• 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:
    An adapter for a mobile device is provided. The adapter comprises a plug which is provided with an outer surface and an inner surface, the inner surface being opposite the outer surface. The adapter further comprises a surface-mounted connection port located on the outer surface. The adapter further comprises a male connectore extending from the inner surface. The adapter further comprises one or more electrical connections between the male connector and the body connection port. The plug is configured to connect to a socket of a device, and the male connector is configured to connect to a corresponding female connection port of the device located inside the socket, the outer surface of the plug when the plug is coupled with the socket, is consistent with an associated outer surface of the device.
    公开号:BE1025307B1
    申请号:E2017/5748
    申请日:2017-10-19
    公开日:2019-01-21
    发明作者:Jaeho Choi;Travis Baldwin;Mu-Kai Shen;Edward M. Voli
    申请人:Symbol Technologies Llc;
    IPC主号:
    专利说明:

    High-quality (Eng: enterprise-grade) devices are often equipped with surface-mounted charging platforms that are compatible with surface-mounted charging stations. Such devices are difficult to charge outside the corporate environment, because surface-mounted charging stations are expensive and it is unlikely that they are installed in a consumer environment (for example, at a person's home). Therefore, when a user, such as an employee, takes such a device home (for example at night), it is likely that the user does not have a compatible charger and the device may not be charged. Consumer-class devices are further generally equipped with female connection ports that are compatible with consumer-class charging schemes and / or charging stations that are equipped with male connectors. Such male connectors tend to be damaged in enterprise environments due to torsion that can occur when a device is connected to or disconnected from the male connector.
    SUMMARY OF THE INVENTION
    According to an aspect of the invention, the invention provides an adapter that includes a plug having an outer surface and an inner surface, the inner surface facing the outer surface, a mounting connector port located on the outer surface, a male connector extending from the inner surface, and comprising one or more electrical connections between the male connector and the surface-mounted connection port, the plug being configured to connect to a socket of a device, and the male connector configured to connect to a socket associated female connection port of the device that located
    BE2017 / 5748 is inside the socket, the outer surface of the plug, when the plug is coupled to the socket, conforms to a corresponding outer surface of the device.
    The plug can preferably be provided with a closure part around the male connector, the closure part being configured to couple with a cavity located around the associated female connection port of the device.
    The plug may further be provided with a soft rubber seal member and a hard rubber cover, the soft rubber seal member being configured to close the male connector against the hard rubber cover.
    The adapter can preferably further be provided with a wire extending from the inner surface, in addition to the male connector.
    The male connector may preferably comprise at least one of a USB connector, a USB-C connector and / or a LIGHTNING ™ connector.
    The surface-mounted connection port may comprise a POGO contact platform, and may preferably further be provided with a connector closure provided with a first plurality of recesses above the POGO contact platform.
    The body connection port may preferably include one or more recesses that are configured to accommodate one or more guide posts of the external accessory when the body connection port is coupled to an external accessory.
    The one or more electrical connections may further comprise a printed circuit board located in the plug.
    According to a further aspect of the invention, the invention provides an apparatus comprising a housing which is provided with an outer surface, which comprises a socket connected to the outer surface of the housing, the socket being provided with
    BE2017 / 5748 an inner surface that is recessed with respect to the outer surface, and which comprises a female connection port located in an inner surface of the socket, the socket and the female connection port being configured to accommodate an adapter, the adapter comprises a plug configured to couple to the female connector, the adapter further comprising a male connector configured to couple to the female connector port, the female connector configured to connect a corresponding inner surface of the plug to the inner surface of the female connector to insert the socket.
    The adapter may preferably be configured to convert the female connection port to a surface-mounted connection port, wherein an associated outer surface of the adapter, when the adapter is coupled to the socket, is aligned with the outer surface of the housing.
    The socket may further be provided with a cavity in the inner surface, which is located around the female connection port, the cavity being configured to connect to a closure portion of the adapter.
    The mating plug further may preferably be provided with an opening configured to be removably received with a wire connected to the adapter.
    The female connection port may preferably comprise one of a USB port and / or a LIGHTNING ™ port.
    The socket may be further configured to couple with a termination that closes the socket and the female connection port.
    The socket can also be provided with one or more side walls that extend between the outer surface of the housing and the inner surface of the socket.
    BE2017 / 5748
    According to yet another aspect of the invention, the invention provides a connector assembly comprising a socket plug placed in an outer surface of a housing, the socket plug having an inner surface recessed relative to the outer surface of the housing, and comprising a female connection port located in an inner surface of the female connector, wherein the female connector and the female connection port are configured to receive an adapter, the adapter including a plug configured to convert the female connection port to a female connector surface-mounted connection port, wherein an associated outer surface of the plug, when the plug is coupled to the socket, is consistent with an outer surface of the housing.
    The adapter may further comprise a male connector configured to couple to the female connection port, the mating plug being configured to receive a corresponding inner surface of the plug against the inner surface of the mating plug.
    The present invention will be further elucidated with reference to the figures of the exemplary embodiments.
    BRIEF DESCRIPTION OF THE DIFFERENT VIEWS OF THE FIGURES
    The accompanying figures, in which the same reference numbers refer to identical or functionally identical elements throughout all separate views, are included in, and form part of the description, together with the detailed description below, and serve to further clarify embodiments of concepts which the claimed claims implementation, and clarify various principles and advantages of these embodiments.
    BE2017 / 5748
    Figure 1 shows a front perspective view of a device that is provided with a socket for adjusting the functionality of the mobile device.
    Figure 2 shows an end view of the device of Figure 1.
    Figure 3 shows an end perspective view of the device of Figure 1 and an adapter connectable to the socket.
    Figure 4 shows an end view of the mobile device of Figure 1, with an adapter coupled in the socket.
    Figure 5 shows a perspective view of an adapter for adjusting the functionality of a device.
    Figure 6 shows the adapter of Figure 5 in a disassembled state.
    Figure 7 shows the adapter of Figure 5 that is coupled to a connector of a high-quality (Eng: enterprise-grade) charging accessory.
    Figure 8 shows a schematic cross-section of the adapter of Figure 5 which is coupled to a socket of a device.
    Figure 9 shows a schematic cross-section of the adapter of Figure 5 which is coupled to a socket of a device.
    Figure 10 shows a schematic cross-section of the adapter of Figure 5 that is coupled to a consumer-class charging accessory.
    Figure 11 shows an end view of the device of Figure 1, with an adapter attached thereto.
    Figure 12 shows an end view of the device of Figure 1, with an envelope coupled to the socket.
    Figure 13 shows an end view of the device of Figure 1 with the case of Figure 12 removed.
    It will be clear to a person skilled in the art that parts are shown in the figures for simplicity and clarity and not necessarily
    BE2017 / 5748 are drawn to scale. For example, the dimensions and positions of some parts in the figures may be exaggerated relative to other parts, thereby helping to improve the understanding of the embodiments of the present description.
    The system and method components, when appropriate, are represented in the figures by conventional symbols, which leave only those specific details that relate to the understanding of the embodiments of the present invention, so as not to obscure the description with details. which are readily apparent to those skilled in the art who have the advantage of the disclosure herein.
    DETAILED DESCRIPTION
    Embodiments of the present description describe a mobile device and / or a mobile computer device and / or a portable computer provided with a housing with a socket for receiving one or more accessories. The socket is placed in an outer surface of the housing of the mobile device, the socket has an inner surface that is recessed with respect to the outer surface of the housing. A female connection port is located in an inner surface of the socket. The one or more accessories include an adapter that converts the female connection port to a surface-mounted connection port, for example to adapt the mobile device for use with high-quality (Eng: enterprise-grade) charging stations. The adapter comprises a plug which is provided with an outer surface and an inner surface, the inner surface being opposite the outer surface of the plug. The adapter is further provided with a male connector extending from the inner surface of the plug and a surface-mounted connection port located on the
    BE2017 / 5748 outer surface of the plug. The male connector is configured to connect to an associated female connection port of the device located inside the socket, with the outer surface of the plug, when the plug is coupled to the socket, aligned with a corresponding outer surface of the housing of the device .
    An aspect of the present disclosure provides an adapter that includes a plug having an outer surface and an inner surface, the inner surface being opposite the outer surface, which includes a surface-mounted connection port located on the outer surface, which includes a male connector which extends from the inner surface, and which comprises one or more electrical connections between the male connector and the body connection port, the plug being configured to connect to a socket of a device, and the male connector configured to connect to an associated female connection port of the device located inside the socket, wherein the outer surface of the plug, when the plug is coupled to the socket, is aligned with a corresponding outer surface of the device.
    In some embodiments, the plug is provided with a termination member around the male connector, the termination member being configured to connect to a cavity located around the associated female connection port of the device.
    In some embodiments, the plug is provided with a soft rubber seal member and a hard rubber cover, the soft rubber seal member being configured to close the male connector against the hard rubber cover.
    BE2017 / 5748
    In some embodiments, the adapter is further provided with a wire extending from the inner surface, in addition to the male connector.
    In some embodiments, the male connector comprises at least one of a USB connector, a USB-C connector, and / or a LIGHTNING ™ connector.
    In some embodiments, the set-up connection port comprises a POGO contact platform.
    In some embodiments, the surface-mounted connection port comprises a POGO contact platform and a connector termination provided with a first plurality of recesses above the POGO contact platform.
    In some embodiments, the body link port includes one or more recesses that are configured to accommodate one or more guide posts of the external accessory when the body link port is coupled to an external accessory.
    In some embodiments, the one or more electrical connections include a printed circuit board located in the plug.
    Another aspect of the present disclosure provides an apparatus that includes a housing that has an outer surface that includes a male connector that is placed in the outer surface of the housing, the male connector having an inner surface that is recessed with respect to the outer surface, and comprising a female connection port located in an inner surface of the socket, the socket and the female connection port being configured to receive an adapter, the adapter comprising a plug configured to connect to the socket , wherein the adapter is further provided with a male connector configured to couple to the female connection port, the socket being configured to
    BE2017 / 5748 to accept the corresponding inner surface of the plug against the inner surface of the socket.
    In some embodiments, the adapter converts the female connection port to a surface-mounted connection port, wherein an associated outer surface of the adapter, when the adapter is coupled to the socket, is aligned with the outer surface of the housing.
    In some embodiments, the mating plug is further provided with a cavity in the inner surface, which is located around the female connection port, the cavity being configured to couple with a closure portion of the adapter.
    In some embodiments, the mating plug is further provided with an aperture configured to removably receive a wire connected to the adapter.
    In some embodiments, the female connection port comprises at least one of a USB port and / or a LIGHTNING ™ port.
    In some embodiments, the female connector is further configured to couple with a termination that closes the female connector and the female connection port.
    In some embodiments, the socket is provided with one or more side walls that extend between the outer surface of the housing and the inner surface of the socket.
    Another aspect of the present description provides a connector assembly that includes a female connector that is placed in an outer surface of a housing, the female connector having an inner surface recessed relative to the outer surface of the housing, and having a female connection port comprises located in an inner surface of the socket, wherein the socket and the female connection port are configured to
    BE2017 / 5748 to accommodate an adapter, wherein the adapter is provided with a plug that converts the female connection port to a surface-mounted connection port, a corresponding outer surface of the plug, when the plug is coupled to the socket, is consistent with an outer surface of the housing . In some embodiments, the adapter further comprises a male connector configured to couple to the female connection port, the female connector being configured to receive an associated inner surface of the plug against the inner surface of the female connector; in some of these embodiments, the plug is provided with a soft rubber seal part and a hard rubber cover, the soft rubber cover part being configured to close the male connector against the hard rubber cover. In some embodiments, the mating plug is further provided with an aperture configured to removably receive a wire connected to the adapter.
    Attention is drawn to Figure 1 and Figure 2 which respectively show a front perspective view of a mobile device 100 (hereafter interchangeably referred to as the device 100) and an end view of the device 100. The device 100 comprises a housing 109 which is provided with an outer surface 111, a socket connector 113 (as best seen in Figure 2) which is placed in the outer surface 111 of the housing 109, the socket connector 113 being provided with an inner surface 115 recessed with respect to the outer surface 111, and a female connection port 117 located in an inner surface 115 of the plug connector 113, the plug connector 113 and the female connection port 117 being configured to receive an adapter, the adapter comprises a plug configured to couple with the female connector 113, the adapter further comprising a male connector that is
    BE2017 / 5748 configured to couple with the female connection port 117, the female connector 113 being configured to receive a corresponding inner surface of the plug against the inner surface 115 of the male connector 113, as described in more detail below with regard to Figure 9 .
    Device 100 essentially comprises a mobile device that comprises any suitable combination of electronic devices, communication devices, computers, portable electronic devices, mobile computers, portable computers, tablets, telephones, PDAs (personal digital assistants), mobile telephones, smartphones, e-readers, mobile cameras and the like may include, but are not limited to, each device thereof including a data recording component. Other suitable devices are within the scope of the present embodiments. For example, device 100 need not include a mobile communication device, but may include a device with specialized functions, for example, a device that has a warehouse inventory tracking and / or other data acquisition functionality, such as a mobile scanner provided with one or more of a radio frequency identification reader (RFID), near-field communication reader (NFC), image reader, and / or laser-based scanner data acquisition components. In some embodiments, data acquisition components may include a camera that is used to capture images for warehouse functionality. In yet a further embodiment, device 100 may be mounted in a vehicle.
    As shown, device 100 includes a mobile device that is configured for data and / or telephone functionality, and optionally for warehouse functionality. However, other devices are also within the scope of the present embodiments.
    BE2017 / 5748
    As shown, the mating plug 113 is located at an end 119 of the device 110, the end 119 being located along a lateral axis of the device, for example at an underside of the device 100, the term "underside" relative to the device 100 must be explained and the device 100 can be placed in any orientation. In other embodiments, the plug connector 113 is located along a side of the device 100 and / or on a front side of the device 100 and / or on a back side of the device 100 and / or on a top side of the device 100. The socket plug 113 is in fact located substantially at any suitable position in the housing 109, for example compatible with a position of display of the device 100 and / or compatible with positions of internal components of the device 100 electrically connected to the female connection port 117.
    As shown, the mating connector 113 is further provided with a cavity 121 in the inner surface 115, which is located around the female connection port 117, the cavity 121 being configured to connect to a closure portion of the adapter, as described in more detail below. Further, as shown, at least a portion of the inner surface 115 further comprises a recess 122 around the cavity 121 which has a shape corresponding to a complementary closure portion of an adapter, as described in more detail below with respect to Figure 8 and Figure 9.
    As shown, at least a portion of the inner surface 115 is further defined by a groove 123 having a shape complementary to a further portion of an adapter, as described in more detail below with respect to Figure 8 and Figure 9.
    In fact, the inner surface 115 is substantially adapted to receive and / or couple to an associated inner surface of an adapter used with the socket 113.
    BE2017 / 5748
    As shown, the mating connector 113 is further provided with an opening 124 configured to removably receive a wire connected to the adapter, as described in more detail below with respect to Figure 11.
    As shown, the male connector 113 is provided with one or more side walls that extend between the outer surface 111 of the housing 109 and the inner surface 115 of the male connector 113. As shown, in fact, the one or more side walls 125 determine the depth of a substantially rectangular The shape of the socket 112, which is provided with rounded corners. The one or more side walls 125 moreover determine the depth of both the cavity 121, the niche 122, and the groove 123.
    In other words, the mating plug 113 extends inside the device 100 at different depths defined by one or more side walls 125, and the female connection port is furthermore located recessed in the device at a depth determined by the one or more side walls 125, including side walls of the niche 122.
    In some embodiments, the female connection port 117 includes at least one of a USB port, a USB-C port, and the like that are configured to connect to a complementary USB connector and / or a complementary USB-C connector. In other embodiments, the female connection port 117 includes a LIGHTNING ™ port configured to connect to a complementing LIGHTNING ™ connector. The female connection port 117 actually includes any female connection port configured to connect to a complementing male connector.
    The female connection port 117 is primarily configured to charge a battery (not shown) of the device 110 when a male connector of a charging accessory is coupled to the female connection port 117. Hence, although
    BE2017 / 5748, in some embodiments the female connection port 117 is connected to a charging circuit of the device 100. In yet a further embodiment, the female connection port 117 is connected to a processor (not shown) of the device 100 and / or a communication interface (not shown) of the device 110. The female connection port 117, when a male connector of an accessory is coupled to the female connection port 117, is in any case usable for charging the device 100 and / or communicating with the device 100. The female connection port 117 can therefore be used to extend the functionality of the device 100, the functionality being substantially dependent on the functionality of the adapter to which the female connection port 117 is coupled.
    Accordingly, the plug connector 113 is substantially useful for extending the functionality of the device 100, the functionality being substantially dependent on the functionality of the adapter to which the plug connector 113 is coupled. The socket plug 113 is furthermore essentially useful for adjusting a shape and / or a physical configuration of the device 100 and / or the housing 109, depending on the shape of the adapter to which the socket plug 113 is coupled.
    Next, attention is drawn to Figure 3 showing the end 119 of the device 100, including the male connector 113 which is located on the outer surface 111 of the housing 109, the male connector 113 receiving an adapter 301 that connects the female connection port 117 (not shown) converts to a build-up connection port.
    Attention is also requested for Figure 4 which shows the adapter 301 included in the socket 113. As shown, a corresponding outer surface 303 of the adapter 301 is consistent with one
    BE2017 / 5748 outer surface 111 of the housing 109, when the adapter 301 is coupled to the socket 113. Hence, the adapter 301 adjusts and / or converts a shape and / or a physical configuration of the device 100, by "filling up" the socket 113, for example for compatibility with a surface-mounted charging station. Alternatively, for compatibility with a surface-mounted charging station, the adapter 301 adjusts a shape and / or a physical configuration of the device 100 and / or the adapter 301 converts a shape and / or a physical configuration of the device.
    A surface-mounted connection port 305 is located on an outer surface 303 of the adapter 301, the surface-mounted connection port 305 is provided with one or more contact platforms and / or surface electrodes, which therefore also approximately correspond to the outer surface 111 of the housing 109. As depicted, the surface-mounted connection port 305 is provided with a POGO contact platform, and a connector termination 308 provided with a first plurality of recesses above the POGO contact platform, the recesses defining openings for access to the one or more contact platforms 307, each contact platform having a respective POGO electrode.
    In some embodiments, the one or more contact platforms 307 are gold-plated to improve the electrical contact between the one or more contact platforms 307 and the complementing pins of a surface-mounted charging station.
    As will be described below, the body connection port 305 is in electronic connection with a male connector of the adapter 301 which couples to the female connection port 117 of the device 100. As such, the device 100 is adapted to, when the adapter 301 is coupled to the socket 113, to be rechargeable by the use of a superstructure charging station, with one or more associated pins of the superstructure16
    BE2017 / 5748 charging station, when the device is received on the surface-mounted charging station, in contact with the one or more surface contact platforms 307.
    The device 100 is thus rechargeable through the use of either a male connector-based charging accessory, which is common in consumer-class environments, and is rechargeable through the use of a surface-mounted charging station (and / or surface-mounted charging accessories) which is common in high-quality (Eng: enterprise-grade) environments. As such, a user of the device 100, such as an enterprise employee, can take the device from a surface-mounted charging station, take the device 100 home at night, and charge the device 100, by removing the adapter 301, at home by using it making a charging accessory based on a male connector.
    The adapter 301 converts and / or adjusts the functionality of the device for use with a surface-mounted charging station as well as converts and / or further adjusts a shape and / or physical configuration of the device 100 by "filling up" the socket 113, for example for compatibility with a surface-mounted charging station. Alternatively, for compatibility with a surface-mounted charging station, the adapter 301 adjusts a shape and / or a physical configuration of the device 100 and / or the adapter 301 converts a shape and / or a physical configuration of the device.
    As shown, the outer surface 303 of the adapter 301 has had a surface treatment and is additionally colored, for example, to match the color of the device 100, although the adapter 301 may have any suitable color and / or texture.
    Subsequently, attention is requested for Figure 5 and Figure 6, which respectively show a perspective view of the adapter 301 and an assembled rear view of the adapter 301.
    Adapter 301 includes a plug 501 that has an outer surface 303 and an inner surface 503, the
    BE2017 / 5748 inner surface 503 is opposite the outer surface 303, comprises the surface-mounted connection port 305 located on the outer surface 303, comprises a male connector 517 extending from the inner surface 503, and comprises one or more electrical connections 525 (such as the best can be seen in Figure 6) between the male connector 517 and the superstructure connection port 305, the plug 501 being configured to connect to the socket 100 of the device 100, and the male connector 517 configured to connect to the associated female connection port 117 of the device 100 located inside the female connector 113, wherein the outer surface 303 of the plug 501, when the plug 501 is coupled to the male connector 113, is aligned with a corresponding outer surface 111 of the device 100.
    As shown, the adapter 301 is further provided with a wire 518 extending from the inner surface 503, next to the male connector 517. The wire 517 is substantially configured for removable connection to the opening 124. As shown, the wire 518 is substantially flexible and / or flexible, and / or the like, and an end 519 of the wire 518, opposite the inner surface 503, comprises a button, a ball, a lump, and the like, which can be inserted through the opening 124 by force, wherein the end 119 deforms to pass the opening 124, recovers its shape to hold the wire 518 in the opening 124. The wire 518 thus attaches the adapter 301 to the device 100, for example when the adapter 301 is removed from the socket, as described below with respect to Figure 11.
    As shown, the plug 501 is provided with a closure part 531 around the male connector 517, the closure part 531 being configured to connect to the cavity 121 which is located around the associated female connection port 117 of the device 100, as well as the niche 122 The closure part 531 thus comprises a
    BE2017 / 5748 step 532 defining a larger portion that is configured to couple with the niche 122, and a smaller portion that is configured to couple with the pocket 121.
    As shown, the closure part 531 is provided with one or more soft and / or flexible ridges 551 which extend around one or more side walls of the larger part of the closure part 531. When the adapter 301 is coupled to the socket plug 113, the ledges 551 close against one or more side walls 125 of the socket plug 113, including but not limited to one or more side walls of the niche 122
    As shown, the adapter 301 includes one or more recesses 561 for receiving guide posts, and the like, of an accessory coupled to the body connection port 305, including but not limited to, a body charging station, around the one or more contact platforms 307 with the associated pins of the superstructure loading station, as written in more detail below with respect to Figure 7.
    With reference to Figure 6, the plug is provided with the closure member 531 which may include a soft rubber closure member, and a hard rubber sheath 631, and the like, wherein the soft rubber closure member is configured to connect the male connector 517 to the hard rubber sheath 631, for example when the adapter 301 is coupled to the mating plug 113. When the adapter 301 is mated to the mating plug 113, the soft rubber seal member even closes both against the hard rubber case 631 and against one or more side walls 125, respectively. of the mating plug 113, including but not limited to one or more side walls of the cavity 121 and the niche 122, in addition to the seal provided by the ridges 551 against the corresponding side walls of the niche 122.
    Such a closure can help keep out moisture and the like from the socket 113 and / or the female
    BE2017 / 5748 connection port 117, when the adapter 301 is coupled to the device 100.
    With further reference to Figure 6, in illustrated embodiments, both the closure members 531 and the hard rubber shell 631 are provided with an associated opening through which the male connector 517 is received during assembly, the male connector 517 being substantially connected to the body connection port 305 which , as shown, is housed by an associated hard plastic shell 641 which also houses the one or more electrical connections 525. The one or more electrical connections 525 substantially connect one or more electrical connectors of the male connector 517 to associated one or more contact platforms 307 of the body connection port 305. In some embodiments, the one or more electrical connections 525 is provided with a printed circuit board ( PCB) housed in the associated hard plastic shell 641. The male connector 517 can be supported primarily prior to assembly by one or more of the hard plastic shell 641 and the PCB of the one or more electrical connections 525.
    Thus, when the adapter 301 is assembled, the opening of the hard rubber casing 631 slides over the male connector 517, and couples to the hard plastic casing 641, and thus encloses one or more electrical connections 525. Such a coupling occurs. when using fasteners such as snaps and the like, and / or when using adhesives, epoxies, and the like. The opening of the closure member 531 slides over the male connector 317, and abuts the hard rubber shell 631, and is held in place by friction through the use of protrusions 651 of the closure member 531 which extend over associated grooves 661 of the hard rubber cover 631. The closure part 531 is substantially provided with ten
    BE2017 / 5748 at least a portion of the inner surface 503 of the adapter 301 such that, when the adapter 301 is assembled, with reference to Figure
    5, the male connector 517 extends from the inner surface
    503.
    The inner surface 503 is substantially defined by the shape of each of the closure member 531, the hard rubber sheath 531, and the hard plastic sheath 517 that faces in the same direction as the male connector 517.
    However, other embodiments of the adapter 301 are within the scope of the present description. For example, in other embodiments, the adapter 301 is assembled from other types of casings and / or barrier elements made from other types of materials. For example, the closure part 531 is described with respect to a soft rubber closure element, however, in other embodiments, the closure part 531 includes other types of materials, including but not limited to, silicone, and the like. The closure part 531, on the other hand, essentially comprises any suitable material that is deformable and / or flexible and / or flexible and that is used to form a closure against the hard rubber casing 631 and the inner surface 115 of the socket 113 when the adapter 301 is thereby is connected.
    Accordingly, the hard rubber sheath 631, and the hard plastic sheath 641 are described with respect to rubber and plastic, however, in other embodiments, the hard rubber sheath 631, and / or the hard plastic sheath 641 include other types of materials including but not limited to not limited to, rubber, plastic, metal, and the like. The hard rubber sheath 631, and / or the hard plastic sheath 641 comprise just about any suitable material that retains a shape when pressure is applied when adapter 301 is plugged into the female connector 113 for pressure to the closure member 531
    BE2017 / 5748 to fit or transfer to form a closure, and further to retain a shape when the pressure is applied to the one or more contact platforms 307 by associated pins of a charging station.
    As shown in Figure 6, the wire 518 is disassembled from the adapter 301, however, during assembly, one end of the wire 518 (e.g. opposite end 519) is attached to a hole 652, and the like, by using epoxy and the like, and further threaded through an additional hole in the closure part 531 (as shown).
    As shown, the male connector 517 comprises at least one of a USB connector and a USB-C connector. In other embodiments, the male connector 517 comprises a LIGHTNING ™ connector. The male connector 517 basically includes any male connector configured to connect to an associated female connection port and, in particular, the female connection port of 117 of the device 100.
    With reference to Figure 7, depicting the adapter 301 coupled to an associated connector 701 of a build-up charging station, the build-up connection port 305 including a POGO contact platform, and one or more contact platforms 307 comprising electrodes configured to to be coupled to associated POGO pins 707 of the associated connector 701. The associated recesses 561 are additionally positioned to receive associated guide posts 761 from the associated connector 701 to align the one or more contact platforms 307 with the associated pins. As such, the locations of each of the one or more contact platforms 307 and the one or more pins 707 are complementary to each other.
    As shown, adapter 301 is further provided with five POGO electrodes, the associated connector 701 is only provided with three POGO pins 707. The three POGO pins 707 are placed to make contact
    BE2017 / 5748 with associated POGO electrode of the one or more contact platforms 307, which are electrically connected to associated electrical contact points of the male connector 317, the associated electrical contact points of the male connector 317 are placed to make electronic contact with associated contact points of the female connection port 117 electrically connecting to a charging circuit of the device 110. Assuming power is supplied to the three POGO pins 707, when the device 100 with the associated adapter 301 is coupled to the three POGO pins, a battery of the device charged.
    However, it should be emphasized that the adapter 301 need not be used solely for charging the device 100. For example, the connector 701 and the adapter 301 can be used as an alternative for data transfer with the device 100 and more than three pins 707 can be provided for such transfer.
    Next, attention is drawn to Figure 8 and Figure 9, each of which schematically shows a cross-section of both the plug connector 113 of the device 100 and the adapter 301, with components from Figure 8 and Figure 9 having the same numbering as Figure 1 to Figure 7. Not all details of the female connector 113 and the adapter 301 are shown in Figure 8 and Figure 9, but these are nevertheless assumed to be present. Figure 8 and Figure 9 are also not to scale. Figure 8 and Figure 9 respectively show corresponding complementary shapes of the corresponding inner surfaces 115, 503 of the mating connector 113 and the adapter 301, respectively, while Figure 8 shows the adapter 301 inserted into the mating connector 113, as indicated by arrow 801, and Figure 9 shows the adapter 301 coupled to the socket 113.
    In particular, as can be clearly seen in Figure 9, the inner surface 503 of the adapter 301 couples when the adapter
    BE2017 / 5748
    301 is coupled to the male connector 113, to the inner surface 115 of the male connector 113, with the closure member 531 sealing against the hard rubber shell 631, and the like, and with complementing surfaces of the male connector 113, for example of the cavity 131 and the niche 122 In particular, the ridges 551 of the closure part 531 seal against complementary side walls of the mating connector 113 (e.g., of the niche 122). In addition, the part of the hard rubber casing 631 that extends outwardly from the sealing part 531 against and with groove 123 abuts and / or engages.
    In addition, the male connector 317 of the adapter 301 couples to the female connection port 117 of the socket 113 so that a charging circuit and / or a processor and / or other components of the device 100 that are connected to the female connection port are electronically accessible for external accessories which use the one or more contact platforms 307 of the set-up connection port 305.
    While specific shapes are shown of each of the inner surface 503 of the adapter 301 coupled to the inner surface 115 of the female connector 113, in other embodiments, the inner surface 503 of the adapter 301 coupled to the inner surface 115 of the female connector 113 has other shapes. However, in general, the inner surface 503 of the adapter 301 and the inner surface 115 of the socket 113 which couple with each other are complementary to each other.
    Next, attention is drawn to Figure 10, which is substantially the same as Figure 8, with equal parts having the same numbers, however, in Figure 10, the adapter 301 is removed, and the female connection port 117 is coupled (as indicated by arrow 1001) with a complementary male connector 1017 (similar to the male connector 317) of a charging accessory
    BE2017 / 5748
    1051 provided with a male connector 1017 extending from a housing 1059 that connects a cable 1061 to the male connector 1017 to conduct current across it from an AC-to-DC adapter 1071 provided with a plug 1081 that connects with a power supply. The recess 122 can be of a size and shape that engages at least a portion of the housing 1059, and / or an outward facing surface 1091 of the recess 122 can be configured to abut a complementary inward facing surface 1092 of the housing 1029 when the male connector 1017 is coupled to the female connection port 117.
    In general, the charging accessory 1051 includes a consumer-class charging accessory, including but not limited to, a USB-adapted AC-to-DC charging accessory.
    Therefore, in Figure 9, the device 100 is adapted for use with a surface-mounted charging station, and is therefore suitable for use in enterprise environments while, in Figure 10, the device 100 is adapted for use with a consumer-class charging accessories and is therefore adapted for use in a consumer environment.
    Next, attention is drawn to Figure 11 showing the end 119 of the housing 109 of the device 100 with the adapter 301 removed from the plug connector 113 and with the adapter 301 attached to the device 100 through the wire 518 connected to the opening 124. Thus, the adapter 301, for example when the adapter 301 is removed from the socket 301, for example to use the device 100 with the charging accessories 1051, remains attached to the device 100.
    In some embodiments, the adapter 301 is removable from the socket 113 by the use of an aid, for example a small screwdriver and the like, which is pluggable between the
    BE2017 / 5748 adapter 301 and one or more side walls 125 and / or in one or more recesses 561 to pry the adapter 301 from the socket. In other embodiments, a tool is used that is specifically adapted to remove the adapter 301 from the socket 113. In a further embodiment, the adapter 301 is removable from the socket 113 by using the fingers of a user's hand.
    Next, attention is drawn to Figure 12 and Figure 13, both of which represent the end 119 of the housing 109 of the device 100. However, in Figure 12, the mating plug 113 is coupled to a sheath 1201 that closes the mating plug 113 and the female connection port 117, and in Fig. 13, the sheath 1201 is removed and placed next to the device 100. As can be seen in Figure 13, the shape of the sheath 1201 generally corresponds to that of the adapter 301, however, the sheath 1201 generally lacks electrical components and is not provided with a male connector or surface-mounted connectors. However, the sheath 1201 closes the socket 113 and the female connection port 117 against moisture, as such, the sheath 1201 comprises a flexible and / or flexible material, at least on an inner surface. In some embodiments, the sheath 1201 has a unit construction of a single material.
    Other types of adapters usable with the socket 113 fall within the scope of the present embodiments. For example, one type of adapter has a shape similar to the adapter 301 with a male connector, but is provided with radio components for extending the wireless functionality of the device 100, including but not limited to, adjusting the device 100 for use with proprietary enterprise wireless device types.
    BE2017 / 5748
    Other types of adapters are within the scope of the present embodiments. For example, the plug connector 113 can be coupled to a charging adapter with similar functionality as charging accessory 1051, but having a size and shape similar to the adapter 301, but with the AC-to-DC adapter housed therein, and with a plug extending of an outer surface, wherein the plug is optionally foldable in the adapter.
    The female connector 113 may alternatively be coupled to an adapter that converts the female connection port 117 to another type of female connection port, the adapter having a size and shape similar to the adapter 301, but having a LIGHTNING ™ connection port on an outer surface electrically connected with a USB connector to an inner surface that couples to a female USB connection port of the device 100 (for example, assuming that the female connection port 117 comprises a female UBS connection port). Thus, such an adapter converts a device provided with a recessed female USB connection port for use with a LIGHTNING ™ connector. Alternatively, the female connector 113 may be coupled to an adapter that converts a device's LIGHTNING ™ connection port for use with a USB connection port (for example, assuming that the female connection port 117 includes a LIGHTNING ™ connection port).
    Although the adapter 301 and other types of adapters have been described with the outer surface 303 that is aligned with the outer surface 111 of the housing 109. However, in other embodiments, the outer surface 303 extends outwardly from the adapter 301 and / or the housing 109, or the outer surface 303 extends inwardly of the adapter 301 and / or the housing 109 about a shape of the housing 109
    BE2017 / 5748 to adapt and / or convert for use with a complementary surface of an external accessory.
    In some embodiments, the adapter 301 may alternatively be referred to as a connector, which provides a robust interface provided with a POGO contact platform for coupling with POGO pins on a charging and / or data exchange accessory, such as connector 701 and / or a holder and / or a charging holder. As described herein, the adapter 301 is provided with a contact platform (e.g., a surface-mounted connection port 305) that may be provided with a connector housing 308 provided with a first plurality of recesses above a contact platform (e.g. corresponding to the one or more contact platforms) 307) and a second plurality of recesses 561 at associated edges of the contact platform. The adapter 301 provides a robust surface connector to female connection port adapter (e.g., POGO to USB-C interface adapter that uses USB-C protocol compliant circuits arranged inside the device 100), where the connector sheath 308 (e.g., an outer surface 303 of the adapter 301) is designed to communicate with an external accessory and / or a charging and / or data exchange station. For temporary removal, the wire 518 is used to leave the adapter connected to a device while exposing the female connection port 117.
    Furthermore, the female connector 113 and the female connection port 117 together form a connector assembly. With reference to Figures 2 and 8, such a connector assembly, in particular, comprises the socket plug 113 placed in the outer surface 111 of the housing 109, the socket plug 113 being provided with an inner surface 115 recessed relative to the outer surface 111 of the housing; and the female connection port 117 located in the inner surface 115 of the socket 113,
    BE2017 / 5748 wherein the female connector 113 and the female connection port 117 are configured to receive the adapter, the adapter being provided with a plug that converts the female connection port 117 to a surface-mounted connection port, with an associated outer surface of the plug when the plug is coupled to the female connector 113 and is aligned with the outer surface 111 of the housing 109. In some embodiments, the adapter that converts the female connection port 117 to a surface-mounted connection port comprises the adapter 301.
    In some embodiments, the connector assembly is removable from the device 100 in such a way that when the device 100 is assembled, the connector assembly is assembled in the device 100 as a part of the device 100. In such an embodiment, the device 100 is provided with an opening and electrical connections for receiving the connector assembly. Further, the outer surface 111 of the housing 109 that forms a part of the connector assembly is aligned with the remaining part of the housing 109 of the device 100 when the connector assembly is assembled in the device. In these embodiments, therefore, the connector assembly is producible as a separate component of the device 100, so that different connector assemblies with the device 100 are usable, depending on what kind of female connection port 117 is to be used with the device 100.
    Specific embodiments have been described in the foregoing description. However, it will be apparent to one skilled in the art that multiple modifications and changes can be made without departing from the scope of the description set forth in the claims below. Accordingly, the description and the figures should be viewed precisely in a clarifying rather than a restrictive sense, and all such modifications are intended to be included in the scope of the present teachings.
    BE2017 / 5748. For the purpose of clarity and a concise description, features are described herein as part of the same or different embodiments, although it will be understood that the scope of the invention may include embodiments that have combinations of all or some of the features described. It will be clear that the embodiments shown have the same or identical parts, except where they are described as being different.
    The benefits, solutions to problems, and any (/ all) element (s) that may (or may) cause any benefit, or solution, or may become more pronounced, are not to be construed as an crucial, required, or essential feature or component in any or all of the claims. The invention is only defined by the appended claims, including some improvements made during the granting procedure of this application and all equivalents of those claims as issued.
    In this document, moreover, related terms such as first and second, above and below, and the like, may only be used to distinguish an entity or action from another entity or action, without necessarily requiring or implying an actual relationship or order between such entities or promotions. The terms "include," "including," "has," "including," "includes," "includes," "includes," or any other variation thereof, are intended as a non-exclusive inclusion, so that a process, method, article, or device that includes, includes, includes, contains a list of elements, not only those elements, but possibly contains other elements that are not explicitly listed or that are not inherent in such a process, method, article, or device. An element preceded by "includes ... a," "has ... a," "includes ... a," "contains ... a," without limitation, does not exclude the existence of additional identical elements into the process, method, article, or device that includes the element,
    BE2017 / 5748 provides or contains. The term "one" is defined as one or more unless explicitly stated otherwise herein. The terms "substantially," "essential," "approximately," or any other variation thereof, are defined as being close to that understood by a person skilled in the art, and in a certain non-limiting embodiment, the term is defined as being within 10%, in another embodiment as being within 5%, in another embodiment as being within 1%, and in another embodiment as being within 0.5%. The term "coupled" as used herein is defined as connected, although not necessarily directly and not necessarily mechanically. A device or structure that is "configured" in a certain way is at least configured that way, but may also be configured in ways that are not listed.
    It will be understood that for the purposes of this description, jargon of "at least one of X, Y, and / or Z" and "one or more of X, Y, and / or Z" may be interpreted as X only, only Y, Z only, or any combination of two or more components X, Y, and Z (e.g., XYZ, XY, YZ, XZ, and the like). A similar reasoning can be applied for two or more components in preventing jargon such as "at least one of ..." and "one or more of ...".
    It will be appreciated that some embodiments may include one or more generic or specialized processors (or "processing devices") such as microprocessors, digital signal processors, custom processors, and FPGAs (field-programmable gate arrays), and unique, stored program instructions (including both software and firmware) that control one or more processors to perform, in combination with certain circuitry without processors, some, most, or all functions of the method and / or device described herein. Some or all of the functions can alternatively be performed by a state machine that does not have any stored
    BE2017 / 5748 has program instructions, or one or more application-specific integrated circuits (ASICs), in which each function or some combinations of certain of the functions are implemented as custom logic. Naturally, a combination of the two approaches can be used.
    In addition, an embodiment may be implemented as a computer program product provided with computer readable code stored thereon for programming a computer (e.g., including a processor) to perform a method as described and claimed herein. Examples of such computer program products include, but are not limited to, a hard disk, a CD-ROM, an optical storage device, a magnetic storage device, a ROM (read only memory), a PROM (programmable read only memory), an EPROM (erasable programmable) read-only Memory), an EEPROM (electrically erasable programmable read-only memory) and a flash memory. Furthermore, it can be expected that a person skilled in the art, notwithstanding potentially significant difficulties and many design choices motivated by, for example, available time, current technology, and economic considerations, when guided by the concepts and principles described herein, will be able to easily with minimal experimentation. generating such software instructions and programs and integrated circuits.
    The extract of the description is provided to enable the reader to quickly become aware of the nature of the technical description. It is submitted with the intention that it will not be used to explain or limit the scope of protection or the meaning of the claims. In addition to the foregoing detailed description, it can be seen that different features are grouped together in different embodiments for the purpose of simplifying the description. This method of
    BE2017 / 5748 should not be construed as expressing the intention that the claimed embodiments require more features than are explicitly stated in each claim. Rather, as the following claims show, inventive subject matter is contained in less than 5 features of a single described embodiment. Thus, the following claims are hereby incorporated in the detailed description, with each claim standing alone as a separately claimed subject matter. The mere fact that certain measures are cited in mutually different claims gives no indication that a combination of these measures cannot be used to achieve an advantage.
    Many variants will be clear to the skilled person. All variants must be construed as being included in the scope of the invention as defined in the following claims.
    权利要求:
    Claims (20)
    [1]
    CONCLUSIONS
    1. Adapter comprising:
    a plug having an outer surface and an inner surface, the inner surface being opposite the outer surface;
    a build-up connection port located on the outer surface;
    a male connector extending from the inner surface; and one or more electrical connections between the male connector and the surface-mounted connection port, wherein the plug is configured to connect to a socket of a device, and the male connector is configured to connect to a corresponding female connection port of the device located is inside the socket, the outer surface of the plug, when the plug is coupled to the socket, conforms to a corresponding outer surface of the device.
    [2]
    An adapter according to claim 1, wherein the plug is provided with a termination member around the male connector, the termination member configured to connect to a cavity located around the associated female connection port of the device.
    [3]
    An adapter according to claim 1 or 2, wherein the plug is provided with a soft rubber seal member and a hard rubber cover, the soft rubber seal member being configured to close the male connector against the hard rubber cover.
    BE2017 / 5748
    [4]
    Adapter according to any of the preceding claims, further provided with a wire extending from the inner surface, next to the male connector.
    [5]
    An adapter according to any one of the preceding claims, wherein the male connector comprises at least one of a USB connector, a USB C connector and / or a LIGHTNING ™ connector.
    [6]
    An adapter according to any one of the preceding claims, wherein the set-up connection port comprises a POGO contact platform.
    [7]
    An adapter according to claim 6, wherein the surface-mounted connection port is provided with a connector termination provided with a first plurality of recesses above the POGO contact platform.
    [8]
    An adapter according to any one of the preceding claims, wherein the surface-mounted connection port comprises one or more recesses that are configured to receive one or more guide posts of the external accessory when the surface-mounted connection port is coupled to an external accessory.
    [9]
    An adapter according to any one of the preceding claims, wherein the one or more electrical connections comprise a printed circuit board located in the plug.
    [10]
    10. A device comprising:
    a housing provided with an outer surface;
    a socket plug placed in the outer surface of the housing, the socket plug being provided with an inner surface that is recessed with respect to the outer surface; and a female connection port located in an inner surface of the socket, wherein the socket and the female connection port are configured to receive an adapter according to any of the preceding claims 19, wherein the adapter comprises a plug configured to connect to the socket, where the adapter is further provided
    BE2017 / 5748 of a male connector configured to couple to the female connection port, the socket being configured to receive a corresponding inner surface of the plug against the inner surface of the socket.
    [11]
    The apparatus of claim 10, wherein the adapter is configured to convert the female connection port to a surface-mounted connection port, wherein an associated outer surface of the adapter, when the adapter is coupled to the socket, is aligned with the outer surface of the housing.
    [12]
    The apparatus of claim 10 or 11, wherein the mating plug is further provided with a cavity in the inner surface, which is located around the female connection port, the cavity being configured to connect to a closure portion of the adapter.
    [13]
    The device of any one of the preceding claims 10-12, wherein the socket is further provided with an opening configured to removably receive a wire connected to the adapter.
    [14]
    The device of any one of the preceding claims 10-13, wherein the female connection port comprises at least one of a USB port and / or a LIGHTNING ™ port.
    [15]
    The apparatus of any one of the preceding claims 10-14, wherein the mating plug is further configured to couple with a termination that closes the mating plug and the female connection port.
    [16]
    Apparatus as claimed in any of the foregoing claims 10-15, wherein the socket is provided with one or more side walls that extend between the outer surface of the housing and the inner surface of the socket.
    [17]
    17. Connector assembly comprising:
    a socket that is placed in an outer surface of a housing, wherein the socket is provided with an inner surface
    BE2017 / 5748 that is recessed relative to the outer surface of the housing; and a female connection port located in an inner surface of the socket, wherein the socket and the female connection port are configured to receive an adapter according to any of claims 1-9, wherein the adapter is provided with a plug configured to converting the female connection port to a surface-mounted connection port, wherein an associated outer surface of the plug, when the plug is coupled to the socket, is aligned with an outer surface of the housing.
    [18]
    The connector assembly of claim 17, wherein the adapter further comprises a male connector configured to couple to the female connection port, the mating plug being configured to receive an associated inner surface of the plug against the inner surface of the mating plug.
    [19]
    The connector assembly of claim 18, wherein the plug is provided with a soft rubber seal member and a hard rubber cover, the soft rubber cover member being configured to close the male connector against the hard rubber cover.
    [20]
    The connector assembly of any one of the preceding claims 1719, wherein the socket is further provided with an opening configured to be removably received with a wire connected to the adapter.
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    同族专利:
    公开号 | 公开日
    CN109863736A|2019-06-07|
    GB2569908A|2019-07-03|
    US10038288B2|2018-07-31|
    GB201903795D0|2019-05-01|
    WO2018075091A1|2018-04-26|
    BE1025307A1|2019-01-14|
    GB2569908B|2021-09-15|
    US10833465B2|2020-11-10|
    US20200050272A1|2020-02-13|
    CN109863736B|2021-08-17|
    WO2018075084A1|2018-04-26|
    DE112016007363T5|2019-07-11|
    US20180115128A1|2018-04-26|
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    法律状态:
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