• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    PORTABLE COMPUTING DEVICE. It is a portable computing device that includes at least one base part with a lightweight material that includes at least one upper box in the shape of a wedge having a rail formed at an interface edge of the same. The chute includes a raised portion having a first contact surface and a receiving area, and a bottom box coupled with the top box to form a complete housing for at least one part of the portable computing device to include at least several components operational and various structural components. The portable computing device also includes at least one hinged cover part connected to the base part by a hinge assembly. In the described embodiments, the cap part has a video in communication with one or more of the various components on said base part by means of one or more electrical conductors that electrically connect the base part with the cap part.
    公开号:BR112013007103B1
    申请号:R112013007103-6
    申请日:2011-08-15
    公开日:2021-02-09
    发明作者:Brett W. Degner;Chris Ligtenberg;Ron Hopkinson;Sean R.Murphy;John Raff;Matthew P. Casebolt;Robert L. Coish;David J. Yeh;Eugene Kim;John M. Brock;Euan Abraham
    申请人:Apple Inc.;
    IPC主号:
    专利说明:

    CROSS REFERENCE TO RELATED REQUESTS
    [001] This patent application claims priority for US Provisional Patent Application No. 61 / 394,037 filed on October 18, 2010 and for Provisional Patent Application No. 61 / 275,724 filed on October 19, 2010, both being called " PORTABLE COMPUTING SYSTEM ", both by Degner and others, and both being incorporated by reference in their entirety and for all purposes. This application also claims priority for US Patent Application No. 12 / 894,437 filed on September 30, 20910, called "HIGH SPEED CARD CONNECTOR", by Abraham, which is also incorporated by reference in its entirety and for all purposes.
    [002] This patent application is also related and incorporates by reference in its entirety and for all purposes the following co-pending patent applications: (i) US Patent Application No. 12 / 714,737 (APL1P620) called "INTEGRATED FRAME BATTERY CELL "by Murphy et al., And filed March 1, 2010; (ii) US Patent Application No. 12 / 552,857 (APL1P594) called "CENTRIFUGAL BLOWER WITH NON-UNIFORM BLADE SPACING" by DuKe and filed on September 2, 2009; (iii) US Patent Application No. 12 / 620,299 (APL1P597) called "HEAT REMOVAL IN COMPACT COMPUTING SYSTEMS" by Degner and others, and filed on November 17, 2009; (iv) US Patent Application No. 12 / 580,922 (APL1P601) called "COMPUTER HOUSING" by Raff and others, and filed on October 16, 2009; and (v) US Patent Application No. 12 / 712,102 (APL1P619) called "STACKED METAL AND ELASTOMERIC DOME FOR KEY SWITCH" by Niu et al., and filed on February 24, 2010, each of which is incorporated by reference into its totality and for all purposes. TECHNICAL FIELD
    [003] The present invention relates in general to portable computing devices. More particularly, the present embodiments relate to portable computing system enclosures and methods for assembling portable computing devices. BACKGROUND
    [004] The exterior appearance of the portable computing system, including its design and weight, is important for a user of the portable computing system, as the exterior appearance contributes to the overall impression that the user has of the system. portable computing. At the same time, the portable computing system package is also important for the user, as a durable package will help extend the life of the portable computing system as a whole and will increase its value to the user.
    [005] A design challenge associated with the manufacture of portable computing systems is the design of the outer casings used to house various internal computing components. This design challenge often arises from a series of conflicting design goals that include the convenience of making the outer shell or housing lighter and thinner, making the shell stronger and making the shell aesthetically pleasing, among other possible goals. Lighter housings or housings tend to be more flexible and therefore have a greater propensity to deform and bend, while stronger and stiffer housings tend to be thicker and have more weight. Unfortunately, the increased weight can lead to user dissatisfaction with elegance or reduced portability, while bending can damage internal parts or lead to other failures. In addition, few consumers want to own or use a device that is perceived as ugly or clumsy. Due to such considerations, the casing materials of the portable computing system are typically selected to provide sufficient structural rigidity while also meeting weight restrictions, with any aesthetic appearance being worked on materials that meet these initial criteria.
    [006] Thus, casings or external housings for portable computing systems are often made of aluminum, steel and other cheap yet strong metals, having an adequate thickness to achieve both low weight and high structural rigidity targets. The use of metal closures is also convenient from the point of view of providing an available electrical ground and / or available radio frequency ("RF") or protection against electromagnetic interference ("EMI") for the processor and other electrical components of the computing device, provided that the closure or external metal enclosure can be readily used for such functions.
    [007] Therefore, it would be beneficial to provide the portable computing system that is aesthetically pleasing, lightweight and durable. It would also be beneficial to provide methods for assembling the portable computing system. SUMMARY
    [008] The present application describes several embodiments with respect to the systems and methods for providing a lightweight and durable portable computing device having a wedge-shaped profile and an associated high-speed memory card and card connector. This can be accomplished at least in part through the use of a wedge-shaped outer casing and specially designed internal components arranged to fit and operate within this casing. Such components include a high-speed memory card and the associated card connector that uses contacts having short signal paths, as well as a ground plane divided into multiple parts. In one aspect of the embodiments provided, the computing device takes the form of a laptop computer.
    [009] In the various embodiments, a portable computing device may include a base part formed from a lightweight material and including a wedge-shaped upper case coupled with a lower case to form a complete housing for at least one part of the portable computing device, the complete enclosure including at least several operational components and several structural components. The portable computing device may also include a lid portion hingedly connected to the base portion by a hinge assembly, the lid portion having a screen communicating with one or more of the components in the base portion.
    [0010] The hinge assembly may have one or more electrical conductors that electrically couple the cover portion with the base portion, and may also include a hollow coupling having an annular outer region and a central hole region surrounded by the annular outer region . The central hole region allows passage and provides support for one or more electrical conductors. The hinge assembly can also include a first fastening component that facilitates the coupling of the hollow coupling with the base part, and also a second fastening component that facilitates the coupling of the hollow coupling with the cover part, where at least one of the first fastening component and the second fastening component are integrally formed with the hollow coupling.
    [0011] In the various embodiments, the portable computing device, which can be a laptop computer, can also include one or more user input components located on the base part, with the base part defining a wedge shape so that o One or more user input components are presented at an angle to a user of the portable computing device. User inputs can include a keyboard, a touch-sensitive surface, or both.
    [0012] In the various embodiments, the portable computing device may include as one of the operational components a small device or Z-Stack solid state memory module, laterally configured. In some embodiments, the memory module may be an independent device. The memory device or module may include a substrate, several memory devices arranged linearly on the substrate, and a controller linearly arranged according to the various memory devices and arranged to provide control signals for the memory devices. This solid state memory can include a set of eighteen contacts located along an edge of the substrate, the contacts being adapted to interface with a respective connector coupled with a motherboard of the portable computing device.
    [0013] Still in additional embodiments, methods for assembling a portable computing device may include providing a lower case and an upper case, where at least one of the lower case or upper case defines a wedge shape, coupling the lower case with the upper box to form a complete enclosure for a base part of the portable computing device, articulated to connect the base part with a cover part by a hinge assembly, in which the cover part has at least several components one of which is a screen, and electrically connect at least some of the components on the cover part with operating components on the base part by means of one or more electrical conductors that pass through the hinge assembly.
    [0014] Other devices, methods, aspects and advantages of the invention will or will become apparent to those skilled in the art when examining the following figures and detailed description. All such systems are intended. Additional methods, aspects and advantages are included within this description, are within the scope of the invention and are protected by the accompanying embodiments. BRIEF DESCRIPTION OF THE DRAWINGS
    [0015] The included drawings are for illustrative purposes and serve only to provide examples of possible structures and arrangements for the disclosed apparatus and methods of the invention for providing portable computing devices. These drawings in no way limit any changes in shape and detail that can be provided by the invention by those skilled in the art without departing from the spirit and scope of the invention. The embodiments will be readily understood by the following detailed description together with the accompanying drawings, where equal reference numbers designate equal structural elements and in which:
    [0016] Figs. 1 through 6 show representative views of a portable computing system according to the described embodiments.
    [0017] Fig. 7 shows an external view of a lower box according to the described embodiments.
    [0018] Fig. 8 shows an internal view of the lower box shown in Fig. 7.
    [0019] Figs. 9a and 9b show an exterior view of the upper case illustrating various openings used to accommodate a keyboard and a touch-sensitive surface in accordance with the described embodiments.
    [0020] Fig. 10a to 10c show an upper box and the feature plate assembly according to the described embodiments.
    [0021] Fig. 11a and 11b show an embodiment of a tamper-resistant fastening device that can be used to secure the upper and lower cases of the portable computing device according to the described embodiments.
    [0022] Fig. 12 presents a portable computing system with a lower case and the battery removed to reveal various components and internal structures according to the described embodiments.
    [0023] Figs. 13a through 13d show a representative compact thermal module according to the described embodiments.
    [0024] Figs. 14a and 14b show plate-to-plate connectors with anti-angled devices in accordance with the described embodiments.
    [0025] Fig. 15 illustrates openings used to help promote good cable organization according to the described embodiments.
    [0026] Fig. 16 shows an expanded region view of a keyboard circuit / touch sensitive surface that can include various components of keyboard processing and touch sensitive surface according to described embodiments.
    [0027] Figs. 17a and 17b show cable clamps used to hold cables in accordance with the described embodiments.
    [0028] Fig. 18 shows the representative cable secured by the cable ties of Figs. 17th.
    [0029] Fig. 19 shows an exploded view of a battery pack according to the described embodiments.
    [0030] Fig. 20 shows a specific mirror image configuration of a battery arrangement embedded in accordance with the described embodiments.
    [0031] Figs. 21a through 21d show an SSD memory module in perspective, bottom and top views, respectively, according to the described embodiments.
    [0032] Fig. 22a shows in side view an alternative SSD memory module having memory chips on both sides of it according to the described embodiments.
    [0033] Fig. 22b shows a close view of the contacts of an SSD memory module according to the described embodiments.
    [0034] Fig. 23 shows in perspective view a connector according to the described embodiments.
    [0035] Fig. 24 shows in perspective view from below a connector according to the described embodiments.
    [0036] Fig. 25 shows a child or option card inserted in a connector according to the described embodiments.
    [0037] Fig. 26 shows in top view a connector according to the described embodiments.
    [0038] Fig. 27 shows in cross-section view a receptacle of the connector according to the described embodiments.
    [0039] Fig. 28 shows a detail of a part of a top part of a connector according to the described embodiments.
    [0040] Fig. 29 shows in front view a connector according to the described embodiments.
    [0041] Fig. 30 shows in side view a connector according to the described embodiments.
    [0042] Fig. 31 shows a detail of a side visit according to the described embodiments.
    [0043] Fig. 32 shows a bottom view of a connector according to the described embodiments.
    [0044] Fig. 33 presents a flow chart detailing a process according to the described embodiments. DETAILED DESCRIPTION
    [0045] Illustrative applications of apparatus and methods according to the present invention are described in this section. These examples are being provided only to add context and to assist in understanding the invention. Thus, it will be apparent to those skilled in the art that the present invention can be practiced without some or all of these specific details. In other cases, well-known process steps have not been described in detail in order to avoid unnecessarily obscuring the present invention. Other applications are possible, so the following examples should not be considered as limiting.
    [0046] The following statement relates to a portable computing system such as a laptop computer, a netbook computer, a tablet computer, etc. The portable computing system may include a multi-part enclosure having a top box and a box bottom joining in a view to form a base part. The portable computing system may have a top part (or cover) that can accommodate a video screen and other related components while the bottom part can accommodate multiple processors, units, ports, battery, keyboard, touch sensitive surface and so on. The base part can be formed of a multi-part enclosure which can include external components of the upper and lower enclosure, each of which can be formed in a particular way in an interface region so that the space and displacement between these external components of the enclosure are not only reduced, but are also more consistent from device to device during mass production of devices. These general issues are set out in more detail below.
    [0047] In a particular embodiment, the cover and the base part can be pivotally connected with each other by means of what can be referred to as a hollow hitch assembly. The hollow coupling assembly can be arranged to pivot the base part with the cover. The hollow hitch assembly may include at least one hollow cylindrical part which in turn includes an annular outer region, and a central hole region surrounded by the outer annular region, the central hole suitably arranged to provide support for electrical conductors between the base part and electrical components on the cover. The hollow hitch assembly may also include several fastening regions that couple the hollow hitch with the base and cover of the portable computing system with at least one of the fastening regions being formed integrally with the hollow cylindrical part so that the space, size and number of pieces are minimized.
    [0048] The multi-part casing can be formed from a strong and durable material, even if light weight. Such materials can include composite materials and / or metals, such as aluminum. Aluminum has a number of features that make it a good choice for the multi-part enclosure. For example, aluminum is a good electrical conductor that can provide good electrical grounding and it can be easily machined and has well-known metallurgical characteristics. Additionally, aluminum is not highly reactive and is not magnetic, which can be an essential requirement if the portable computing system has RF capabilities, such as WiFi, AM / FM, etc. In order to both protect the multi-part enclosure as well as providing an aesthetically pleasing finish (both visual and tactile), a protective layer can be placed or formed on an external surface of the multi-part enclosure. The protective layer can be applied in a way that both improves the aesthetic appearance of the enclosure and protects the appearance of the portable computing system. In one embodiment, when the multi-part casing is formed of aluminum, at least one outer surface of the aluminum can be anodized to form the protective layer.
    [0049] The upper box can include a cavity, or lumen, into which various operational components can be inserted during an assembly operation. In the described embodiment, the operating components can be inserted into the lumen and connected with the upper housing in a "top to bottom" assembly operation in which the topmost components are inserted first followed by components in a top-down arrangement . For example, the upper case can be provided and formatted to accommodate a keyboard module. The keyboard module may include a keyboard assembly formed of several sets of the upper part of the keyboard key and appropriate circuitry, such as a flexible membrane in which a switching matrix can be incorporated. In one embodiment, the upper part of the keyboard key may take the form of upper part of the low profile keyboard key as described in US Patent Application No. 12 / 712,102 called "STACKED METAL AND ELASTOMERIC DOME FOR KEY SWITCH" by Niu et al., which is incorporated by reference in its entirety.
    [0050] In one embodiment, a set of the upper part of the keyboard key can be used to replace a power key. For example, on a conventional keyboard, at least one function can be assigned to each of an upper row of upper parts of the keyboard key. However, by re-implementing one of the upper parts of the keyboard key as a push button, the number of operating components can be reduced by at least eliminating the key mechanism associated with the conventional push button and replacing it with the set of keys. upper part of the keyboard key already available and with the associated circuit system.
    [0051] In addition to the keyboard, the portable computing system may include a touch-sensitive device along the lines of a touch-sensitive surface, touch-sensitive screen, etc. ... New embodiments where the portable computing device includes a surface touch sensitive, the touch sensitive surface can be formed of glass material. The glass material provides a cosmetic surface and is the main source of structural rigidity for the touch-sensitive surface. Using glass material in this way significantly reduces the overall thickness of the touch sensitive surface compared to previous designs. The touch-sensitive surface can include circuitry for processing signals from either a sensor associated with the touch-sensitive surface or a keyboard membrane associated with the keyboard. Thus, the system of separate circuits previously used to process signals from the keyboard membrane is eliminated.
    [0052] The touch sensitive surface includes a rubber dome switch to detect a performance of the touch sensitive surface that is covered with a sealing mechanism. The rubber dome switch may include an electric key. The sealing mechanism can protect the electric switch from dust and moisture intrusion and, consequently, improve the strength of the electric switch. The sealing mechanism can include expansion spaces within which the rubber dome switch can expand when it is compressed. During performance, the use of expansion spaces improves the force feedback response associated with the rubber dome switch and the overall aesthetic feeling of the touch-sensitive surface.
    [0053] In embodiments where at least one upper box and the lower box are formed of conductive material, such as aluminum, a good electrical ground or electrical ground plane can be provided. The ability to provide a good ground plane can be particularly advantageous due to the close proximity of the operational components to each other in the portable computing system. Because of this close proximity, it is desirable to isolate significant sources of RF radiation (such as a main logic board, or MLB) from these circuits, such as non-wired circuits, which are sensitive to RF interference. In this way, at least the upper housing and / or the lower conductive housing is used to provide a good chassis ground which, in turn, can be used to electromagnetically isolate the RF energy producing circuits from these components that are sensitive to RF energy. . In addition, by forming both the upper and lower housing with conductive material, the upper and lower housing can be joined to form a base part that can act as a Faraday cage that can effectively protect the external environment of the generated EMI by the portable computing system. The same Faraday cage attributes as the base part can also protect RF sensitive components from externally generated EMI.
    [0054] In order to provide a pleasant aesthetic for the user, the format of the portable computing system may have a profile that is pleasing to the eye and to the touch. In the described embodiments, the multi-part housing may have a wedge shape. The wedge shape can be such that when the bottom surface of the portable computing system is placed on a flat support surface, such as a table or desk, the angle shown by the wedge-shaped enclosure (in particular, the top wedge-shaped housing with multiple parts) may have an easy-to-use keyboard and touch keyboard layout. In contrast to conventional portable computing systems such as laptop computers having a uniformly formed housing with little or no angularity, the wedge shape of the portable computing system can improve user interaction with the touch sensitive surface and the keyboard by present the surface of the touch sensitive surface and the upper parts of the keyboard key in a more natural alignment with the fingers of a user. In this way, improved ergonomics can help to reduce the amount of tension and stress on the user's wrists.
    [0055] Due at least to the strong and elastic nature of the material used to form the multi-part casing, the multi-part casing may include a series of openings having wide intervals that do not require additional support structures. Such openings can take the form of doors that can be used to provide access to internal circuits. The ports may include, for example, data ports suitable for accommodating cables (USB, Ethernet, FireWire, etc.) connecting external circuits. The openings can also provide access to an audio circuit, video display circuit, power input, etc.
    [0056] These and other embodiments are discussed below with reference to Figs. 1 through 33. However, those skilled in the art will readily appreciate that the detailed description given in this document with respect to these figures is for explanatory purposes as the invention extends beyond these limited embodiments. Portable Computing Device
    [0057] Figs. 1 through 6 show various views of the portable computing system 100 according to the described embodiments. Fig. 1 shows a perspective view of the front face of the portable computing system 100 in an open state (lid) whereas Fig. 2 shows the portable computing system 100 in a closed state (lid). The portable computing system 100 may include a base part 102 formed from a lower case 104 fixed next to the upper case 106. The base part 102 can be pivotally connected with the cover part 108 by means of the hollow hitch assembly 110 from the view through the cosmetic wall 111. The base part 102 can have a general wedge shape having a first end dimensioned to accommodate the hollow hitch assembly 110. The base part 102 can taper down to a more narrowly configured end arranged to accommodate the insert portion 112 suitable for assisting a user to lift the lid portion 108, for example, by a finger. In the described embodiment, the wedge-shaped appearance of the base part 102 can be created by the general wedge shape of the upper box 106. Alternatively, a lower wedge-shaped box could provide a similar result. The top box 106 can be configured to accommodate various user input devices such as the keyboard 114 and the touch surface 116. The keyboard 114 can include several sets of the top section of the low profile keyboard key, each having a surface associated touchscreen 118.
    [0058] Each of the various touch sensitive surfaces 118 may have a symbol printed on it to identify the key entry associated with the particular touch sensitive surface. The keyboard 114 can be arranged to receive a separate input on each touch sensitive surface using a finger movement referred to as a key press. In the described embodiment, the symbols on each touch sensitive surface can be laser engraved in this way creating an extremely clear and durable print that will not fade the constant application of key presses over the life of the portable computing system 100. The surface touch sensitive 116 can be configured to receive a user's finger gesture. A finger gesture can include touch events from more than one finger applied in a synchronized manner. The gesture can also include a single finger touch event such as a strong or light stroke. In order to reduce the component count, a set of the upper part of the keyboard key can be re-provisioned as a push button. For example, the touch sensitive surface of the 118-1 key can be used as a 118-1 push button. In this way, the total number of components in the portable computing system 100 can be commensurably reduced.
    [0059] The cover part 108 can include the canvas 120 and the back cover 122 (shown more clearly in Fig. 2) which can add a cosmetic finish to the cover part 108 and also provide structural support for at least the canvas 120 In the described embodiment, the cover part 108 can include the chamfer 124 surrounding the screen 120. The cover part 108 can be moved with the aid of the hollow latch assembly 110 from the closed position to remain in the open position and again for the closed one. Screen 120 can display visual content such as a graphical user interface, still images such as photographs, as well as video media items such as films. The screen 120 can display images using any appropriate technology such as a liquid crystal display (LCD), OLED, etc. The portable computing system 100 may also include the image capture device 126 located in the chamfer 124. The scanning device image capture 126 can be configured to capture both still and video images. The finish of the screen (or chamfer) 124 can be supported by structural components (not shown) inside the cover part, but connected with the rear cover 122. The finish of the screen 124 can accentuate the overall appearance of the screen 120 by hiding the components operational and structural aspects as well as focusing attention on the active area of the screen 120. Data ports 128 and 130 can be used to transfer data and / or power between an external circuit (s) and the portable computing system 100. A cover part 108 can be formed to have unique structure construction which can provide additional strength and elasticity for cover part 108, which is particularly important due to the stresses caused by repeated opening and closing. In addition to the increase in strength and elasticity, the unique structure construction of the cover part 108 can reduce the overall part count by eliminating separate aspects of support.
    [0060] Now observe Figs. 3 through 6 showing side views of the portable computing system 100. More specifically, Fig. 3 shows a rear view of the portable computing system 100 showing the cosmetic aspect 111 used to hide the hollow hitch assembly 110 and at least two feet of support 132 which can be used to provide support for portable computing system 100. Support feet 132 can be formed of wear-resistant and elastic material such as plastic. S Fig. 4 shows the representative front view of the portable computing system 100 illustrating the relative position of the insert 112 between the upper box 106 and the lid part 108. As shown in Fig. 5 illustrating a representative left side view of the computing system laptop 100 featuring the left side wall 134 of the upper box 106 having openings that can be used to accommodate various data and power ports. For example, the opening 136 formed in the left side wall 134 can be used to accommodate an Ethernet cable whereas the opening 138 can be used to accommodate the MagsafeTM 140 receptacle. It should be noted that the opening 138 must have a high aspect ratio in order to accommodate the receptacle 140 due in part to a relatively large platform 142, or table that allows an appropriately configured PTO to align more easily with the receptacle 140. In the particular embodiments described in this document, the audio receptacle 144 and the side-activated microphone 146 can be positioned on side wall 134. As shown in Fig. 6, the right side wall 148 of the upper box 106 can include the openings 150 and 152 used to accommodate data ports 128 (such as a data) and 130 that can be in the form of a video port, such as a DisplayPortTM type video port, respectively.
    [0061] Fig. 7 shows an external view of the lower box 104 showing the relative positioning of the support feet 132, the insert 12, the exterior of the hollow coupling assembly 110 and the fixing devices 154 used to maintain the lower box 104 and the upper box together. In the particular implementation described, the fasteners 154 can be in the form of fasteners that cannot be manipulated described in more detail below. Fig. 8 shows an internal view of the lower box 104 showing the openings 156 used to accommodate the fixtures 154. In addition, the fixtures 158 can be used to hold the feet of the device 132 close to the lower box 104. The separator 160 can be used to provide support for the lower box 104 when connected with the upper box 106.
    [0062] Figs. 9a and 9b show representative embodiments of the upper box 106. For example, Fig. 9a shows an exterior view of the upper box 106 illustrating various openings used to accommodate the keyboard 14 and the touch sensitive surface 116. More specifically, each of the openings 160 can have a size and shape according to the specific set of the upper part of the keyboard key. For example, opening 160-1 can be sized to accommodate the trigger button 118-1 while opening 160-2 can be sized to accommodate a space bar. In addition to the openings 160, the opening 162 can provide support for the touch sensitive surface 116. For example, the opening 162 can include the connection aspect 164 which can be used to hold the touch sensitive surface 116 next to the upper housing 106 In addition, as seen in Fig. 9b showing the interior of the upper box 106, several additional connection aspects can be seen, which can be used to hold both the touch sensitive surface 116 and the keyboard 114. In a particular embodiment , the keyboard 14 and the touch sensitive surface 116 can share the circuit system, which can at least reduce the total component count. In addition, the notch 166 can be used in conjunction with the hollow hitch assembly 110 to provide a more unified and integrated appearance for the portable computing system 100. Connection aspects 168 can be used with the opening 156 to hold the bottom case 104 and the upper box 106 using any suitable fixing device.
    [0063] Figs. 10a through 10c have an upper box and the feature plate assembly 180. Figs. 10a shows the whole set 180 in perspective view facing the observer, while Fig. 10b is a close-up view of a corner of the set. As shown in Fig. 10b, a resource plate 184 is attached to the upper box 106 by means of several rivets 184. Various components can be arranged between the resource plate 184 and the upper box 106, as will be readily appreciated. Fig. 10c represents a partial cross-section of a rivet location of the resource plate assembly 180, which is riveted in a compound shank manner. The feature plate 184, which can be a thin steel plate, for example, can be riveted at location 188 next to an aluminum mesh 186 which is located between the various upper parts of the keyboard key (not shown). The mesh 186 can in turn be coupled with the upper box 106, or it can be formed integrally with the upper box in some embodiments. The location 188 is preferably dimensioned and formed to accommodate a rivet that passes through a location placed close to the resource plate 182.
    [0064] Several advantages can be obtained by having the resource plate 182 which is riveted next to the upper box 106 by means of several rivets 184 to include several internal components in it. For example, the combination of the upper box 106 with a steel resource plate 182 can result in the creation of effective EMI protection, and even Faraday cage protection in some embodiments. This protective effect against EMI is accentuated by the use of several fixation points held together by the rivets, which tends to seal the internal components of the keyboard better than when fewer fixation points are used, such as in a screw or nut bolt. This EMI protection then effectively isolates the keyboard on an EMI sensor from several other components in the computing device, such as the processor located directly below the keyboard or any antenna that may be on the device.
    [0065] As another benefit, using a rivet instead of other types of fastening components, such as screws, nut bolts, among others, results in no need for the fastening component extending through the upper box 106 or even the aluminum mesh 186 in order to effect a strong fixation of components. This is advantageous where a flat, continuous surface may be desired on the outside of the upper housing or the aluminum mesh. This is also advantageous in that manufacturing riveting processes can be significantly faster than similar bolting or nut bolting processes, in that the observer side of the components being riveted does not need to be accessed on some cases, such as the one that is revealed above. Another benefit that can be achieved by using rivets instead of screws is that the set as a whole can be thinner, particularly since there is no longer a need to accommodate threaded structures or components, which can consume space.
    [0066] Although using rivets instead of screws or bolts tends to result in the need for a greater amount of fastening components (ie rivets), since each rivet location tends to be weaker than each location of screw in a similar set, this can be countered by using a riveting arrangement of the composite rod type for increased strength, and also a fast riveting process to obtain the benefit of a flat and continuous observer-facing surface in a side of the set being riveted. The use of rivets instead of screws can lead to simpler manufacturing processes that tend to save costs, are faster and can also result in the use of more attachment points, which in turn leads to greater integrity in the components that are fixed together more reliably. The overall feel of an upper case, keyboard and feature plate assembly riveted together is also improved by using rivets instead of screws, as the component combination tends to be more rigid, more stable and more fixed as a general assembly .
    [0067] Fig. 11a shows an embodiment of a clamping device 154 in the form of a tamper-resistant clamping device 170 that can be used to hold the lower housing 104 next to the upper housing 106. In the embodiments described, the resistant housing the manipulation 170 can be formed to have the head portion 172 which includes recesses formed 174. The number and shape of the recesses 174 can be varied widely. Thus, only the authorized mechanism by which the tamper-resistant fixture 170 can be engaged for insertion or removal is the actuator 176 shown in Fig. 11b. The driver 176 includes the driver part 178 formed to correspond to the recesses formed 174. In the particular implementation shown in Figs. 11a and 11b, the manipulation-resistant fixture 170 may include five recesses formed 174 (also referred to as lugs) so that the manipulation-resistant fixture 170 can be referred to as five-fixation fixture 170. Therefore, In order to properly engage the clamping device with five shoulders 170, the driver part 178 of the driver 176 must have a shape that is in accordance with this of the five shoulders 174. In other words, the driver part 178 must be dimensioned and shaped to match the shape and size of the five shoulder 174. Consequently, only individuals having access to the authorized five-shoulder trigger 176 are able to properly engage the clamping device with five shoulder 170. In this way, the use of a formatted trigger of improper form can be promptly stopped by means of the probable damage caused to the fixation device with five shoulders 170.
    [0068] Fig. 12 shows the portable computing system 100 with the bottom box 104 and the battery removed to reveal various components and internal structures. For example, the fan assembly 602 can be used to discharge the residual heat provided by the heat transfer module 604. The heat transfer module or thermal module 604 can include stages 603 and 605. Steps 603 and 605 can couple thermally and mechanically heat conductors 606 with heat generation components such as the central processing unit (CPU) and a graphics controller (GPU), respectively. In the shown embodiment, the residual heat can be transferred to cooling material (such as water) in the heat conductor 606 and transported to the fan assembly 608. The fan assembly 602 can then force comparatively cooler air through the fan assembly 608 causing heat to be transferred from the refrigerant material in the heat conductors 606 to the cooler air which can then be exhausted by means of the rear ventilation 607.
    [0069] Figs. 13a through 13d show an implementation of thermal module 604 in additional detailed views according to the described embodiments. The thermal module 604 can include the elastic stage 603 and the elastic stage 605 which can come in contact with a top part of the integrated circuits CPU and GPU, respectively. The elastic stages 603 and 605 can have a substantially uniform thickness and can act as a stage as well as a stem and spring. Stages 603 and 605 can provide an efficient heat transfer path between the CPU and GPU and the heat conductor 606. The thermal module 604 can have a low Z-Stack and is therefore well suited for computer systems compact. In order to provide the efficient thermal path, stages 603 and 604 can be formed from a material having superior thermal and mechanical properties. The superior thermal properties can facilitate the transfer of heat from the CPU and GPU to the heat conductor 606. The superior mechanical properties can guarantee a good mechanical coupling between stages 603 and 605 and the CPU and GPU, respectively. In particular, the application of sufficient pressure to form a good mechanical / thermal interface can substantially improve the overall heat transfer characteristics of the thermal module 604.
    [0070] Referring again to Fig. 12, audio circuits 616 and 618 can be connected with an inner surface of the upper box 106 which can, in one embodiment, carry audio from the portable computing device 100 via the keyboard 114. The circuit the touch sensitive surface / keyboard 620 can be connected via flexible cable 622 to MLB 612. Antenna cable 624 can be secured in the upper housing 106 using cable ties 626 while openings 628 and 630 (referred to such as hammerhead openings and described below) can assist in routing cables 632 and 634, respectively. The 638 board connector can include stabilizers to prevent pin-to-pin short-circuits when the pins on the 638 board connector are inserted into the corresponding openings.
    [0071] For example, as shown in Figs. 14a and 14b, the plate-to-plate connector 638 may have a series of pins 650 that can be inserted into the corresponding openings 652 in connector 654 as an associated pair. In order to prevent angular displacement when pins 650 are inserted into openings 652, plastic structure 656 can be provided. The plastic frame 656 can prevent angular misalignments. Specifically, the raised aspect 658 at both ends of the plastic frame 656 can be placed in the corresponding slots 660 in the connector 654 essentially creating half a piston in the connector 638 forcing the pins 650 to be properly aligned with the openings 652 prior to insertion. In this way, by combining the plastic structure 656 with a pre-existing component, a potentially harmful event can be prevented.
    [0072] Fig. 15 shows a specific implementation of the openings 628 and 630 used to route cables 632 and 634. The openings 628 and 630 can provide a deterministic way to assemble cables and ensure proper spatial placement and retention without adding parts. In the described embodiment, openings 628 and 630 can be shaped to look like a hammer head to accommodate cables 632 and 634. However, it should be noted that any suitable shape may be suitable. In this way, without using the addition of components, the cable organization (ie efficient design and aesthetic appearance) of cables can be improved. For example, openings 638 and 630 in MLB 612 can assist in routing the cable by providing a well-defined path for cable placement that can help reduce unnecessary cable routing by reducing both time and cost as a whole.
    [0073] Fig. 16 shows an expanded view of the region 700 of the IPD 640 circuit which can include various components for processing keyboards and touch sensitive surfaces. The processing components can be configured to receive signals generated from a sensor actuation, such as a membrane associated with the keyboard and an actuation of one or more sensors associated with the touch sensitive surface 116 such as a dome switch which can be configured to detect a position and / or change in the position of one or more objects on the top surface of the touch sensitive surface, such as the tips of one or more of the user's fingers. In one embodiment, the sensor can be constructed from a PET material. The processing components can also include a keyboard interface that can be configured to receive the keyboard connector that can be configured to communicate signals generated from user inputs received on the keyboard, such as signals generated via the actuation of a sensor. membrane associated with the keyboard. After processing, signals from the touch surface and / or the keyboard can be sent to the main logic board MLB 612 via flexible cable 622.
    [0074] Figs. 17a and 17b show representative cable clamps 626 used to secure cables such as antenna cable 624 as shown in Fig. 18. In particular, since some cables can be difficult to route due to their size and resistance to curvature, they provide good Organizing cables for these types of cables can be difficult and time-consuming, especially in small work areas available in the portable computing system 100. Therefore, 626 cable clamps can provide an easy and efficient mechanism for quickly routing and securing cables such as the 624 antenna cable. Cable clamps can take various shapes as appropriate for the particular cable and location. For example, Fig. 17a shows a particular implementation of a cable tie in the form of cable tie 626 (shown in Figure 12) having the base part 626 and the "tongue" part 627 that can be used to direct and hold the antenna cable 624. As shown in Fig. 18, in order to hold the antenna cable 624, the base part 626 of the cable tie 626 is first connected with the upper housing 106 and with the antenna cable 624 With the base part 626 securely connected to the top box 106 and holding the antenna cable 624, the body part 627 cable clamp 626 wrapped around the antenna cable 624 so that the tongue part 627c is secured together to the upper box 106 using, for example, adhesive. In this way, the 624 antenna cable can be easily routed and secured in a simple and efficient operation that results in an elegant and clean overall appearance resulting in good cable organization. Fig. 17b shows another embodiment of cable tie 626.
    [0075] Fig. 19 shows an exploded view of the battery pack 800 according to the described embodiment. The battery pack 800 may include a series of individual battery cells arranged asymmetrically 802 included in a structure shown in greater detail in Fig. 20 and described in more detail in US Patent Application No. INTERGRATED FRAME BATTERY CELL having No. 12 / 714,737 which is incorporated by reference in its entirety. 802 battery cells can be configured in a mirror image arrangement. For example, battery cells 802a, 802b and 802c on side 804 can have corresponding battery cells 802a, 802b and 802c placed in a mirror image arrangement on side 806 of battery pack 800. In the described embodiment, battery cells 802a they can have different properties of 802b, or 802c, and vice versa. Battery 800 may have a distributed battery management unit (BMU), or as shown in Fig. 19, a separate BMU. In any case, by varying the size and properties of the 802 battery cells, the 800 battery can be arranged to have a low Z-Stack that can match the overall size and shape of the portable computing device 100. High Speed Memory and Connector
    [0076] Again referring to Fig. 12, the memory device 610 can be used to store data as the main memory of the system. The memory device 610 can be a high speed memory card, and can take the form of a solid state memory device such as FLASH memory that can be connected with other internal circuits such as, for example, the main logic board, or MLB 612, by means of a high-speed connector 614. In the described embodiment, the memory device 610 can take the form of a single layer of FLASH memory chips which in the described embodiment can be four. However, it should be noted that any suitable number of memory chips can be used. In addition to the memory chips, one or more controller chips may be included. The memory device 610 can be mounted close to the connector 614 by sliding the contacts or pins 615 to the location inside the connector 614 and then holding the memory device 610 using a fixture through the opening 617. Thus, the Z- The reduced stack of the 610 memory device can be improved by the overall integration of the system by being able to use space that would not otherwise be usable with a conventionally configured solid state memory device. For example, the side stack arrangement of the memory device 610 can be seated in the space above the system memory (not shown). It should be noted that in some embodiments, the memory device 610 may have a double-sided configuration in which the memory chips can be mounted on both sides of the memory device 610. This arrangement may be well suited for computing systems having something more available than the embodiment shown in Fig. 12.
    [0077] Figs. 21a through 21d show the SSD memory module 610 in perspective, side, bottom and top views, respectively, according to the described embodiments. As mentioned above, the SSD 610 memory module can include the 611 memory chips on one side whereas in other embodiments, the memory chips can be located on both sides of the 610 SSD memory module. Again, one or more controller chips 613 may also be used, and plate 610 may also include one or more insulating regions 619. In the embodiments shown, the SSD memory module 610 may be arranged in a "chewing gum tablet" arrangement where active components of the SSD 610 memory module are arranged in a lateral way. In this way, the SSD 610 memory module can have a low Z-Stack and therefore can be placed inside the portable computing device 100 in areas that would not be available for conventionally configured solid state memories. In particular, by minimizing the number of components and placing the components in a space-efficient manner, the SSD 610 memory module can be accommodated in a region directly above the CPU memory creating a high density component storage region.
    [0078] Although a wide variety of shapes, sizes and dimensions can be used for such a high speed 610 SSD memory module, several specific dimensions can provide context with respect to the particular examples set out in Figs. 12 and 21a through 21d. For example, the 610 module or memory card may have an overall length (including contacts / pins) of around 108 to 110 mm, a width of around 23 to 25 mm, and a plate thickness of around from 0.6 to 0.8 mm. More specifically, the 610 memory card or module can have an overall length of around 108.9 mm, a width of around 24 mm, and a plate thickness of around 0.7 mm. The maximum thickness for memory chips or other components located on the board can be around 1.4 mm in most locations on the board, although reduced maximum thicknesses may apply close to the edges of the board. The maximum combined thickness of the module at all locations is therefore around 2.2 mm. Aperture 617 may be in the shape of a semicircle having a diameter around 6 mm.
    [0079] Now looking at Fig. 22a, an alternative SSD memory module having memory chips on both sides of it is presented in side view. The 610a SSD memory card or module can be substantially similar to the 610 card above, except that the 611 memory chips may be included on both sides of the card. Such memory chips on both sides of the module can all power to the set of contacts or pins 615 located on one edge of the SSD memory module.
    [0080] Fig. 22b shows a close view of the contacts of an SSD memory module according to the described embodiments. Again, the SSD 610 memory module or board may include one or more insulating regions 619, as well as a set of contacts 615 located on one edge of the side of the board. In some embodiments, exactly eighteen 615 contacts can be used, although it will readily be appreciated that more or less contacts can be used for a given application. In the specific embodiment presented, the eighteen contacts are separated into a first part of six contacts and a second part of twelve contacts. These first and second parts or groups of contacts can be separated by a physical space 615-0, which can be used to help facilitate the proper insertion of the module inside a respective connector. For example, space 615-0 may be arranged to fit around a column or other physical stop within the connector arrangement, so that an attempt to insert the 610 memory module backwards will not be successful.
    [0081] In the specific embodiment presented, each of the contacts or pins 615 can have a specific purpose or function. For example, starting from the first contact at the bottom of the second part of twelve contacts, each of the contacts can have the following specific functionality: SIGNAL PIN NUMBER 615-1 RESERVED 615-2 GND 615-3 SATA_HDD_D2R_P 615-4 SATA_HDD_D2R_N 615-5 GND 615-6 GND 615-7 SATA_HDD_R2D_N 615-8 SATA_HDD_R2D_P 615-9 GND 615-10 TUTX 615-11 TURX 615-12 GND 615-13 DAS / DSS 615-14 PRESENCE 615-15 Vcc 615-16 Vcc 615-17 Vdc 615-18 Vdc
    [0082] Although other arrangements and functionalities of the contact are certainly possible, the previous specific configuration is thought to work well for the particular portable computing device revealed in this document.
    [0083] Turning now to Fig. 23, several details regarding a high-speed connector for use with the previous SSD memory module are provided in the illustration as shown in the top perspective view. This figure, as with the other figures included, is presented for illustrative purposes and does not limit any possible embodiment of the present invention or embodiments.
    [0084] The connector 1100, which can be identical or substantially similar to the connector 614 mentioned above, can generally include the insulating housing 1110, several contacts 1120, and the shield 1130. This connector can be mounted on a printed circuit board. The printed circuit board can be a motherboard, main board, multilayer board, or another type of board. The 1100 connector can be adapted to receive a card or card, such as a child or optional card or card.
    [0085] The insulating housing 110 may include an opening on the front side 1112 to receive a child or optional card. The insulating housing 1110 can also include one or more openings 1114, shown in this example on the top side of the insulating housing 1110. This one or more openings 1114 can be used to visually or otherwise determine that a card is properly inserted in the connector 1100.
    [0086] In this example, each of the several contacts 1120 can include a first part 1122 and a second part 1124. The first part 1122 can extend beyond a front of the housing 1110. The first part 1122 can be used to make contact with a contact or island located on a printed circuit board. The second part 1124 can be approximately in line with the first part 1122. The second part 124 can make contact with a contact on a plate when the plate is inserted into connector 1100. Each of the contacts 1120 can also include a third part (not presented) for mechanical stability, as will be discussed below.
    [0087] Shield 1130 can cover at least a top and a back of connector 1100. Shield 130 can be used as a ground plane, where it connects with one or more ground contacts on the board and with one or more ground contacts on the printed circuit board. The 1130 shield can be divided into two or more parts. In this specific example, the 1130 shield can be divided into three parts. Dividing the shield 130 into parts can improve the grounding provided by the shield 1130 by ensuring that the shield 130 contacts the ground contacts on a card at three or more points when the card is inserted into connector 1100. In this specific example, one or more parts 1132 of the shield 130 can be folded back over a bottom part of the shield 130. With this arrangement, when the card is inserted into the opening 1112 of the connector 1110, the shield part 132 can press down on an upper surface the card, thereby engaging with one or more ground contacts. This action can also push the contacts on the card into the second parts 1124 of the contacts 1120 to form electrical paths. The tabs 1134 can be located on the shield 1130 and can be used to connect the shield 130 with the grounds on a printed circuit board.
    [0088] Embodiments of the present invention can provide connectors having high speed paths between a child or optional card and a printed circuit board. Specifically, the first parts 1122 and the second parts 124 of contacts 120 can form short, straight paths through which one or more signals and energy sources can travel. In addition, these paths can be protected by shield 130, which can improve signal quality and allow faster transmission rates. By dividing the shield 130 into multiple parts, ground connections between the ground on a card and a shield can be improved.
    [0089] In addition, the short and direct paths provided by the 1120 contacts can allow the 1100 connector to have a low profile. A third contact part 120 can be used to provide mechanical stability. This third part can be approximately in line with the first parts 1122, and parallel to a bottom part of the 1100 connector.
    [0090] Embodiments of the present invention can provide connectors that improve the reliability of the manufacturing process. Specifically, the first 1122 parts can be surface-mounted contacts. These first 1122 parts can be welded together with the islands or contacts on the printed circuit board. This can allow for easy inspection of the solder connections of the 1122 contacts on the printed circuit board. In addition, openings 1114 may allow inspection to ensure that a card is properly inserted into the 1100 connector.
    [0091] Fig. 24 illustrates a bottom perspective view of a connector 1100 according to the described embodiments. This figure includes insulating housing 1110, several contacts 1120, and shield 1130. Insulating housing 1110 can include flaps 1140. These flaps can be used to provide mechanical support for connector 1100 on a printed circuit board. Tab 134 can be used to form an electrical connection between shield 1130 and lines or ground planes on a printed circuit board. In the various embodiments, the housing 1110 can be plastic or other insulating material. The 1120 contacts can be stainless steel, copper, brass, aluminum, or other conductive material. Similarly, the 1130 shield can be stainless steel, copper, brass, aluminum, or other conductive material.
    [0092] Although eighteen contacts are presented in this specific example, again other contact numbers can be used. Furthermore, although the first parts 1122 are presented as extending from the front of the contacts 1100, in other embodiments of the present invention they can extend in other directions. For example, they can be extend in a downward direction, or they can be extend behind connector 1100. In other embodiments of the present invention, the first parts 1122 and the second parts 124 of contacts 120 can be the same part. In addition, although the 1130 shield is presented as having a particular configuration, other configurations may be possible. For example, the shield 1130 may not be divided into multiple parts, although in other embodiments of the present invention, the shield 1130 may be divided into two or more parts. In addition, although one or more openings 1114 are presented at the top of the insulating housing 1110, in other embodiments, these openings can be omitted, there can be more or less than two openings 1140, and the openings can be provided at any another place. Again, the 1100 connector can accept or receive a child or optional card, with an example being shown in the following figure.
    [0093] Fig. 25 illustrates a child or option card inserted in a connector according to the described embodiments. These examples include a 1300 connector receiving a child or an optional 1360 card. The 1360 card can be identical or substantially similar to the SSD memory module 610 or 610a discussed in more detail above. When the 1360 card is inserted into the 1300 connector, the contacts at the top of the 1360 card can form electrical connections with the 1332 part of the 1330 shield. Contacts at the bottom of the 1360 card can form electrical connections with the second parts 1324 from contacts 1320. Again, various embodiments can provide a very short signal path from the 1310 card to a printed circuit board on which the 1300 connector resides. Specifically, the signal path can include the first part 1322 and the second part 1324 of contacts 1320. The contacts 1320 can also provide mechanical stability by including the third part 1326. Specifically, the third part 1326 can extend into the insulating housing 1310. In this example, the second part 1324 and the third part 1326 can extend into the insulating housing 1310, although the first part 1322 may extend away from the front of the connector 1300. The second part 1324 and the third part 1326 of contact 1320 can be approximately in line with the first part 1322. The third part 1326 can extend approximately parallel to the bottom of the connector 1300.
    [0094] Fig. 26 illustrates a top view of a connector, while Fig. 27 illustrates a cross-sectional view along the FF line of the connector receptacle of Fig. 26. A cross-sectional view of the contact is shown. 1322 and shield 1332 according to an embodiment of the present invention. Fig. 28 shows a detailed region G from Fig. 26 of a part of a top part of a connector according to the described embodiments. As shown, the physical stop 1350 can be used to separate contacts into multiple groups. As mentioned above, the physical stop 1350 can also be arranged to match the 615-0 space on an associated memory card, so that the memory card cannot be inserted back into the connector.
    [0095] Fig. 29 shows in front view a connector according to the described embodiments. Fig. 30 shows in side view a connector according to the described embodiments. Fig. 31 shows a detail region E from Fig. 30 from a side view according to the described embodiments. Fig. 22 shows a bottom view of a connector according to the described embodiments.
    [0096] Again, in these examples, illustrative examples of embodiments of the present invention have been presented. It should be noted that variations in the parts of these connectors, such as insulating housings 110, contacts 120, and shields 130, and parts thereof, can be made consistent with embodiments of the present invention, and it is not required that any of these have the shape, size , arrangement or other particular features shown in the figures so that a connector according to an embodiment of the present invention works properly.
    [0097] Fig. 33 presents a flow chart detailing a process according to the described embodiments. The 3300 process can start in 3302 by providing a lower case and an upper case, at least one of which has a wedge shape. In 3304, the lower case is coupled with the upper case to form a complete housing for a base part of the portable computing device to include at least several operational components and several structural components. The base part defines a wedge shape so that the one or more user input components are presented to a user of the portable computing device, and this wedge shape is a result of the upper case or the lower case being in shape wedge. In 3306, the base part is hingedly connected with a cover part by a hinge assembly. In the described embodiments, the cover part has several components, at least one of which is a canvas. In 3308, at least some of the components in the cover part are electrically connected to the operating components in the base part by means of one or more electrical conductors that pass through the hinge assembly.
    [0098] Although the foregoing invention has been described in detail by way of illustration and example for the sake of clarity and understanding, it will be recognized that the invention described above can be incorporated into several other specific variations and embodiments without departing from the spirit or the essential features of the invention. Some changes and modifications can be practiced, and it is understood that the invention is not to be limited by the foregoing details, but rather, it is to be defined by the scope of the attached embodiments.
    权利要求:
    Claims (9)
    [0001]
    1. Portable computing device (100) characterized by the fact that: a wedge-shaped body (102) defining a first end and a second tapered end narrower than the first end, the wedge-shaped body (102) comprising: a unitary metallic upper case (106) defining a keyboard network having a plurality of key openings; and one or more user input components (114, 116, 118) comprising: a keyboard assembly; and a touch-sensitive surface (116) located within and close to a touch-sensitive surface opening in the unitary metal upper case (106) near the second tapered end, the touch-sensitive surface (116) being adapted to accept touch inputs from an end user of the portable computing device; a lid part (108) comprising a screen assembly (120) arranged to present visual content; and a hinge assembly having a size and shape that fits within the first end of the wedge-shaped body (102), the hinge assembly arranged to pivotally connect the wedge-shaped body (102) and the lid part (108), in which one or more electrically conductive conductors electrically connect at least some of the user input components in the wedge-shaped body (102) with the screen assembly (120), at least one of which is supported in the set of hinge.
    [0002]
    2. Portable computing device (100) according to claim 1, characterized by the fact that the hinge assembly still includes: a hollow coupling (110) having an annular outer region and a central hole region surrounded by the outer region annular, in which the central hole region allows the passage of and provides support for the one or more electrical conductors; a first fastening component that facilitates the coupling of the hollow coupling (110) to the wedge-shaped body (102); and a second fastening component that facilitates the coupling of the hollow coupling (110) to the cover part (108), wherein at least one of the first fastening component and the second fastening component is integrally formed with the hollow coupling (110) ).
    [0003]
    Portable computing device (100) according to claim 1, characterized in that the hinge assembly (110) is positioned inside a wall (111) of the portable computing device (100).
    [0004]
    4. Portable computing device (100), according to claim 1, characterized by the fact that: the unitary metallic upper box (106) defines a notch (166) close to the first end of the wedge-shaped body (102) ; and the hinge assembly (110) is positioned within the notch (166).
    [0005]
    5. Portable computing device (100), according to claim 1, characterized by the fact that the unitary metallic upper box (106) is formed of aluminum.
    [0006]
    6. Portable computing device (100), according to claim 1, characterized by the fact that it still comprises a processor positioned under the metallic resource plate.
    [0007]
    7. Portable computing device (100) according to claim 1, characterized by the fact that the unitary metallic upper box (106) further defines a pair of side walls (148) positioned along opposite ends of an upper wall , each side wall tapering from a first height to a second height along a direction extending away from the first end of the wedge-shaped body, the second height being less than the first height.
    [0008]
    8. Portable computing device (100), according to claim 7, characterized by the fact that the wedge-shaped body (102) also includes a lower housing component (104, 420) mounted with the unitary metallic upper box (106) to enclose at least a plurality of operational components and a plurality of structural components.
    [0009]
    9. Portable computing device (100) according to claim 8, characterized in that it further comprises a rail (412) defined on the side walls, the rail (412) defined at least in part by: a lower surface; an external wall; and an inner wall that is shorter than the outer wall and forms a shoulder having a first contact surface (442) which contacts a second contact surface of the lower housing component (104, 420).
    类似技术:
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    同族专利:
    公开号 | 公开日
    US20150131220A1|2015-05-14|
    US8339775B2|2012-12-25|
    AU2011312801B2|2015-06-25|
    AU2011101053A4|2011-09-22|
    TWI471070B|2015-01-21|
    US8995115B2|2015-03-31|
    EP2622429A1|2013-08-07|
    EP2622429A4|2015-12-09|
    KR20160129101A|2016-11-08|
    TW201228491A|2012-07-01|
    US10061361B2|2018-08-28|
    US20130003280A1|2013-01-03|
    EP2622429B1|2020-03-04|
    US20120099264A1|2012-04-26|
    CN103221895A|2013-07-24|
    CN203276087U|2013-11-06|
    BR112013007103A2|2016-06-14|
    MX2013003563A|2013-06-28|
    KR101885014B1|2018-08-30|
    CN103221895B|2016-01-27|
    AU2011101053B4|2011-12-22|
    CN103176535B|2016-07-13|
    KR101671802B1|2016-11-03|
    KR101484427B1|2015-01-19|
    KR20130071491A|2013-06-28|
    KR20140098261A|2014-08-07|
    JP2014500990A|2014-01-16|
    WO2012047379A1|2012-04-12|
    US9829932B2|2017-11-28|
    CN102566674B|2015-12-16|
    US20160259380A1|2016-09-08|
    AU2011312801A1|2013-05-02|
    HK1173249A1|2013-05-10|
    HK1187129A1|2014-03-28|
    CN202453764U|2012-09-26|
    CN102566674A|2012-07-11|
    CN103176535A|2013-06-26|
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    法律状态:
    2018-12-26| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-10-01| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|
    2020-07-28| B07A| Technical examination (opinion): publication of technical examination (opinion)|
    2020-12-01| B09A| Decision: intention to grant|
    2021-02-09| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 15/08/2011, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    US12/894,437|US8317542B2|2010-09-30|2010-09-30|High-speed card connector|
    US12/894,437|2010-09-30|
    US39403710P| true| 2010-10-18|2010-10-18|
    US61/394,037|2010-10-18|
    US27572410P| true| 2010-10-19|2010-10-19|
    US61/275,724|2010-10-19|
    PCT/US2011/047796|WO2012047379A1|2010-09-30|2011-08-15|Portable computing device|
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