ) may serve as the outermost structural layer in display  14 . 
     Display mounting structures such as display mounting structures  90  of  FIG. 3  allow display structures to be assembled together to form display  14  of  FIG. 1 . Display structures  90  in the example of  FIG. 3  include a planar member such as plate  92 . Plate  92  may be formed from plastic, metal, carbon-fiber composites and other fiber-based composites, or other suitable materials. As an example, plate  92  can be formed from a relatively stiff material such as stainless steel sheet metal. The thickness of plate  92  may be less than 0.5 mm, less than 0.2 mm, or other suitable thickness. Plate  92  may be mounted in the middle of device housing  12 , so plate  92  may sometimes be referred to as a midplate or metal midplate structure. The presence of midplate  92  within device housing  12  may help prevent housing  12  from twisting during operation by a user. 
     Midplate  92  has a rectangular shape when viewed in direction  50 . Edges  100  of plate  92  may, if desired, be bent. In the example of  FIG. 3 , edges  100  have been bent vertically to form vertical sidewall portions. 
     Plastic or other materials may be attached to midplate  92 . For example, plastic structures  94  may be injection molded onto midplate  92  in a rectangular ring shape following the rectangular interior surface of sidewalls  100 . Plastic structures  94  can be formed from a reflective material such as white plastic to serve as light reflectors that help redirect light leaking from the edges of a light guide plate in backlight structures  42  (e.g., light guide plate  78  of  FIG. 2 ) back into the light guide plate, thereby improving backlight efficiency. 
     Trim structures such as plastic trim structures  102  can also be injection molded onto midplate  92 . For example, midplate  92  may have a rectangular shape with a peripheral edge that is surrounded by trim structures  102 . Trim structures  102  may run along the peripheral edge so as to create a rectangular recess into which a rectangular display cover layer may be received. 
     Plastic structures such as structures  94  and  102  may, in general, be formed from any suitable polymeric materials. Structures  94  and  102  may, for example, be formed from thermoplastic materials such as polycarbonate or other plastics that can be molded using injection molding equipment (e.g., to perform insert molding operations). If desired, some or all of structures  94  and  102  may be formed from thermoset materials such as epoxy. Configurations in which structures  94  and  102  are formed from thermoplastics are sometimes described herein as an example. 
     Trim structures  102 , midplate walls  100 , and reflective structures  94  form integral parts of unified display mounting structure  90  and are configured to form rectangular recesses that receive display structures such as backlight unit  42 , display layers  46 , and display cover layer  98 . For example, the lateral spacing W3 between opposing reflective structures  94  on either side of device  10  is configured to receive backlight structures  42  (i.e., the opening formed between reflective structures  94  is sized appropriately to serve as a rectangular receptacle into which rectangular backlight structures  42  are mounted). The lateral spacing W2 between the upper inner edge portions of walls  100  (i.e., the portions of walls  100  that are not covered by reflective plastic structures  94 ) is configured to receive display layers  46  (i.e., the opening formed between the uncoated upper portions of walls  100  is sized appropriately to serve as a rectangular receptacle into which rectangular display layers  46  are mounted). Trim structures  102  of  FIG. 3  are likewise configured to form vertical walls surrounding a rectangular opening that serves as a receptacle into which display cover layer  98  is mounted. The unified nature of display mounting structures  90  allows device size to be minimized while retaining sufficient structural support for housing  12 . 
       FIG. 4  is a cross-sectional side view of device  10  in a configuration in which display  14  has been assembled by mounting display cover layer  98  within the opening formed between trim structures  102 , by mounting display layers  46  within the opening formed between opposing portions of uncovered walls  100  of midplate member  92 , and by mounting backlight structures  42  within the opening formed between opposing reflective structures  94 .  FIG. 4  also shows how housing  12  may surround and enclose trim structures  102  (as an example). Components  68  are mounted on one or more substrates such as substrate  66  within housing  12 . Midplate  92  adds structural support to housing  12 , so that housing  12  resists twisting during use. Unified display mounting structures  90  provide structural support using midplate  92  while providing recesses that allow the components of display  14  to be mounted in device  10 . 
     If desired, reflective structures  94  may be implemented using a thin reflective layer on the interior surface of wall  100  of midplate  92 , as illustrated by reflective layer  94  of  FIG. 5 . Layer  94  of  FIG. 5  may be formed from a coating of white paint, white tape that has a layer of pressure sensitive adhesive for attaching the tape to wall  100  of midplate  92 , or other thin reflective material. During operation, light from light guide plate  78  in backlight structures  42  that escapes from the edge of light guide plate  78  will be reflected back into light guide plate  78  by coating  94  to enhance backlight efficiency. In the example of  FIG. 6 , reflective material  94  has been formed on the peripheral edge of backlight structures  42  (e.g., on the edges of light guide plate  78  other than the edge into which light  74  is being launched). Reflective material  94  of  FIG. 6  may be white paint, metal, plastic or other reflective coatings. 
       FIG. 7  is a system diagram showing how display mounting structures  90  may be formed. In the example of  FIG. 7 , display mounting structures  90  are being formed from a metal sheet and integrally formed injection-molded plastic structures. Other approaches for forming display mounting structures  90  may be used if desired (e.g., by forming structures  90  from different materials, by forming coatings or attaching tape layers as described in connection with  FIGS. 5 and 6 , etc.). The configuration of  FIG. 7  is merely illustrative. 
     As shown in  FIG. 7 , sheet metal  106  is stamped into a desired shape using stamping tool  108  or other manufacturing equipment. Sheet metal  106  may, for example, be formed using laser cutting, machining, bending, etc. 
     After forming midplate member  92  from sheet metal  106  using tool  108 , injection-molded plastic structures such as reflective structures  94  and trim structures  102  are formed. As shown in  FIG. 7 , plastic  110  for forming structures  94  and  102  is received by injection molding tool  112  or other equipment for forming plastic parts. Tool  112  may form structures  94  and/or structures  102  as integrally molded parts on midplate  92 . One or more shots of plastic  110  may be used in creating structures  94  and  102 , as illustrated schematically by line  114 . For example, tool  112  may form structures  94  from a shot of white plastic and may form structures  102  from a shot of black plastic (as an example). Midplate  92  may be provided with holes or other engagement features to help ensure a satisfactory bond between the injection molded plastic and metal midplate  92 . 
     Following injection molding operations with injection molding tool  112 , display mounting structures  90  include reflective structures  94  and trim structures  102 . During injection molding operations, openings may be formed in the plastic structures. As shown in  FIG. 7 , openings that may be formed in the injection molded plastic of structures  90  include openings such as speaker opening  116  in trim structures  102  to form speaker port  18  of  FIG. 1 , button opening  120  in trim structures  102  to accommodate buttons such as button  16  of  FIG. 1 , and one or more additional openings such as opening  118  (e.g., to accommodate proximity sensors, ambient light sensors, camera sensors, or other components associated with a window such as window  20  of  FIG. 1 ). 
       FIG. 8  is an exploded perspective view of device  10  in a configuration in which display mounting structures  90  have been used to form display  14 . As shown in  FIG. 8 , display mounting structures  90  may be provided with downwardly protruding structures such as legs  122 . Legs  122  may have openings  124 . Legs  122  may be formed as an integral portion of midplate member  92  or may be attached to midplate member  92  using welds (e.g., in scenarios in which legs  122  are formed from metal). Legs  122  may be used in attaching display  14  to housing  12 . 
       FIGS. 9 and 10  are cross-sectional side views of device  10  taken through a portion of the right edge of device  10  of  FIG. 1 . 
     In the configuration of  FIG. 9 , a fastener such as screw  126  has a shaft such as shaft  128  that passes through opening  124  and screws into a threaded hole in housing  12 . This allows legs  122  to be used in attaching display mounting structures  90  to housing  12 . Welds such as weld  130  are used in attaching legs  122  such as metal legs to midplate  92 . 
     In the configuration of  FIG. 10 , spring  132  has been welded to inner surface  134  of housing wall  12 . Spring  132  forms an engagement feature on housing wall  12  that protrudes into opening  124  and thereby attaches leg  122  and display mounting structures  90  to housing  12 . 
     As shown in  FIG. 11 , legs  122  may be formed as integral portions of midplate  92 . In particular, portions of midplate  92  may be bent to form each downwardly protruding leg structure  122 . Optional welds  130  provide additional structural support. 
       FIG. 12  is a cross-sectional side view of a portion of device  10  along the right edge of display  14  showing how housing  12  may have a feature such as trim support feature  136  for receiving and supporting trim structures  102 . Trim support feature  136  of  FIG. 12  is formed from a curved inner surface on housing wall  12  that is configured to mate with the outer shape of trim structures  102 . Other trim support configurations may be used, if desired. Adhesive  140  is used to attach display cover layer  98  to trim structures  102  and midplate wall  100  of display mounting structures  100 . Adhesive  138  attaches display cover layer  98  to display layers  46 . 
     In the illustrative configuration of  FIG. 13 , trim structures  102  are formed on top of the upper edge of housing wall  12 . If desired, side portion  102 ′ of trim structures  102  may be used to cover peripheral edge  142  of display cover layer  98 . Portion  102 ′ of trim structures  102  may be omitted so that edge  142  is left uncovered. 
       FIG. 14  is a cross-sectional view of a side portion of device  10  in an illustrative configuration in which trim structures  102  have been omitted from display mounting structures  90 . Peripheral edge  142  of display cover layer  98  has been left exposed and uncovered by trim structures  102 . In the configuration of  FIG. 14 , housing  12  is located below the lower surface of display cover layer  98 . 
     As shown in the perspective view of  FIG. 15 , display mounting structures  90  may be configured to create one or more openings such as opening  150 . Opening  150  in the illustrative configuration of  FIG. 15  has been formed in the shape of a thin slot between trim structures  102  and midplate  92 . The slot-shaped opening may be used to accommodate a structure such as a flexible printed circuit. 
     A cross-sectional side view of device  10  taken through button  16  of  FIG. 1  in a configuration in which device  10  has a slot-shaped opening such as opening  150  of  FIG. 15  is shown in  FIG. 16 . As shown in  FIG. 16 , button  16  may reside above opening  150  and planar portions of trim structures  102 . Flexible printed circuit  64  (see, e.g.,  FIG. 2 ) passes through opening  150  to link components  68  on substrate  66  ( FIG. 2 ) with driver integrated circuit  62  and other circuitry in display layers  46 . 
       FIG. 17  is a perspective view of illustrative layers of structures for forming display  14  in device  10 . Display mounting structures  90  have recesses for receiving display components such as reflector  80  and other backlight structures  42 , display layers  46 , and display cover layer  98 . Adhesive  140  is preferably interposed between the lower surface of display cover layer  98  (e.g., in inactive regions IA) and corresponding upper planar surfaces  166  of the planar portions at the opposing first and second ends of trim structures  102  (i.e., the top of the extended rectangular planar portions of structures  102  that are molded onto the first and second opposing ends of midplate  92 ). Using adhesive  140 , display cover layer  98  is attached to display mounting structures  90 . A ring of tape such as tape ring  162  serves as a vertical spacer that prevents layers  70  in backlight structures  42  from contacting the lower portions of display layers  46 . 
     The foregoing is merely illustrative and various modifications can be made by those skilled in the art without departing from the scope and spirit of the described embodiments. The foregoing embodiments may be implemented individually or in any combination.

Metadata:
Filing Date: 20121217
Publication Date: 20160816
Grant Date: 20160816
Priority Date: 20121217
Inventors: LIN WEY-JIUN
Assignee: APPLE INC
CPC Classifications: [{"code": "G02F1/133308", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F2001/133322", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F2001/133317", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F2001/133331", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133615", "inventive": true, "first": false, "tree": "[]"}, {"code": "H05K7/00", "inventive": true, "first": true, "tree": "[]"}, {"code": "G02F2001/133314", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133308", "inventive": true, "first": true, "tree": "[]"}, {"code": "G02F1/133615", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F1/133317", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133322", "inventive": false, "first": false, "tree": "[]"}, {"code": "H04M1/0266", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F1/133308", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F1/133331", "inventive": false, "first": false, "tree": "[]"}, {"code": "H05K7/00", "inventive": true, "first": true, "tree": "[]"}, {"code": "G02F1/133317", "inventive": false, "first": false, "tree": "[]"}, {"code": "H04M1/22", "inventive": false, "first": false, "tree": "[]"}, {"code": "H04M1/22", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133331", "inventive": false, "first": false, "tree": "[]"}, {"code": "H04M1/0266", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F1/133615", "inventive": true, "first": false, "tree": "[]"}, {"code": "G02F1/133314", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133314", "inventive": false, "first": false, "tree": "[]"}, {"code": "G02F1/133322", "inventive": false, "first": false, "tree": "[]"}]
Family ID: 49551823