Patent Document

FIELD OF INVENTION 
   The present invention relates generally to a device and more particularly to an extendable connector on such a device. 
   BACKGROUND OF INVENTION 
   Many efforts have been made to improve the design of electronic devices, such as USB devices. However, many of these designs cause additional problems in the device. For example, U.S. Pat. No. 6,808,400 discloses an USB device that utilizes a latch/clip on one side of a drive and uses spring tension to control the slide movement. Typically, due to metal fatigue, a spring&#39;s force diminishes, as the USB device is retracted for an extended length of time, which eventually shortens the productive life span of the device. 
   U.S. Pat. No. 7,004,780 discloses a new design for an USB device, but requires an user to apply a force to a printed circuit board assembly (PCBA) to release a set of slide locks to enable the sliding motion. It has been observed that applying force to a PCBA results in damage to trace connections. 
   Accordingly, what is desired is a device that overcomes the aforementioned issues and provides improved performance. 
   BRIEF SUMMARY OF THE INVENTION 
   An apparatus for use within electrical devices is disclosed. The apparatus comprises a casing having an upper body and a lower body, the casing including a tab disposed on a surface thereof and an adjustable base having a plurality of tab cavities adjacent to the tab. The tab engagingly couples to one of the plurality of tab cavities to secure the adjustable base. The device also includes a connector system coupled to the adjustable base. 
   It is an advantage of the present invention to provide an apparatus that includes a casing design that enables a connector system of the device to extend and retract utilizing multiple slide-locking mechanism. 

   
     BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS 
     The present invention is illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which: 
       FIG. 1  shows a perspective view of an Universal Serial Bus device with an internal slide mechanism, according to an embodiment. 
       FIG. 2  shows the main body, locking pins, and compression area of a Universal Serial Bus device, according to an embodiment. 
       FIG. 3  shows a slot and locking cavities embedded in an inner surface the Universal Serial Bus device casing, according to an embodiment. 
       FIG. 4  shows a tab of a secondary latch, according to an embodiment. 
       FIG. 5  shows recessed tab cavities for the secondary latch. 
       FIG. 6  shows a USB device having a cable, and first and second connectors systems thereto. 
       FIG. 7  shows an exploded view of a Universal Serial Bus device that includes a casing design and a connector system that extends and retracts using a multiple slide-lock mechanism. 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   The present invention relates generally to a device casing and more particularly to an extendable connector on such a device. The following description is presented to enable one having ordinary skill in the art to make and use the invention and is provided in the context of a patent application and the generic principles and features described herein will be apparent to those skilled in the art. Thus, the present invention is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features described herein. 
   The device of the present invention may be directed to electronic devices such as a USB device as well as various computer peripheral devices that are connected by plug connectors to a host computer system to perform various functions. Accordingly, it will be appreciated that the present invention is applicable to any and all pocket-sized computer peripheral device types that are readily transportable and which may be advantageously interconnected with various host computer systems (i.e. any electronic computer of any type or size including desktop computers, notebook computers, palmtop computers, and personal digital assistant devices). For example, flash memory storage devices, communication devices, scanners, and cameras are all applicable pocket-sized computer peripheral devices to the present invention. 
   Accordingly, it will be appreciated by one having ordinary skill in the art that the present invention is applicable, in general, to electronic devices and is therefore not limited to USB devices. Therefore, one having ordinary skill in the art will readily recognize that there could be variations to the USB device embodiments and those variations would be within the spirit and scope of the present invention. 
     FIG. 1  shows a perspective view of an Universal Serial Bus device  100  with an internal slide mechanism, according to an embodiment. For an embodiment, Universal Serial Bus device  100  comprises an adjustable base  101 , a first housing  102 , tab  103 , inner surface  104 , tab recesses  105 / 107 , connector system  106 , and a printed circuit board assembly (not shown). The perspective of Universal Serial Bus device  100  shows connector system  106  retracted within the first casing  102 . That is, tab  103  is locked in place by tab recess  107  such that connector system  106  is in the furthest position (according to a design embodiment) within casing  102  (and a set of slot pins locked in place within a set of locking cavities—described in more detail below). For an embodiment, connector system  106  is completely within casing  102  such that connector system  106  is not exposed and the first casing  102  provides protection thereto. 
     FIG. 2  shows a side view of a Universal Serial Bus device  200  showing a second casing  202 , upper body  208 , lower body  209 , slot pin  210 , and compression area  211 . According to an embodiment, the slide mechanism of a Universal Serial Bus device housing  200  is enabled in the event that a user compresses the Universal Serial Bus device housing  200  along the upper body  208  within compression area  211 . For embodiments, vertical compression enables the slide-locking mechanism of Universal Serial Bus device housing  200 . Upon compression, slot pin  210  along with an other corresponding slot pin disposed on an opposite side of Universal Serial Bus device housing  200 , shifts downwards to contact lower body  209  and also inward underneath casing  202  along pin slots embedded in the Universal Serial Bus device  100  as further shown in  FIG. 3 . 
   As shown, pin slots  314  are embedded horizontally along an inner surface  315  of Universal Serial Bus device  100 . As stated, when the slide-mechanism is enabled a set of slot pins are forced out of their locking positions in the first set of locking cavities  313  and are guided along pin slots  314  to a second set of locking cavities  316 . Once the slot pins reach the second set of locking cavities, they are locked in place. That is, when the slot pins are laterally forced from a first set of locking cavities  313  they travel along pin slots  314  until they are locked in a second set of locking cavities  316 . The first set of locking cavities  313  may define the retract or extend position for an Universal Serial Bus connector system. Conversely, the second set of locking cavities  316  may define the retract or extend position for an Universal Serial Bus connector system, depending on the defined designation of the first set of locking cavities. For example, if the first set of locking cavities defines a retract position for an Universal Serial Bus connector system when a set of slot pins are locked therein, then the second set of locking cavities defines an extend position for an Universal Serial Bus connector system when a set of slot pins are locked therein. 
   It can be appreciated that the term “lock”, “locking”, and other verb tenses of the term refers to fastening, fixing, securing, or holding in place. Accordingly, the slot pins described above are locked, fastened, fixed, secured, or held in place within the locking cavities. 
   For an embodiment, the distance that the set of slot pins travel to and from the first and second set of cavities defines the length that the connector system can extend or protract beyond the casing (housing or frame) of the Universal Serial Bus device or the distance the connector system can retract or withdraw within. In an embodiment, the connector system extends approximately 12 mm beyond the casing of the Universal Serial Bus device. 
   For an embodiment, the set of slot pins may feature tapered edges. For an embodiment, “tapered” may be defined as a gradual dimunition of thickness, diameter, or width in an elongated object. For embodiments, the set of slot pins may be tapered to assist the slot pins move within the Universal Serial Bus device once the sliding mechanism is enabled. Additionally, the set of locking cavities may be designed to effectively lock the slot pins in place in the event that the Universal Serial Bus connector system is positioned in a retract or extend state. For an embodiment when the set of slot pins feature tapered edges, the set of slot pins “snap” into place once the slot pins reach the set of locking cavities. Once the slot pins snap in place, the locking cavities provide a tight, flush fit for the slot pins therein. 
   For an embodiment, the aforementioned procedure defines a first locking mechanism such that an Universal Serial Bus device maintains a static position upon full retraction or extension. For the embodiment, the first locking mechanism is featured along the side of a USB casing. 
   The Universal Serial Bus device of the present invention also includes a second locking mechanism shown by  FIG. 4  and  FIG. 5 , according to an embodiment. Accordingly,  FIG. 4  shows an inner surface of an Universal Serial Bus device housing  200  ( FIG. 2 ) featuring a tab  403  disposed on a surface of a third casing  402 , and a set of guides  418 , according to an embodiment. For an embodiment, tab  403  functions as a secondary latch for an Universal Serial Bus device such that tab  403  provides an additional lock when the connector system is set in the retracted or extended position. 
   For an embodiment, tab  403  comprises a spring section. For the embodiment, the spring section enables the adjustable base to slide along a set of guides embedded along the inner surface of the Universal Serial Bus housing (casing) with minimal resistance. As such, a Universal Serial Bus connector system can extend and retract freely between the first and second locking positions. For the embodiment, tab  403  compresses slightly when the adjustable base slides thereto and therefrom. 
   For other embodiments, tab  403  also includes tapered edges as shown in  FIG. 4 . For the embodiment, a tapered tab  403  assists the slot pins move within the Universal Serial Bus device once the sliding mechanism is enabled such that the Universal Serial Bus connector system extends and retracts freely between the first and second locking positions. 
     FIG. 5  shows a perspective view of a second adjustable base  501  which includes a tab set of slot pins  510  and a set of recessed tab cavities  505 ,  507  for the secondary latch  403  of  FIG. 4 , according to an embodiment. In the event that the Universal Serial Bus connector system transitions from a retracted to an extended position, the tab  403  disposed within the Universal Serial Bus device shifts to the corresponding recessed tab cavity. For example, recessed tab cavity  505  may represent the locking position where an Universal Serial Bus connector system is in the extended position. Likewise, recessed tab cavity  507  represents the locking position where an Universal Serial Bus connector system is in the retracted position. Accordingly, adjustable base  501  shifts between recessed tab cavity  505  and  507  to extend or retract an Universal Serial Bus connector system. As stated above, tapered tabs having a spring member and tapered slot pins may enable adjustable base  501  to slide within the casing with minimal obstruction, impedance, or resistance. 
   For an embodiment, the aforementioned procedure defines a secondary locking mechanism. For embodiments, the secondary locking mechanism works in tandem with the first locking mechanism described above. For example, when a USB connector system is fully extended both locking mechanisms are enabled. That is, a set of slot pins are locked within a set of locking cavities and a tab is locked within a tab recess cavity that defines an extended position for the USB connector system. Likewise, a set of slot pins are locked within a set of locking cavities and a tab is locked within a tab recess cavity that defines a retracted position for the USB connector system. Additionally, the secondary locking mechanism is featured along the bottom of the USB casing. 
   Additionally, the Universal Serial Bus device of the present invention may also feature a cable and a second connector system attached thereto such that the USB device can electrically couple to various electronic devices, according to an embodiment. Accordingly,  FIG. 6  shows a USB device  600  featuring a first connector system  606 , second connector system  620 , and a cable  621 . For the embodiment, the USB device  600  can be connected to a host computer via first connector system  606  and various other electronic devise by second connector system  620  via cable  621 . As such, USB device  600  can be connected to a host computer. 
   Additionally, it will be appreciated that the USB casing (housing or frame) is waterproof, according to an embodiment. A waterproof casing can protect a USB embedded within mobile products that are exposed to moisture. 
   It will also be appreciated that a double injection molding process is used to apply alphanumeric characters to an USB casing to ensure that the lettering remains legible. 
   It will also be appreciated that during assembly a printed circuit board assembly (PCBA) is first cleaned using a degreasing solution and subsequently coated with a membrane thereto in a vacuum environment to ensure the moisture-proof protective casing can be driven under low standoff components. 
   It will further be appreciated that an USB casing contains a recessed plate to allow co-branding with other products used in conjunction with an USB device. 
   Although the present invention has been described in accordance with the embodiments shown, one having ordinary skill in the art will readily recognize that there could be variations to the embodiments and those variations would be within the spirit and scope of the present invention. Accordingly, it will be appreciated by one having ordinary skill in the art that the present invention is applicable in general to electronic devices and is therefore not limited to USB devices. Additionally, many modifications may be made by one having ordinary skill in the art without departing from the spirit and scope of the appended claims.

Technology Category: h