PATENT DOCUMENT

Publication Number: US-10590600-B1
Application Number: US-201715408215-A
Country: US
Kind Code: B1

Title: Illumination systems within fabric-based devices

Abstract:
An item such as a fabric-based item may have a layer of fabric with openings that are illuminated by a light source. The openings may form symbols or other shapes and may serve as labels for keyboard keys or other components. The fabric may be formed from transparent strands of material that are coated with opaque material or may be formed from opaque strands of material in which openings are formed by laser drilling. The openings may be covered with a transparent coating layer such as a translucent polymer coating. Translucent material on the fabric may be patterned to form parts of the labels or other shapes created by the illuminated openings.

Claims:
What is claimed is: 
     
       1. A fabric-based item, comprising:
 a light source; 
 fabric comprising intertwined strands of material, wherein the fabric has opposing first and second surfaces; 
 at least first and second openings in the fabric, wherein the first and second openings are part of an array of openings in the fabric having an alphanumeric symbol shape; 
 a coating that overlaps the first and second openings, wherein the coating has a first portion located on the first surface of the fabric and a second portion that extends at least partially through the first and second openings, wherein the first and second openings are illuminated by the light source so that light passes through at least some of the coating, and wherein the alphanumeric symbol shape has a border that aligns with edges of the coating; and 
 a movable structure, wherein the first and second openings overlap the movable structure. 
 
     
     
       2. The fabric-based item defined in  claim 1  wherein the movable structure comprises a movable key member for a keyboard key and wherein the alphanumeric symbol shape forms a label for the keyboard key. 
     
     
       3. The fabric-based item defined in  claim 1  wherein the light source supplies light that passes through the first and second openings from the second surface to the first surface. 
     
     
       4. The fabric-based item defined in  claim 1  further comprising an opaque layer having a patterned opening aligned with at least one of the first and second openings in the fabric. 
     
     
       5. The fabric-based item defined in  claim 1  wherein the intertwined strands of material comprise strands of polymer and wherein the first and second openings each comprise a laser drilled opening having sidewalls formed from melted portions of the strands of polymer. 
     
     
       6. The fabric-based item defined in  claim 5  wherein the coating comprises a translucent polymer coating. 
     
     
       7. The fabric-based item defined in  claim 5  wherein the coating comprises a haze-free clear polymer coating. 
     
     
       8. The fabric-based item defined in  claim 1  further comprising transparent material in at least one of the first and second openings. 
     
     
       9. The fabric-based item defined in  claim 8  wherein the intertwined strands of material comprise opaque strands of material and transparent strands of material, and wherein the transparent material is formed from the transparent strands of material. 
     
     
       10. The fabric-based item defined in  claim 8  wherein the intertwined strands of material comprise opaque strands of material and transparent strands of material, wherein the transparent material is formed from the transparent strands of material, and wherein the fabric-based item further comprises an opaque layer having a patterned symbol-shaped opening that overlaps at least one of the first and second openings in the fabric. 
     
     
       11. A fabric-based item, comprising:
 a light source; 
 fabric; 
 perforations in the fabric; and 
 a coating that overlaps the perforations, wherein the perforations are illuminated by the light source so that light passes through at least some of the coating, wherein the fabric has opposing first and second surfaces, wherein the coating covers at least part of the first surface, wherein the light source supplies light that passes through the perforations from the second surface to the first surface, wherein the coating is patterned to form an alphanumeric symbol that is visible on the first surface, wherein the perforations form a border around an alphanumeric symbol shape that matches the alphanumeric symbol formed by the coating, and wherein the border formed by the perforations aligns with edges of the coating. 
 
     
     
       12. The fabric-based item defined in  claim 11  wherein the alphanumeric symbol comprises a letter and wherein the perforations run along at least one edge of the letter. 
     
     
       13. The fabric-based item defined in  claim 11  wherein the alphanumeric symbol comprises a letter and wherein the perforations form an array of perforations covering the letter. 
     
     
       14. Apparatus, comprising:
 a movable member; 
 fabric that overlaps the movable member and that has an array of openings overlapping the movable member, wherein the array of openings has a symbol shape and wherein a density of the openings varies as a function of distance across the fabric; 
 a light source that illuminates the array of openings; 
 transparent polymer in the openings through which light from the light source passes; and 
 a key web having a hole that receives the movable member, wherein the array of openings overlaps the hole. 
 
     
     
       15. The apparatus defined in  claim 14  wherein the movable member comprises a keyboard key member for a keyboard key, the apparatus further comprising:
 a printed circuit; and 
 a switch on the printed circuit that is controlled by pressing the keyboard key member. 
 
     
     
       16. The apparatus defined in  claim 15  wherein the symbol shape forms a keyboard key label for the keyboard key and wherein the light source illuminates the keyboard key label by providing light to the array of openings.

Description:
CROSS-REFERENCE TO RELATED APPLICATION 
     This application claims the benefit of provisional patent application No. 62/280,387 filed Jan. 19, 2016, which is hereby incorporated by reference herein in its entirety. 
    
    
     FIELD 
     This relates generally to fabric-based items, and, more particularly, to systems for providing fabric-based items with illumination. 
     BACKGROUND 
     Fabric can be formed by weaving and other techniques for intertwining strands of material. Fabric is sometimes used in forming structures in electronic equipment. A layer of fabric may, for example, be used to cover the keys in a keyboard. 
     In some keyboards, internal light sources are used to backlight key labels. The incorporation of a fabric cover layer in a keyboard poses challenges. If care is not taken, key labels may not be visible, keyboard structures may not be durable, or keyboard structures may be bulkier than desired. Similar challenges may arise in connection with other types of fabric-based items containing sources of illumination. 
     SUMMARY 
     An item such as a fabric-based item may have a layer of fabric with illuminated openings. The openings may form symbols such as letters and other characters and may be patterned to form labels for keyboard keys or other components. 
     The fabric may be transparent and may be coated with opaque material or may be formed from opaque strands of material. An opaque coating on a transparent fabric or transparent strands of material that are formed in selected areas of an opaque fabric may be patterned to form transparent openings. Patterned opaque coating layers may also be formed on keyboard keys and other structures. 
     Openings in fabric may be covered with a coating such as a transparent polymer coating or may be free of coating layer material. The polymer coating may be formed from a translucent material that is visible on the exterior of the fabric and may be patterned to form parts of the labels or other shapes created by the illuminated openings. 
     The item may be a fabric-covered keyboard or other item with movable structures. In an item such as a fabric keyboard, a fabric layer may overlap an array of movable keyboard key members, each of which is associated with a respective keyboard key and controls operation of an associated switch on a printed circuit. The illuminated openings may form labels for the keyboard keys and may be provided with illumination from light sources mounted on the printed circuit. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a schematic diagram of an illustrative fabric-based item with circuitry in accordance with an embodiment. 
         FIG. 2  is a cross-sectional side view of illustrative fabric in accordance with an embodiment. 
         FIG. 3  is a cross-sectional side view of a fabric layer with an illuminated opening in accordance with an embodiment. 
         FIG. 4  is a top view of an illuminated fabric structure such as a keyboard key in accordance with an embodiment. 
         FIG. 5  is a top view of an illustrative fabric structure with an illuminated opening such as an illuminated symbol in accordance with an embodiment. 
         FIG. 6  is a top view of an illustrative fabric structure with a symbol having peripheral illuminated perforations in accordance with an embodiment. 
         FIG. 7  is a top view of an illustrative fabric structure with a symbol having curved edges with illuminated perforations in accordance with an embodiment. 
         FIG. 8  is a top view of an illustrative structure with a symbol that is illuminated using perforations that fill the symbol in accordance with an embodiment. 
         FIG. 9  is a diagram of illustrative equipment and structures involved in forming a fabric-based item with illumination in accordance with an embodiment. 
         FIG. 10  is a cross-sectional side view of an illustrative structure with illuminated openings in accordance with an embodiment. 
         FIG. 11  is a cross-sectional side view of an illustrative structure with illuminated openings and an underlying structural component such as a keyboard key or other movable member in accordance with an embodiment. 
         FIG. 12  is a cross-sectional side view of an illustrative opaque fabric layer with illuminated openings in accordance with an embodiment. 
         FIG. 13  is a cross-sectional side view of an illustrative transparent fabric layer with an associated opaque layer such as an opaque coating having illuminated openings in accordance with an embodiment. 
         FIG. 14  is a cross-sectional side view of an illustrative opaque fabric with a clear window and a patterned opaque layer in accordance with an embodiment. 
         FIG. 15  is a cross-sectional side view of an illustrative opaque fabric with embedded clear fabric portions in accordance with an embodiment. 
         FIG. 16  is a cross-sectional side view of an illustrative opaque fabric layer having an area that overlaps a clear layer in accordance with an embodiment. 
         FIG. 17  is a cross-sectional side view of the illustrative opaque fabric layer of  FIG. 16  in which material has been removed in an area that overlaps the clear layer so that the clear layer fills an opening in the opaque fabric layer in accordance with an embodiment. 
         FIG. 18  is a top view of a region of fabric having a label formed from edge lit optical fibers in accordance with an embodiment. 
         FIG. 19  is a cross-sectional side view of an illustrative fabric layer having illuminated openings and having an upper surface with a region that is covered with a coating layer that overlaps the openings in accordance with an embodiment. 
         FIG. 20  is a cross-sectional side view of an illustrative fabric layer having illuminated openings and having a lower surface with a region that is covered with a coating that overlaps the openings in accordance with an embodiment. 
         FIG. 21  is a cross-sectional side view of an illustrative fabric layer having illuminated openings and a coating that overlaps portions of the upper and lower surfaces of the fabric layer at the openings in accordance with an embodiment. 
         FIG. 22  is a cross-sectional side view of an illustrative fabric layer having illuminated openings and a coating material that extends across the entire surface of the fabric layer in accordance with an embodiment. 
         FIG. 23  is a cross-sectional side view of an illustrative fabric layer having illuminated openings aligned with corresponding openings in an underlying opaque layer on a structure such as a movable member for a key or other structure in accordance with an embodiment. 
         FIG. 24  is a cross-sectional side view of an illustrative keyboard having keys that are covered with a fabric layer having illuminated openings for forming key labels in accordance with an embodiment. 
         FIG. 25  is a top view of an illustrative fabric layer having an array of openings with a density that varies as a function of distance across the fabric layer in accordance with an embodiment. 
     
    
    
     DETAILED DESCRIPTION 
     Fabric and other materials may be used in forming fabric-based items. For example, fabric may be used in forming portions of a stand-alone electronic device such as a cellular telephone, tablet computer, wrist-watch device, laptop computer, media player, pendant device, a device embedded in eyeglasses or other equipment worn on a user&#39;s head, or other electronic equipment, may be used in forming a strap, a case, a cover, or other accessory for an electronic device (e.g., a cover or other accessory that includes a keyboard), may be used in forming accessories such as headphones, may be used in forming straps, pockets, walls in a bag, or parts of other enclosures, may be used in forming seating or other furniture for a home or office, may be used in forming a seat, dashboard, steering wheel, seatbelt, or other item in a vehicle, may be used in forming part of an embedded system such as a system in which fabric-based equipment is mounted in a kiosk, may be used in forming wearable items such as a necklace, wrist band, arm band, shoe, or other item of clothing, may be used in forming a wallet or purse, may be used in forming cushions, blankets, or other household items, may be used in forming toys, may be used in forming other equipment with circuitry, or may be used in forming structures that implement the functionality of two or more of these items. 
     Items such as these may include circuitry for supporting input-output features and other functionality. In some configurations, the circuitry may contain a light source for generating light that is viewable by a user of the item. The light may be used as general purpose illumination (e.g., light to illuminate an interior portion of a bag or other enclosure), may be used as light that illuminates a user&#39;s ambient environment (as with a flashlight), may be used to illuminate a symbol, or other patterned structure on the surface of a keyboard or other item (e.g., a keyboard key label), may serve as backlight illumination or per-pixel illumination for a display having an array of individually adjustable pixels, may provide illumination for a status indicator (e.g., a one-element or multi-element battery strength indicator, a wireless signal strength indicator, a power status indicator, or other symbol for a status indicator), may support wireless light-based communications (e.g., with external equipment), and/or may be used in other light-based applications. Arrangements in which the circuitry of an item includes one or more light sources for providing illumination for a patterned opening in a fabric-based item such as a symbol (glyph) on a keyboard key (e.g., a keyboard key label or other label, etc.) or other pattern may sometimes be described herein as an example. This is, however, merely illustrative. Arrangements in which the light source structures are included in the circuitry of other types of items (e.g., other suitable structures having illuminated symbols and other patterns) and in which other types of illumination are generated may be used, if desired. 
     An illustrative arrangement for an item that includes circuitry with one or more light sources is shown in  FIG. 1 . As shown in  FIG. 1 , item  10  may be a fabric-based item (as an example). The fabric of item  10  may form all or part of a housing wall for item  10 , may form internal structures for item  10 , may form surface structures for item  10 , or may form other fabric-based structures. The fabric of item  10  may be soft (e.g., item  10  may have a fabric surface that yields to a light touch), may have a rigid feel (e.g., the surface of item  10  may be formed from a stiff fabric), may be coarse, may be smooth, may have ribs or other patterned textures, and/or may be formed as part of a structure that has portions formed from non-fabric structures of plastic, metal, glass, crystalline materials, ceramics, or other materials. 
     Item  10  may have control circuitry  16 . Control circuitry  16  may include storage and processing circuitry for supporting the operation of item  10 . The storage and processing circuitry may include storage such as hard disk drive storage, nonvolatile memory (e.g., flash memory or other electrically-programmable-read-only memory configured to form a solid state drive), volatile memory (e.g., static or dynamic random-access-memory), etc. Processing circuitry in control circuitry  16  may be used to control the operation of item  10 . The processing circuitry may be based on one or more microprocessors, microcontrollers, digital signal processors, baseband processors and other wireless communications circuits, power management units, audio chips, application specific integrated circuits, etc. 
     Input-output circuitry in item  10  such as input-output devices  18  may be used to allow data to be supplied to item  10  and to allow data to be provided from item  10  to external devices. During operation, control circuitry  16  may use input-output devices  18  to gather input from a user, external equipment, and/or the environment around item  10 . Control circuitry  16  may also use input-output devices  18  to provide output to a user or external equipment. 
     Input-output devices  18  may include switches, buttons, joysticks, scrolling wheels, touch pads, key pads, keyboards, microphones, speakers, tone generators, vibrators, cameras, sensors such as touch sensors, capacitive proximity sensors, light-based proximity sensors, ambient light sensors, compasses, gyroscopes, accelerometers, moisture sensors, force sensors, data ports, displays, and other input-output devices. Keys, buttons, status indicators, displays, trim structures, and other portions of item  18  may be illuminated. For example, light-emitting diodes, lamps, electroluminescent panels, or other sources of light may be used in illuminating patterned openings. The patterned openings may pass through fabric in item  10  and/or other layers of material and may form symbols (e.g., letters and other alphanumeric characters, icons, etc.) or other illuminated shapes. The symbols or other patterned openings may form labels on keys, buttons, or other input-output devices, may form labels on other illuminated structures, may form trim for a component (e.g., a halo surrounding a key), or may form other suitable illuminated area. Arrangements in which patterned openings or other transparent structures in one or more fabric layers in item  10  are used in forming illuminated letters or other symbols that serve as labels for input-output components such as keys and buttons may sometimes be described herein as an example. In general, however, input-output devices  18  may include one or more light sources that provide any suitable type of illumination for a user of item  10 . 
     Fabric for item  10  may be formed from intertwined strands of material. A cross-sectional side view of an illustrative layer of fabric for item  10  is shown in  FIG. 2 . As shown in  FIG. 2 , fabric  20  may include strands of material such as strands  22  and strands  24 . With one suitable arrangement, fabric  20  may be a woven fabric (e.g., strands  22  may be warp strands and strands  24  may be weft strands). Other arrangements may be used for intertwining strands of material for forming fabric  20  for item  10 , if desired. In general, fabric  20  may be woven, knitted, braided, may be intertwined to form felt, or may contain strands of material that have been intertwined using other intertwining techniques. In some arrangements, fabric  20  may include coatings (e.g., polymer coatings to prevent accumulation of dirt, materials that serve as moisture barrier layers, wear resistant coatings, transparent coatings such as patterned translucent coatings, etc.). These coating materials may penetrate into fabric  20  and/or may form layers on the inner and/or outer surfaces of fabric  20 . 
     The strands of material that form the fabric may be monofilaments, may be multifilament strands (sometimes referred to herein as yarns or threads), may be formed from metal (e.g., metal monofilaments and/or yarns formed from multiple monofilament wires), may be formed from dielectric (e.g., polymer monofilaments and yarns formed from multiple polymer monofilaments), may include dielectric cores covered with conductive coatings such as metal (e.g., metal coated dielectric monofilaments and yarns of metal coated polymer-core monofilaments may be used to form conductive monofilaments and conductive yarns, respectively), may include outer insulating coatings (e.g., coatings of polymers or other dielectrics may surround each metal-clad polymer monofilament or each collection of metal-clad polymer monofilaments in a yarn, polymer insulation may enclose a multifilament metal wire, etc.), or may be other suitable strands of material for forming fabric. 
     As shown in the illustrative configuration of fabric  20  of  FIG. 2 , for example, strands such as strands  22  and  24  may be formed from strands of yarn that each contain multiple monofilaments  26 . Configurations in which the fabric is formed from yarns (e.g., multifilament strands of material that are insulating or that contain metal wires and/or metal coatings on polymer monofilaments to render the yarns conductive) may sometimes be described herein as an example. This is, however, merely illustrative. Fabric  20  may be formed using monofilaments, multifilament strands of material (yarns), combinations of these arrangements, etc. The diameter of strands  22  and  24  that are formed from yarns containing multiple monofilaments may be, for example, 0.25 mm, may be 0.1 to 0.5 mm, may be more than 0.2 mm, may be less than 2 mm, or may be any other suitable diameter (width). 
     To allow light to pass through fabric  20  in item  10 , fabric  20  and/or other layers of material in item  10  may be provided with transparent portions. The transparent portions may be formed from air-filled openings in opaque fabric and/or other opaque materials, may be formed from openings that are filled with transparent material (e.g., haze-free clear material or hazy translucent material), or may be formed from other structures that allow light to pass. In some configurations, an opaque fabric coating or other opaque layer may be provided with a patterned opening in addition to or instead of providing fabric  20  with patterned openings. Combinations of these approaches and/or other arrangements for providing illuminated structures in item  10  may be used, if desired. 
     A side view of an illustrative fabric-based item having a layer of material such as a fabric layer with an opening is shown in  FIG. 3 . As shown in  FIG. 3 , a viewer such as viewer  30  may view exterior surface  34  of item  10  in direction  32 . Item  10  may include a layer material such as layer  20  that forms outer surface  34 . Layer  20  may include one or more layers of fabric or other materials (e.g., layer  20  may be a layer of fabric and/or may have other layers of material such as plastic layers or other layers of material, and/or other structures). A light source such as light source  40  may be formed in the interior of item  10 . Light source  40  may be formed from one or more light-emitting diodes (e.g., organic light-emitting diodes, light-emitting diode dies formed from crystalline semiconductor, quantum dot light-emitting diodes, etc.), may be formed from one or more lamps, may be formed from one or more electroluminescent panels, may be formed from diode lasers or other laser light sources, or may be formed from other suitable light generating devices. Light source  40  may generate light at visible wavelengths, infrared wavelengths, and/or ultraviolet wavelengths. For example, light source  40  may generate visible light illumination  42 . 
     Layer  20  may have openings such as opening  44 . Opening  44  (or a set of openings such as opening  44 ) may have the shape of an alphanumeric character or other symbol (glyph), may serve as a label for a component or other label or trim, or may have any other suitable shape. As shown in  FIG. 3 , opening  44  (i.e., the symbol, label, or other patterned structure formed from opening  44  or set of openings  44 ) may be illuminated with illumination  42  (i.e., illumination  42  may serve as backlight for opening  44 ). Because opening  44  may have a shape that forms a symbol or other desired pattern, openings such as opening  44  of  FIG. 3  may sometimes be referred to as patterned openings. 
     Openings such as opening  44  of  FIG. 3  may be formed by stamping (punching), cutting, machining, plasma cutting, waterjet cutting, heating, ablation, chemical removal (e.g., polymer dissolving techniques, metal etching techniques, etc.), laser-based techniques (sometimes referred to as laser hole formation or laser drilling), and/or other suitable material removal techniques. Openings such as opening  44  may also be formed during the process of fabricating some or all of layer  20  (e.g., by molding openings into layer  20  as layer  20  is formed during a plastic molding process, by intertwining strands of material so that openings are formed as layer  20  is constructed, or by using other fabrication techniques in which openings such as opening  44  are formed during fabrication of layer  20  rather than by removing material from layer  20  after layer  20  has been fabricated). In some configurations, laser light or other energy that is used in forming opening  44  may create melted sidewall portions  46  on the interior portions (inner sidewalls) of opening  44 . These portions (sometimes referred to as cauterized portions or melted portions) may be formed when thermoplastic polymer material or other material in one or more strands of material in layer  20  melts and resolidified as part of a laser drilling process. The laser drilling process may form opening  44  and, through the melting process, may help secure loose ends of the strands of material in layer  20  that have been severed during laser drilling). 
     Patterned openings in fabric and/or other materials (see, e.g., layer  20  of  FIG. 3 ) may be used in forming illuminated patterns in item  10 . As shown in  FIG. 4 , layer  20  may overlap an input-output component such as key  50 . Key  50  may form part of a keyboard in item  10  (e.g., item  10  may be an accessory such as a cover that contains a keyboard or other device that contains keys). Key  50  may be surrounded by opening  44 A, which forms an illuminated trim (i.e., an illuminated ring-shaped halo that runs around the periphery of key  50 ). Key  50  may also have an opening such as opening  44 B that is illuminated. Opening  44 B may form a symbol or other pattern. For example, opening  44 B may form a label for key  50  (e.g., opening  44 B may be patterned to form an alphanumeric character such as the letter “A” or other symbol associated with the operation of the key). 
     Openings such as opening  44 B of  FIG. 4  may be formed from a set of small openings (sometimes referred to as perforations) or may be formed from one or more larger contiguous openings. In some configurations, printed ink or other coating material may be provided on layer  20  (e.g. on the outer surface of layer  20 ) to help make the label on key  50  visible to a user in the absence of illumination through openings  44 A and/or  44 B. 
     Although illustrative openings  44 A and  44 B of  FIG. 4  are associated with an input-output device in item  10  such as key  50 , this is merely an example. Openings such as openings  44 A and  44 B may have any suitable size and shape, may be formed on any suitable portion of item  10 , may form labels, symbols, text, decorative patterns (e.g., trim), parts of status indicators, parts of displays, parts of buttons (e.g., buttons such as power buttons, volume buttons, sleep/wake buttons, and other buttons besides the keys in a keyboard), may be formed on surfaces of item  10  that are not associated with keys, etc. The illuminated key configuration of  FIG. 4  is merely an example. 
       FIG. 5  is a top view of an illustrative illuminated patterned opening  44  having the shape of the letter “A”. Opening  44  of  FIG. 5  may have a solid (non-perforated) opening shape through which illumination passes to a viewer. Opening  44  may be filled with transparent material (e.g., material through which light  42  may pass from light source  40 ). The transparent material may be formed from a haze-free clear material (e.g., a clear material such as plastic, glass, sapphire or other crystalline materials, etc. with a haze value that is sufficiently low to appear clear and haze-free to the naked eye) or may be formed from translucent material (e.g., a hazy transparent polymer that includes light-scattering particles such as particles of white inorganic materials, light scattering particles of other colors, or other attributes that contribute to a hazy, translucent appearance). 
     As shown in the example of  FIG. 6 , openings such as perforations  44 P may run along the periphery of the letter “A” and may be illuminated by light  42  from internal light source  40 , thereby forming an illuminated patterned opening with an “A” shape. The areas within the letter “A” in this arrangement may be coated with a material (e.g., coating  44 C) such as white ink or other material that contrasts with the appearance of the rest of layer  20 . This helps ensure that the letter “A” will be visible, even in the absence of illumination from light source  40 . Some of coating  44 C may penetrate into openings  44 P. To allow light to pass through openings  44 P, coating  44 C may be formed from a transparent material (e.g., a translucent material such as white ink or other whitish material). In addition to letters and other alphanumeric characters, other types of symbols and other patterned shapes may be formed by perforations that follow the outline of the shape being illuminated. The use of an illuminated shape in the form of the letter “A” in  FIG. 6  is merely illustrative. If desired, coating  44 C may be omitted or may be present only in openings  44 P (e.g., to help the location of the illuminated shape visually disappear when illumination is not present). 
     In some configurations, the symbol or other illuminated shape may have curved edges. As shown in  FIG. 7 , for example, the letter “0” may have inner and outer curved edges. Illuminated perforations  44 P may run along the curved edges to provide the letter “0” of  FIG. 7  or other symbol or illuminated shape with a smooth appearance. By arranging perforations  44 P along curved edges, staircase effects can be reduced or eliminated. 
     If desired, the body of an illuminated shape can be filled with an array of perforations, as shown with the illustrative “A” symbol of  FIG. 8 . In general, illuminated patterns in item  10  may have contiguous large illuminated openings (e.g., symbol-sized opening for forming a symbol that is entirely illuminated, etc.) and/or may have symbol-sized portions filled with arrays of smaller perforations or sets of perforations that run along the edges of the patterns. The width of a portion of a character (e.g., the letter “A”) or other symbol may be, for example, 0.1 to 0.5 mm, more than 0.2 mm, more than 0.3 mm, less than 1 mm, less than 5 mm, or other suitable size. The diameter of perforations such as perforations  44 P may be 40 microns, 30-60 microns, 30-70 microns, more than 25 microns, more than 35 microns, more than 50 microns, 50-100 microns, 5-50 microns, less than 200 microns, more than 100 microns, or other suitable diameter. Perforations  44 P may have circular shapes or may have other shapes. In configurations in which perforations  44 P are arranged in an array to provide a symbol or other pattern with illumination, perforations  44 P may be spaced apart from each other by 80-400 microns, by 150 microns, by 100-150 microns, by 50-300 microns, by more than 25 microns, by less than 400 microns, or by other suitable amounts. 
       FIG. 9  is a diagram of illustrative equipment and operations involved in forming a structure such as fabric-based item  10 . 
     Intertwining tool  60  may be used in forming intertwined strands of material (e.g., intertwined monofilaments and/or intertwined yarns) using weaving, braiding, knitting, or other fiber intertwining techniques (see, e.g., layer  20 , which may include one or more fabric layers). If desired, sheets of polymer, metal, and/or other materials may be attached to one or more fabric layers (e.g., using adhesive, fasteners, or other attachment mechanisms) and/or coating layers formed from polymer, metal, and/or other coating materials may be deposited onto one or more fabric layers using physical vapor deposition, chemical vapor deposition, printing (e.g., screen printing, pad printing, inkjet printing, etc.), electroplating, fusing operations in which materials are fused using heat and/or pressure, molding under heat and pressure, sewing, crimping, or other techniques. If desired, these techniques may be implemented using additional processing tool  62  (e.g., deposition tools, equipment for sewing, printing equipment, etc.), so that layer  20  includes one or more additional layers of polymer, metal, carbon fiber material and other fiber-composite materials, polymer and/or metal coatings, etc. 
     Following formation of a layer such as layer  20  for item  10  that includes a fabric layer and one or more optional additional layers, laser tool  64  may be used to form patterned openings  44 P (e.g., perforations) in layer  20 . Laser tool  64  may be a pulsed laser, a continuous wave laser, an infrared laser, a visible-light laser, or an ultraviolet laser. Laser tool  64  may include focusing optics to focus a laser beam from a laser to a small spot (e.g., a spot having a diameter of 1-100 microns, less than 10 microns, more than 5 microns, etc.). Laser tool  64  may produce a laser beam that is oriented perpendicular to the surface of layer  20  (e.g., parallel to the surface normal of layer  20 ) so that perforations  44 P extend perpendicularly to the surface of layer  20  or may produce a laser beam that is oriented at a non-zero angle with respect to the surface normal of layer  20  so that perforations  44 P are oriented at a non-zero angle with respect to the surface normal of layer  20  and will therefore extend along a direction that is not perpendicular to the surface of layer  20 . In configurations in which perforations  44 P extend through layer  20  at an angle (e.g., a non-zero angle with respect to the surface normal of layer  20 ), the light that is emitted through perforations  44 P in layer  20  may be directed at a desired non-perpendicular angle with respect to the surface of layer  20 . This allows the viewing angle of the openings formed in layer  20  to be tailored to a particular desired range of angles (e.g., to enhance visibility from shallow viewing angles, to ensure privacy from nearby users, etc.). If desired, the viewing angle of the openings in layer  20  may be enhanced using a laser beam with a non-circular profile. For example, a laser beam with an elliptical shape may be used to form elliptical perforations  44 P (e.g., in a configuration in which the laser beam is perpendicular to the surface of layer  20 ). As an example, perforations  44 P with lateral dimensions of 50 μm×90 μm or other lateral dimensions (e.g., a shorter dimension of 10-100μ and a longer dimension of 50-150 μm, etc.) may be formed through layer  20  using a laser beam with an elliptical spot. Arrangements with both off-axis beams and non-circular laser spots may also be used. 
     If desired, processing tools  62  may form a polymer coating or other coating on a layer of fabric (e.g., layer  20 ). The coating may, as an example, be transparent to laser light from laser tool  64 . Following deposition of the coating, laser tool  64  may form perforations  44 P by providing a laser beam that passes through the coating and that is absorbed in layer  20  to remove layer  20  (e.g., by heating, ablation, etc.). With another illustrative technique, the polymer coating or other coating may be applied to a layer of fabric (e.g., layer  20 ) on a first surface and the perforation-forming laser beam produced by laser tool  64  may be used to illuminate an opposing second surface of the layer of fabric. With this type of technique, perforations  44 P may be formed by removing the material of the fabric layer without removing the coating layer (e.g., by laser drilling up to the coating layer but not through the coating layer). 
     During operations with laser tool  64 , a symbol-shaped opening  44  and/or an array of smaller perforations  44 P having the shape of a symbol (e.g., a solidly filled symbol or a symbol in which perforations  44 P are arranged along the symbol edges) may be formed to allow illumination  42  to pass through layer  20 . One or more pulses of light from laser tool  64  may be used in drilling each perforation or other opening in layer  20 . Laser-drilled openings may pass fully or part way through one or more fabric layers and/or one or more non-fabric layers. 
     After forming perforations  44 P and/or larger symbol-sized openings in layer  20 , additional processing and assembly tools  66  may be used to assemble processed layer  20  with other components to complete fabrication of item  10 . Tools  66  may include tools for attaching one or more layers of material and/or other structures to a layer  20 , tools for mounting light sources, switches, and other components on printed circuit boards, and tools such as computer-controlled positioners for attaching layer  20  and other structures together to form item  10 . When assembled, light sources such as light source  40  may be aligned with the openings in the fabric layer and other openings in layer  20 , so that the openings may be illuminated by light  42  from light source(s)  40 . 
     A cross-sectional side view of an illustrative layer (e.g., a fabric layer and/or other layers) such as layer  20  in which one or more openings  44  have been formed is shown in FIG.  10 . As shown in  FIG. 10 , light source  40  may be aligned with openings  44  so that light  42  passes through openings  44 . Openings  44  may also be used to allow ambient light or other light from the exterior of item  10  to reach light sensitive components within device  10 , if desired. Arrangements in which openings  44  are illuminated by interior lighting such as light source  40  may sometimes be described herein as an example. 
     If desired, movable members or other structures may be at least partly interposed between openings  44  and light source  40 , as shown by illustrative key member  70  of  FIG. 11 . As shown in  FIG. 11 , light  42  from light source  40  may pass through one or more openings in member  70 , may pass through one or more transparent portions of member  70 , or may pass by member  70  (e.g., behind member  70  in the illustrative diagram of  FIG. 11 ). Member  70  of  FIG. 11  is a movable key member (e.g., a key in a keyboard). If desired, member  70  may be a button member for an isolated (non-keyboard) button, may be a support structure for an electrical component in item  10 , may be a housing wall structure, or may be any other suitable structure in item  10 . Member  70  may be formed from one or more materials (e.g., polymer, glass, metal, etc.). 
       FIG. 12  is a cross-sectional side view of layer  20  in an illustrative configuration in which layer  20  is an opaque fabric layer. The color of the opaque fabric layer may be black, dark gray, dark blue, or other opaque color. With this type of arrangement, illumination  42  that strikes fabric layer  20  will be blocked, but illumination  42  that strikes openings  44  will pass through layer  20  for viewing by a user external to item  10 . Openings  44  may be perforations and/or symbol-sized openings and may be filled with air (i.e., openings  44  of  FIG. 12  may be free of fabric, coatings, and other materials). 
     As shown in the illustrative configuration of  FIG. 13 , layer  20  may include fabric layer  20 A and one or more additional layers such as layer  20 B. Layer(s)  20 B may be formed on the upper and/or lower surface of layer  20 A and may be formed from an opaque layer of material such a polymer layer, metal layer, or other layer of material. As an example, layer  20 B may be formed from an opaque polymer layer such as a layer of black ink (e.g., a polymer binder containing black particles of material such as particles of carbon black, etc.) or a polymer containing other opaque materials. Layer  20 B may be deposited by printing techniques (e.g., screen printing, pad printing, inkjet printing, etc.) or other suitable deposition techniques. Openings  44  may be formed in opaque layer  20 B to allow light  42  to pass through layer  20  (i.e., openings  44  are illuminated). In regions in which opaque layer  20 B is present, light  42  is blocked and layer  20  will be dark in appearance. Layer  20 B may be deposited as a coating on layer  20 A, may be attached to layer  20 A by a layer of adhesive, and/or may be mounted within item  10  adjacent to layer  20 A without attaching layer  20 B directly to layer  20 A. 
     If desired, one or more transparent fabric windows or other transparent windows may be formed within an opaque fabric. As shown in  FIG. 14 , for example, transparent portion  20 A′ (e.g., a transparent fabric portion) may be formed within opaque fabric portion  20 A″ of fabric layer  20 A. Portion  20 A′ may have a rectangular shape or other suitable shape. Opaque material  20 B may be patterned to form one or more openings  44  that overlap transparent fabric portion  20 A′. The shape of openings  44  may form an alphanumeric character or other symbol or other pattern (e.g., a symbol or other pattern that serves as a keyboard key label, other label, or other illuminated shape). Portions of layer  20 B may also overlap opaque fabric portions  20 A″ (e.g., to help prevent light from passing through layer  20 A″). 
     As shown in the illustrative configuration of  FIG. 15 , a desired illuminated pattern for item  10  may be formed by forming a pattern of transparent fabric regions  20 A′ in opaque fabric  20 A″ (e.g., by weaving, knitting, braiding, etc.). Illumination  42  may pass through the fabric of regions  20 A′, but will be blocked by the opaque fabric material of regions  20 A″. Fabric regions  20 A′ may be patterned to form a symbol or other illuminated shape. Because fabric regions  20 A′ are transparent and may have the shape of a symbol or other desired shape, regions such as regions  20 A′ may sometimes be referred to as fabric-filled transparent windows or openings. 
     If desired, clear regions of a fabric layer may be formed by fusing or otherwise attaching a transparent layer to an opaque layer. Consider, as an example, the scenario of  FIGS. 16 and 17 . As shown in  FIG. 16 , one or more regions of an opaque layer of fabric or other material such as opaque layer  20 A″ may be provided with a transparent layer of material such as layer  20 A′. Layer  20 A′ may be a layer of fusible transparent fabric or other transparent material (e.g., a sheet of transparent polymer, etc.) and may be attached to layer  20 A″ using heat (e.g., sufficient heat to fuse the material of layer  20 A′ to layer  20 A″), may be attached using adhesive, may be attached by sewing, or may be attached using other attachment mechanisms. Layer  20 A′ may also be formed using a printed transparent polymer (e.g., a liquid polymer that is deposited by printing and then cured). Layer  20 A′ may have the shape of a square or other shape that is sufficiently large to accommodate a printed symbol within its borders as descried in connection with fabric  20 A′ of  FIG. 14  or may be patterned to directly form a symbol or other pattern, as described in connection with  FIG. 15 . 
     After forming layers such as transparent layer  20 A′ in selected area(s) of opaque layer  20 A″, some or all of the portions of opaque layer  20 A″ that overlap layer  20 A′ may be removed to form a transparent pattern in layer  20 A″ (e.g., a symbol or other shape that is illuminated by light  42 ). If desired, a layer of opaque material such as patterned opaque layer  20 B of  FIG. 14  may be deposited on layer  20 A′ in addition to or instead of forming a desired illuminated shape by selective removal of layer  20 A″ in the region overlapping layer  20 A′. 
     If desired, illuminated symbols and other illuminated shapes may be formed in layer  20  using transparent strands of material that serve as optical waveguides. Consider, as an example, the arrangement of  FIG. 18 . As shown in  FIG. 18 , layer  20  may be a fabric layer that includes strands of material such as strands  82 . Strands  82  may be opaque and/or transparent. For example, strands  82  may be woven, knitted, or braided to form opaque regions for fabric  20 . Transparent strands of material such as transparent strands  80  (sometimes referred to as optical fibers) may be incorporated into selected areas of fabric  20  by weaving, knitting, braiding, embossing, etc. Transparent strands  82  may be formed from glass, clear polymer, or other transparent material. Light source  40  (e.g., a light-emitting diode, etc.) may emit light that is coupled into the ends of one or more of strands  82 . Due to the principle of total internal reflection, light  42  from light source  40  may be confined within strands  80  and may be distributed throughout strands  80 . 
     Strands  80  may be incorporated into fabric  20  in a pattern associated with a symbol, label, or other desired pattern (e.g., the illustrative character “K” in the example of  FIG. 18 ). Strands  80  may have roughened surfaces, gratings, or other light scattering features to promote the extraction of the light from strands  80  that has been emitted into strands  80  by light source  40 . The incorporation of light scattering features into appropriate portions of strands  80  ensures that strands  80  will emit light outwardly from fabric  20 . If desired, an illuminated symbol may be formed by providing strands  80  with light scattering features in selected portions of fabric  20  and/or by covering certain portions of strands  80  with an opaque layer material (fabric formed from opaque strands  82  or other material) while forming patterned openings in the opaque layer of material to form the symbol. If desired, transparent strands of material (optical fibers) may be used in distributing light  42  from light source  40  to openings  44  in fabric  20 . For example, a light-distributing fabric formed from transparent strands may serve as a backlight layer for an overlapping opaque fabric layer with openings and/or patterned transparent fabric regions, etc. 
     Openings  44  in layer  20  (e.g., perforations, symbol-shaped openings, or other openings in a layer of fabric and/or other layer(s) of material) may be filled with polymer or other suitable material. As an example, layer  20  of  FIG. 19  may include layer  20 A (e.g., a fabric layer) with openings  44  that are covered with a layer of material such as coating  84 . Portions of coating  84  may extend partly or completely through openings  44  (i.e., coating  84  may serve as a filler material for openings  44 ). By filling openings  44  at least partly with coating  84 , coating  84  may prevent the intrusion of dust and other foreign material through openings  44  into the interior of item  10 . Coating  84  may be formed from translucent or clear polymer or other suitable transparent materials that are sufficiently transparent to allow illumination  42  to pass outwardly from the interior of item  10  through openings  44 . In scenarios in which coating  84  is translucent, the material of coating  84  may help diffuse light  42 . 
     Coating  84  may be deposited in liquid form (e.g., using pad printing, screen printing, inkjet printing, or other suitable techniques) and may be cured using ultraviolet light exposure (e.g., when coating  84  is an ultraviolet-light-curable liquid polymer adhesive), may be cured using heat, may be cured using chemical catalysts, etc. Coating  84  may be deposited in rectangular regions on layer  20 A (e.g., in scenarios in which the shape of one or more openings  44  is used to define a desired pattern for illumination by light  42 ) or may be deposited in the shape of a symbol or other pattern. Portions of coating  84  on the surface of layer  20 A may have an appearance that contrasts sufficiently with uncoated portions of layer  20 A to allow coating  84  to serve as visible coating  44 C of  FIG. 6  (e.g., to help make a symbol or other shape visible to a user even in the absence of illumination  42 ). 
     In the example of  FIG. 19 , coating  84  has been printed or otherwise deposited onto the upper (outer) surface of layer  20  (e.g., a fabric layer). In the example of  FIG. 20 , coating  84  has been printed or otherwise deposited onto the lower (inner) surface of layer  20 . If desired, coating  84  may cover portions of both the outer and inner surfaces of layer  20 , as shown in  FIG. 21 . 
     When applying coatings such as coating  84 , coating material (e.g., uncured liquid polymer material and/or other material) can be forced into layer  20  (e.g., a fabric layer) using vacuum pressure. The vacuum pressure may allow the liquid coating material to wick into holes in the fabric. During drying of the liquid coating material (e.g., during polymer curing operations), the liquid polymer can be pressed into the holes in the fabric to ensure that a uniform coating layer is formed and to ensure that the liquid is forced into all holes in the fabric. If desired, a tool such as an autoclave tool may be used to produce a pressure that forces the liquid coating material into the holes in the fabric. 
     In arrangements of the types shown in  FIGS. 19, 20, and 21 , and/or other arrangements in which coating material is formed on a layer such as fabric layer  20 A, it may be desirable to provide layer  20  with one or more protective coating layers such as illustrative outer coating  86 A and illustrative inner coating  86 B of  FIG. 21 . Coatings such as coatings  86 A and  86 B may provide protection to coating  84  and other structures in layer  20  (e.g., to prevent damage from abrasion and other wear, to prevent moisture damage, etc.). Coatings  86 A and/or  86 B may be formed from transparent material (e.g., haze-free polymer, translucent polymer, inorganic materials, or other suitable materials). If desired, coating material  84  may cover the entire surface (or nearly the entire surface) of fabric layer  20 A, including the portions of layer  20 A that include openings  44 . This type of arrangement is shown in  FIG. 22 . An optional coating (see, e.g., coating  86 A of  FIG. 21 ) may be formed above layer  82  to help protect layer  82 , to help pattern illumination  42 , etc. 
     As shown in  FIG. 23 , a structure such as member  70  may be coupled to the inner surface of layer  20  using adhesive  90 . Member  70  may be a movable member. Member  70  may be, for example, a key or button member that is associated with a key in a keyboard, a button that protrudes from a portion of a housing in an electronic device or other fabric-based item  10 , a portion of a toggling switch or other movable structure. If desired, structures such as member  70  may include internal support structures, housing portions, or other suitable structures. 
     Members such as member  70  of  FIG. 23  may be formed from plastic, glass, metal, fiber-composite materials, ceramic, and/or other suitable materials. Member  70  may move up in direction  94  and down in direction  96  or may move in other directions. Layer  20  may be a flexible fabric layer having portions  98  that stretch and bend to accommodate movement of member  70  (e.g., movement of a key member associated with a keyboard key as a user presses keys in the keyboard to supply item  10  with input). 
     Layer  20  (e.g., the fabric and other layer(s) of layer  20 ) may have openings such as openings  44 . Openings  44  may be illuminated by light  42  from light source  40 . To allow light  42  to pass through openings  44 , member  70  may be formed from transparent plastic, may have openings that allow light  42  to pass to openings  44 , and/or may have recesses or other features that prevent member  70  from blocking the passage of light  42  to openings  44 . Optional layer  92  may be formed from opaque materials such as colored polymer (e.g., a polymer that contains black particles such as particles of carbon black, other dark particles, non-black colored particles, dye, or other suitable material). Layer  92  may have a pattern that helps define a desired shape for a symbol for member  70  and/or coating  84  may be deposited over and into openings  44  to help define a desired visible symbol. The coating that overlaps and/or protrudes into openings  44  may also help diffuse light  42 . 
     A cross-sectional side view of a portion of fabric-based item  10  in a configuration in which item  10  is an accessory such as a cover for a tablet computer or other electronic device and contains a keyboard is shown in  FIG. 24 . As shown in  FIG. 24 , item  10  may have a plastic key member support structure (sometimes referred to as a key web) such as structure  106 . A plurality of keys  100  may be formed in item  10 . Each key  100  may have a moving key member  70  that is moves in directions  94  and  96  within a respective opening  108  in structure  106 . Lip portions  70 ′ of key members  70  and corresponding lip portions  106 ′ of structure  106  may serve as stop structures that help retain key members  70  within openings  108 . 
     Dome switch  104  and, if desired, spring structures may help bias key member  70  in direction  94  when key  100  is not pressed. When key  100  is pressed, the inward force exerted by a user&#39;s finger will press key member  70  in inwards direction  96 , thereby compressing and activating dome switch  104 . Structure  106  may have an array of openings  108  to receive an array of associated key members  70  and an array of corresponding dome switches  104  may be mounted under key members  70 . Flexible layer  20  (e.g., a fabric layer) may cover key members  70  and may be attached to structure  106  and key members  70  using adhesive  90 . 
     Layer  20  may contain a layer of fabric with openings  44  that are arranged to form a desired illuminated symbol, label, or other structure for key  100 . Coating  84  may be transparent material (translucent, clear, colored, etc.) with an appearance that contrasts visually with the appearance of layer  20 . A layer of material such as coating  84  may extend into openings  44  and may have a shape that represents a symbol, label, etc. The shape formed by coating  84  may allow a user to identify key  100  even in the absence of illumination  42 . Optional protective layer  86 A may be sufficiently transparent to allow a user to view the pattern formed by coating  84  and the pattern of illumination formed when light  42  passes through opening(s)  44 . Openings  44  may be perforations and/or larger symbol-sized openings, as described in connection with  FIGS. 4, 5, 6, 7, and 8 . If desired, a halo structure such as halo  44 A of  FIG. 4  (e.g., an illuminated ring shape or other trim pattern) may surround each key  100 . 
     Adhesive  110  may be used to attach key member support structure  106  to a substrate such as printed circuit  102 . Printed circuit  102  may be a rigid printed circuit board or a flexible printed circuit (e.g., a printed circuit formed from a flexible polymer substrate such as a layer of polyimide or other sheet of polymer). Light sources  40  such as light-emitting diodes or other devices may be mounted to printed circuit board  102  within openings  108  adjacent to dome switch  104  to provide illumination  42  or may be mounted elsewhere within item  10 . 
     The distribution of light  42  that is emitted from light sources  40  may be concentrated in the vicinity of sources  40 . If desired, the density of openings  44  may be spatially varied to adjust the intensity of light  42  viewed by the user of item  10 . For example, the density of openings  44  may be spatially varied to help even out the intensity of light  42  as light  42  passes through openings  44  and serves as illumination for symbols on keys  100  or other structures for item  10  (i.e., openings  44  may occupy an amount per unit area that varies as a function of distance across fabric  20  to avoid a hotspot when illuminating a keyboard key label associated with key  100  with light source  40 ). 
     As shown in  FIG. 25 , the density of openings  44  (e.g., opening size and/or number per unit area) may vary as a function of lateral distances X and Y (e.g., in the plane of the illustrative keyboard of  FIG. 24 ). In areas such as area A 1  that are relatively near to source  40 , the density of openings  44  may be relatively low (i.e., the ratio of the amount of area occupied by openings  44  relative to the area of layer  20  without openings  44  may be relatively small). In areas such as area A 2  in the illustrative arrangement of  FIG. 25 , the intensity of the light emitted by source  40  has decreased due to scattering and spreading of light  42 . To compensate for the lower intensity of light  42  below layer  20 , layer  20  may be provide with an increased opening area density (i.e., more openings  44  per unit area and/or larger openings  44  per unit area). By varying the opening area density in layer  20 , the apparent intensity of illumination  42  to the user of item  10  may appear even with few or no noticeable changes in intensity in different portions of the symbols and other patterns formed by openings  44 . If desired, opening density (amount of area occupied by openings  44  per unit area of layer  20 ) may be varied to create intentional variations in emitted light intensity (e.g., intentional hotspots). 
     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: 20170117
Publication Date: 20200317
Grant Date: 20200317
Priority Date: 20160119
Inventors: WANG, PAUL XIAOPENG
Lebedeff, Christopher T.
RUSCHER, JOEL N.
GAO, ZHENG
HEGDE, SIDDHARTHA
LI, ZHENGYU
Assignee: APPLE INC
CPC Classifications: [{"code": "G06F3/0202", "inventive": true, "first": false, "tree": "[]"}, {"code": "D06N2213/04", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N2209/0869", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N7/00", "inventive": true, "first": true, "tree": "[]"}, {"code": "F21V11/14", "inventive": true, "first": false, "tree": "[]"}, {"code": "H01H13/023", "inventive": true, "first": false, "tree": "[]"}, {"code": "H01H13/83", "inventive": true, "first": false, "tree": "[]"}, {"code": "D06N2209/0853", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N2201/02", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N2209/0861", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N7/0092", "inventive": true, "first": true, "tree": "[]"}, {"code": "D06N2209/0869", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N2209/0853", "inventive": false, "first": false, "tree": "[]"}, {"code": "D06N7/0092", "inventive": true, "first": true, "tree": "[]"}, {"code": "D06N2201/02", "inventive": false, "first": false, "tree": "[]"}, {"code": "H01H13/83", "inventive": true, "first": false, "tree": "[]"}, {"code": "F21V11/14", "inventive": true, "first": false, "tree": "[]"}, {"code": "D06N2209/0869", "inventive": false, "first": false, "tree": "[]"}, {"code": "H01H13/023", "inventive": true, "first": false, "tree": "[]"}, {"code": "D06N2209/0861", "inventive": false, "first": false, "tree": "[]"}, {"code": "G09F13/0427", "inventive": true, "first": false, "tree": "[]"}, {"code": "H01H2219/03", "inventive": false, "first": false, "tree": "[]"}, {"code": "H01H2219/014", "inventive": false, "first": false, "tree": "[]"}, {"code": "H01H2203/0085", "inventive": false, "first": false, "tree": "[]"}, {"code": "H01H13/83", "inventive": false, "first": false, "tree": "[]"}]
Family ID: 69778862