This invention relates to accessories for electrical devices, particularly media players (e.g., portable MP3 players). More specifically, the invention relates to an electrical device with supports for holding media players and a method of using the same.
Numerous types of electrical devices are portable, such as, for example, mobile (or cellular) telephones, laptop computers, audio playback devices, AM (amplitude modulated) and FM (frequency modulated) radios, CD (compact disk) players, and MP3 (MPEG Audio Layer-3) players. The terms “electrical device” and “media player” should be broadly understood and include electrical devices of all types and designs (e.g., MP3 players and audio-visual media players). There are many portable electrical devices available, including those manufactured by Sony Corp., Philips Corp., Audiovox Corp., Microsoft Corp., Research-in-Motion, Inc. (e.g., the Blackberry® device), and Apple Computer, Inc. (e.g., iPod® MP3 player, iPhone™ device and iPad™ device).
A common problem with electrical accessories is that the accessories are designed to be compatible with only one or a very limited number of electrical devices. That is, an electrical accessory designed to work with the Apple iPod® MP3 player is not compatible with the Apple iPod® Mini MP3 player, the Apple iTouch® MP3 player, the Research-in-Motion Blackberry® device, or the Apple iPhone®. Usually, the incompatibility is caused by the inability of the electrical accessory to physically couple to the second electrical device. For example, the second MP3 player could be wider and/or thicker than the first electrical device, and a holder might not be designed to couple to electrical device that are wider and/or thicker than the first MP3 player. Furthermore, ever if the holder is designed to work with more than one size of MP3 player, the holder usually cannot physically couple to the MP3 player when the MP3 player is enclosed within a protective case.
Accordingly, a need exists for an apparatus or electrical accessory that overcomes the limitations of the prior art accessories for electrical devices.
To facilitate further description of the embodiments, the following drawings are provided in which:
For simplicity and clarity of illustration, the drawing figures illustrate the general manner of construction, and descriptions and details of well-known features and techniques may be omitted to avoid unnecessarily obscuring the invention. Additionally, elements in the drawing figures are not necessarily drawn to scale. For example, the dimensions of some of the elements in the figures may be exaggerated relative to other elements to help improve understanding of embodiments of the present invention. The same reference numerals in different figures denote the same elements.
The terms “first,” “second,” “third,” “fourth,” and the like in the description and in the claims, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms “include,” and “have,” and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, device, or apparatus that comprises a list of elements is not necessarily limited to those elements, but may include other elements not expressly listed or inherent to such process, method, system, article, device, or apparatus.
The terms “left,” “right,” “front,” “back,” “top,” “bottom,” “over,” “under,” and the like in the description and in the claims, if any, are used for descriptive purposes and not necessarily for describing permanent relative positions. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the invention described herein are, for example, capable of operation in other orientations than those illustrated or otherwise described herein.
The terms “couple,” “coupled,” “couples,” “coupling,” and the like should be broadly understood and refer to connecting two or more elements or signals, electrically, mechanically and/or otherwise. Two or more electrical elements may be electrically coupled but not be mechanically or otherwise coupled; two or more mechanical elements may be mechanically coupled, but not be electrically or otherwise coupled; two or more electrical elements may be mechanically coupled, but not be electrically or otherwise coupled. Coupling may be for any length of time, e.g., permanent or semi-permanent or only for an instant.
“Electrical coupling” and the like should be broadly understood and include coupling involving any electrical signal, whether a power signal, a data signal, and/or other types or combinations of electrical signals. “Mechanical coupling” and the like should be broadly understood and include mechanical coupling of all types.
The absence of the word “removably,” “removable,” and the like near the word “coupled,” and the like does not mean that the coupling, etc. in question is or is not removable.
Some embodiments disclose a coupling device configured to couple to a surface. The coupling device including: (a) a first housing; (b) a rotational dial with a first aperture and mechanically coupled to the first housing, the rotational dial comprising a cam mechanism adjacent to the first aperture; (c) a support base comprising a first stem with a second aperture, the first stem is located inside the first aperture, the first stem having a second aperture; (d) a suction cup coupled to at least one of the rotational dial or the support base, the suction cup having: (1) a suction portion; and (2) a second stem located inside of the second aperture; and (e) an elastic mechanism located at least partially between the support base and the second stem of the suction cup. The coupling device is configured such that the rotational dial can be rotated relative to at least suction cup the to create a vacuum between the suction portion of the suction cup and the surface.
Some embodiments disclose an electrical accessory for holding two or more electrical devices. Each of the two or more electrical devices has a top side and a bottom side opposite the top side. The electrical accessory can include a holder configured to couple to the two or more electrical devices. The holder can have: (1) a cradle section configured to removably couple to the bottom side of the two or more electrical devices; (2) a first arm coupled to the cradle section; (3) a second arm movably coupled to the first arm; and (4) a first support coupled to the second arm and configured to couple to the top side of the two or more electrical devices. A length of the holder can be a distance between the cradle section and the first support. The holder can be configured such that the length of the holder is changed by moving the second arm relative to the first arm. The length of the holder can be substantially equal to a length of a first electrical device of the two or more electrical devices when the holder is removably coupled to the first electrical device of the two or more electrical devices. The length of the holder can be substantially equal to a length of a second electrical device of the two or more electrical devices when the holder is removably coupled to the second electrical device of the two or more electrical devices.
Various additional embodiments disclose an electrical accessory for holding two or more electrical devices. The electrical accessory can include a holder configured to couple to the two or more electrical devices. The holder can have: (1) a cradle section, the cradle section comprising an electrical coupling; (2) a first side support with a proximal end and a distal end opposite the proximal end of the first side support; (3) a second side support with a proximal end and a distal end opposite the proximal end of the second side support; (4) one or more gears coupled to the first side support and the second side support; and (5) an activation mechanism coupled to the one or more gears. The holder can be configured such that a first electrical device of the two or more electrical devices is held between the cradle section, the first side support, and the second side support when the holder is coupled to the first electrical device of the two or more electrical devices. The one or more gears can be configured such that a user uses the activation mechanism to turn the one or more gears and causes a distance between the distal end of the first side support and the distal end of the second side support to change.
Yet further embodiments disclose an electrical accessory for holding two or more electrical devices. Each of the two or more electrical devices has a top side and a bottom side opposite the top side. The electrical accessory can include a holder configured to couple to the two or more electrical devices. The holder can include: (1) a cradle section configured to couple to the bottom side of the two or more electrical devices; (2) a first arm coupled to the cradle section; (3) a first support coupled to the first arm and configured to couple to the top side of the two or more electrical devices; and (4) a stretch mechanism coupled to the cradle section and the first arm such that a compression force is applied to the top side and the bottom side of a first electrical device of the two or more electrical devices when the first electrical device of the two or more electrical devices is coupled to the holder.
In still yet other embodiments, an electrical accessory can include a body having: (1) a first module with one or more dimples; and (2) a second module with an indentation with a bump. At least one of the first module and the second module can have a magnet. The body can be configured such that the first module is removably coupled to the second module by coupling the indentation and the bump to one of the one or more dimples. The second module can include at least one of a display or controls for the electrical accessory.
Additional embodiments disclose a method of providing an electrical accessory for holding two or more electrical devices. The method can include: (a) providing a cradle section configured to couple to the two or more electrical devices at different times; (b) providing a connection mechanism; (c) providing a first support configured to removably couple to the two or more electrical devices; and (d) coupling the cradle section to the connection mechanism and the first support. A holder can include the cradle section, the connection mechanism, and the first support. A length of the holder can be a distance between the cradle section and the first support. In some examples, providing the connection mechanism can include: (a) providing a first arm; (b) providing a second arm; and (c) movably coupling the first arm to the second arm. In the same or different examples, coupling the cradle section to the connection mechanism and the first support can include coupling the cradle section to the connection mechanism and the first support such that the length of the holder is changed by moving the second arm relative to the first arm.
As illustrated in
Holder 111 can include: (a) a cradle section 120 configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 290 (
A length of holder 111 is a distance between cradle section 120 and support 123 (e.g., distance 299 (
In some examples, holder 111 is rotatably coupled to connector 112. That is, holder 111 (and electrical device 290) can be rotated relative to connector 112 and power acquisition unit 113. In some examples, a point or region of holder 111 can be rotated clockwise or counterclockwise one hundred and eighty degrees relative to a point or region of connector 112 and a point or region of power acquisition unit 113.
Connector 112 can be a semi-rigid elongated portion configured to allow a position of holder 111 to be semi-permanently adjusted relative to a position of the power acquisition unit 113. In some examples, connector 112 can include a gooseneck, which can be compliant (or obedient) flexible tubing, and is preferably metallic or metal covered with, e.g., plastic or elastic material on its outside. A gooseneck can be considered to be a coiled layered construction in which adjacent coils overlap but can be moved with respect to each other (in a sense, slide on each other). Goosenecks tend to hold the position into which it is bent (i.e., it is semi-permanently adjustable or repositionable), unless it is bent beyond its limit. The two “layers” of the gooseneck can be considered to have different thicknesses. Thus, a gooseneck has two outer diameters, the outer diameter of the thicker layer, and the outer diameter of the thinner layer, which alternate in the gooseneck. In some embodiments, connector 112 can be between 7.5 centimeters (cm) and 15.2 cm (e.g., approximately 11.4 long cm); its larger outer diameter is approximately 9 millimeters (mm); its smaller outer diameter is approximately 8.2 millimeters; its inner diameter is approximately 4.5 millimeters; the center-to-center spacing between the larger diameter portions is approximately 3.5 millimeters; the longitudinal gap between the larger diameter portions is approximately 1 millimeter; and the material of construction can be steel.
Connector 112 must not be so stiff that it cannot be readily repositioned by the user; however, it must be stiff enough to maintain holder 111 (with electrical device 290) in position with respect to power acquisition unit 113 after holder 111 and connector 112 have been put into their desired position.
Connector 112 used in some embodiments are available in varying dimensions (e.g., outer diameters of 2 millimeters or less to over 16 millimeters). Connector 112 can be implemented with a design, dimensions, and materials of construction selected for any particular usage based on the desired length of connector 112, the weight of holder 111, the weight of electrical device 290 to be held in holder 111, whether connector 112 is to function as a broadcast antennas and if so, for what range of radio frequencies.
Power acquisition unit 113 includes: (a) an end portion 151; (b) a middle portion 152; and (c) an end portion 153. Connector 112 can be coupled to middle portion 152. In other examples, connector 112 can be coupled to end portion 151 or 153. In some examples, end portion 153 has a larger diameter than middle portion 152, and middle portion 152 has a larger diameter than end portion 151.
In numerous embodiments, an internal cavity exists inside of end portion 151, end portion 153, and middle portion 152. This internal cavity can contain the electrical circuitry for obtaining electrical power from an external power source such as a cigarette lighter and then processing the electrical power (i.e., the circuitry for cigarette lighter adapter). The internal cavity can also contain electrical circuitry for a transmitter (not shown) and transmitter controls 154. In some examples, power acquisition unit 113 is configured to couple to a cigarette lighter of a vehicle. That is, power acquisition unit 113 includes a cigarette lighter adapter.
End portion 151 can be configured to be inserted into an external power source such as the cigarette lighter of a vehicle, which is usually a cylindrical cavity. To help position and stabilize the power acquisition unit 113 in such a cavity, non-conductive stabilizing springs 155 are provided on opposite sides of end portion 153.
Because springs 155 may be insufficient to stabilize the electrical accessory 101 in all of the various size cigarette lighters that are found in vehicles, and particularly because of the cantilevered weight of electrical accessory 101, a stabilizer 156 can be used. Stabilizer 156 can include a deformable resilient member that is larger than the inner circumference of essentially all known vehicle cigarette lighters so that pushing end portion 151 into the cigarette lighter causes the outer circumference of the deformable resilient member to bend away from the distal end of end portion 151 (i.e., the part of end portion 151 farthest from middle portion 152) and towards the proximal end of end portion 153 (the part of end portion 153 closest to middle portion 152) while at least some of the deformable resilient member even after such deformation continues to push against the inner circumference of the cigarette lighter.
Stabilizer 156 allows power acquisition unit 113 to fit in the cigarette lighter of virtually any vehicle to mechanically and electrically, as well as semi-permanently (e.g., firmly but removably), couple electrical accessory 101 to keep power acquisition unit 113 in the desired position and maintain good electrical contact with the cigarette lighter. Stabilizer 156 retards or prevents undesired rotation, wobbling, and longitudinal movement of power acquisition unit 113 in the cigarette lighter. Thus, stabilizer 156 tends to prevent normal vibration, centrifugal forces (e.g., from the vehicle's turning), and bumps in the road from moving power acquisition unit 113 (and therefore electrical accessory 101) from its desired position.
In other examples of power acquisition unit 101 (or any power acquisition unit discussed herein), power acquisition unit 113 is not configured to receive electrical power from an external power source. That is, power acquisition unit 113 is just a body coupled to connector 112. In these examples, instead of being configured to receive electrical power, power acquisition unit 113 can have a coupling mechanism (e.g., coupling mechanism 3401 of
Referring to
Turning to another embodiment,
As illustrated in
Holder 611 can include: (a) a cradle section 620 configured to couple to the bottom side of the two or more electrical devices, cradle section 620 having an end 633 and an end 734 opposite end 633; (b) an arm 612 adjustably coupled to cradle section 620; and (c) a support 623 coupled to arm 612 and configured to couple to the top side of the electrical devices at different times. In some examples, electrical interface 114 protrudes from cradle section 620 and is configured to help hold the electrical device to holder 611 by securing the electrical device to cradle section 620. In the same or different embodiments, arm 612 can have padding 632 on at least a portion of arm 612 to prevent scratching of the electrical device.
Arm 612 can include a groove section 631 and cradle section 620 can include a snap section (not shown) that is complementary in size and shape to groove section 631. The length of holder 611 can be adjusted be moving groove section 631 along the snap section of cradle section 620. Cradle section 620 also can include a mechanism configured to allow some movement of arm 612 in the horizontal direction. That is, cradle section can be configured to allow some movement by arm 612 along an axis running between ends 633 and 734. In various examples, cradle section 620 can include one or more springs coupled between arm 612 and end 633 and/or 734 that allow for the movement in the horizontal direction.
In this embodiment, electrical device 290 can be inserted in holder 611 by coupling electrical device 290 to electrical interface 114 and pressing the top portion of electrical device 290 against support 623. Support 623 can be made from materials that provide sufficient flexible to allow the top of electric device 290 to be snapped into support 623. In some examples, hinge 735 coupling connector 112 to holder 611 can be locked in place to allow easier coupling of electrical device 290 and holder 611. In various embodiments, electrical accessory 601 can include a mechanism (not shown) configured to allow a user to lock hinge 735 in one or more predetermined positions.
To remove electrical device 290 from holder 611, the user can press (e.g., with his or her thumb) slightly upward against the front of support 623 to release the top portion of electrical device 290 from support 623. After support 623 is released, electrical device 290 can be pulled upwards out of holder 611 to remove electrical device 290 from electrical interface 114.
Turning to yet another embodiment,
Holder 911 can include: (a) a cradle section 920 configured to couple to the bottom side of two or more electrical devices at different times; (b) a first arm 921 coupled to cradle section 920; (c) a second arm 922 adjustably coupled to first arm 921; (d) coupling portion 929; and (e) a support 923 coupled to second arm 922 and configured to couple to the top side of the two or more electrical devices at different times. In some examples, electrical interface 114 protrudes from cradle section 920 and is configured to help hold the electrical device to holder 911 by securing the electrical device to cradle section 920. Although not shown in
The length of holder 911 can be adjusted based on the length of the electrical device coupled to holder 911. That is, if a first electrical device (e.g., electrical device 1090 (
In some examples, coupling portion 929 can couple first arm 921 to second arm 922. Coupling portion 929 can be located at least partially within first arm 921 and second arm 922. That is, a first part (not shown) of coupling portion 929 is located inside of first arm 921. A second part (not shown) of coupling portion 929 is located inside of second arm 922. In a different embodiment, coupling portion 929 is located inside only one of first arm 921 or second arm 922.
Coupling portion 929 couples first arm 921 to arm 922 such that the length of holder 911 can be changed by adjusting a length of the first part and/or a length of the second part. That is, the length of holder 911 is adjusted by changing the amount of coupling portion 929 located inside of either first arm 921 or second arm 922. For example, the length of holder 911 can be lengthened by sliding a larger portion of coupling portion 929 out of first arm 921 or second arm 922. The length of holder 911 can be decreased by increasing the portion of coupling portion 929 located inside first arm 921 or second arm 922.
Turning to still another embodiment,
In some examples, electrical accessory 1101 can be configured to hold two or more electrical devices (e.g., electrical device 290 (
As illustrated in
Holder 1111 can include: (a) a cradle section 1120 configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 1090 (
In this embodiment, electrical interface 1214 (
Aperture 1125 (
In some examples, aperture 1125 can include: (a) an opening 1426 in second layer 1149; (b) a groove 1427 in second layer 1149 leading from an edge of second layer 1149 to opening 1426; and (c) a groove 1428 in first layer 1148. Grooves 1427 and 1428 can be sized such that a portion of wire 1235 can pass through grooves 1427 and 1428. Grooves 1427 and 1428 are not large enough to permit electrical interface 1214 to pass through or fit inside of grooves 1427 and 1428. In some examples, a width of groove 1427 is substantially equal to a width of groove 1428. Opening 1426 can be configured to receive electrical interface 1214.
When cradle section 1120 is assembled, a first portion of groove 1428 is located adjacent to (e.g., below) opening 1426, and a second portion of groove 1428 is located adjacent (e.g., below) groove 1427. When electrical interface 1214 is placed within aperture 1125, as illustrated in
Designing holder 1111 to include aperture 1125 instead of having a built-in electrical interface provides several advantages. For the manufactures, the cost to produce and complexity of electrical accessory 1101 is decreased. For the user, not having a built-in electrical interface allows removal of electrical device 1090 from electrical accessory 1101 while keeping electrical interface 1214 coupled to electrical device 1090. Accordingly, the transfer of video, audio, and/or electrical power to electrical device 1090 can continue uninterrupted when electrical device 1090 is removed from electrical accessory 1101.
Referring again to
Electrical device 1090 can be inserted into holder 1111 using two methods in some embodiments. In the first method, electrical device 1090 is first coupled to electrical accessory 1101 similar to the coupling of electrical device 290 to electrical accessory 601, as shown in
In the second method, electrical interface 1214 can be first coupled to electrical device 1090. Afterwards, electrical device 1090 and electrical interface 1214 can be inserted into electrical accessory 1101 together.
Turning to still another embodiment,
Holder 1511 can comprise: (a) a cradle section 1520 configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 1090 (
The length of holder 1511 can be adjusted depending on the length of the electrical device coupled to holder 1511. In some examples, arm 1521 can include a groove 1531 extending along at least part of the length of arm 1521. In the same or different embodiments, arm 1522 can include a protrusion 1541 moveably coupled to groove 1531. That is, the length of holder 1511 can be increased or decreased by changing the position of protrusion 1541 in groove 1531.
Turning to another embodiment,
As illustrated in
Holder 1611 can comprise: (a) a cradle section 1620 coupled to connector 112 and configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 290 (
In this embodiment, holder 1611 can hold the electrical device by applying a compression force to the electrical device to retain the electrical device between support 1623 and cradle section 1620. That is, stretch mechanism 1640 is coupled to arm 1621 and cradle section 1620 such that a compression force is applied to any electrical devices placed in holder 1611. Stretch mechanism 1640 in some examples can be an elastic material (e.g., a rubber band or a flexible plastic) coupled between support 1623 and cradle section 1620.
In some examples, arm 1621 is movably coupled to cradle section 1620 such that arm 1621 passes through the interior of cradle section 1620 with a first portion 1641 of arm 1621 extending in a first direction 1647 away from cradle section 1620 or with a second portion 1642 extending away from cradle section 1620 in a second direction 1648 opposite first direction 1647. In these examples, the length of first portion 1641 can be increased and the length of second portion 1642 can be decreased by pulling or pushing first portion 1641 away from cradle section 1620. Conversely, the length of second portion 1642 can be increased and the length of first portion 1641 decreased by pulling or pushing second portion 1642 away from cradle section 1620. In various examples, arm 1621 can have a stop 1646 near or at the end of second portion 1642 to stop arm 1621 from being pulled out of cradle section 1620 and disconnected from the rest of holder 1611.
In the same or different example, holder 1611 is configured such that when support 1623 and cradle section 1620 are not holding an electrical device, the distance between support 1623 and cradle section 1620 is a predetermined default distance (e.g., slightly less than the length of electrical device 2490 (
Offset mechanism 1645 can be used to provide a third point of contact between electrical device 290 and holder 1611. The other two points of contact are: (1) electrical interface 114/cradle section 1620; and (2) support 1623. In some examples, offset mechanism 1645 can be a screw that can be screwed through arm 1621 until the screw is touching the back of electrical device 290. In other embodiments, other mechanisms can be used instead of a screw (e.g., a pin or a compressive material).
Offset mechanism 1645 can change the angle in which electrical device 290 sits in holder 1611. That is, when offset mechanism 1645 partially supports or abuts electrical device 290, electrical device 290 can be substantially parallel with arm 1621. If offset mechanism 1645 is not used, electrical device 290 can sit in holder 1611 such that the top portion of electrical device 290 is touching arm 1621 and/or the back part of support 1623. In some examples, if offset mechanism 1645 is not used, it could be difficult to form a good electrical coupling between electrical device 290 and electrical interface 114. The use of offset mechanism 1645 is not limited to the embodiment shown in
The electrical device can be loaded into electrical accessory 1601 using two methods. In the first method, the user pulls support 1623 and arm 1621 away from cradle section 1620. For example, the user can pull support 1623 and arm 1621 using handle 1650. The user can insert the electrical device into electrical interface 114 and release support 1623 and arm 1621. When released, support 1623 and arm 1621 can securely clamp down (i.e., provide a compression force) on the electrical device.
In the second method, the top portion of the electrical device is first used to push support 1623 and arm 1621 away from cradle section 1620. Then, the user can swing the bottom of the electrical device forward to align the electrical device with electrical interface 114. Afterwards, the electrical interface (not shown) on the electrical device can be then inserted into electrical interface 114.
Turning to still an additional embodiment,
As illustrated in
Holder 1911 can comprise: (a) a cradle section 1920 coupled to connector 112 and configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 290 (
In the embodiment illustrated in
As shown in
In some examples, gear 2256 and arms 2053 and 2254 can have teeth. The teeth on arms 2053 and 2254 can be coupled to the teeth on gear 2256 such that when gear 2256 is rotated (using pin 2057), the distance between supports 1951 and 1952 is changed.
In some examples, a user can increase the distance between supports 1951 and 1952 by turning one or more protrusions 2059 clockwise. Turning protrusion(s) 2059 clockwise causes gear 2256 to turn clockwise and move arms 2053 and 2254 away from each other. Similarly, a user can decrease the distance between supports 1951 and 1952 by turning protrusion(s) 2059 counterclockwise. Turning protrusion 2059 counterclockwise causes gear 2256 to turn counterclockwise and move arms 2053 and 2254 toward each other.
In addition to being able to change the distance between supports 1951 and 1952, the distance between connection section 1959 (
In various embodiments, pin 2057 can be configured to serve a dual function. Pin 2057 and holder 1911 can be configured such that: (a) turning pin 2057 clockwise or counterclockwise causes the distance between supports 1951 and 1952 to change; and (b) pulling pin 2057 away from holder 1911 and moving pin 2057 upward or downward causes the distance between a top of the connection section and electrical interface 114 to change.
Turning to another embodiment,
As illustrated in
Holder 2311 can comprise: (a) cradle section 2320 coupled to connector 112 and configured to couple to the bottom side of the two or more electrical devices (e.g., electrical device 290 (
In the embodiment illustrated in
Turning to another example,
As illustrated in
Power acquisition unit 2613 can include: (a) cigarette lighter module 2670 with an insertion portion 2872 (
In this embodiment, the orientation of electrical module 2671 relative to cigarette lighter module 2670 can be adjusted. Being able to adjust the orientation of electrical module 2671 allows a user of electrical accessory 2601 to adjust the viewing angle of display 2679. For example, if electrical accessory 2601 is coupled to a cigarette lighter of a vehicle, the default orientation (e.g., facing straight ahead) of electrical module 2671 may not be easily readable to the driver of the vehicle. Accordingly, the use of adjustable electrical module 2671 allows the driver to change the orientation of electrical module 2671 such that display 2679 is easily readable to the driver.
In some examples, electrical module 2671 has an aperture 2973 (
Insertion portion 2872 can be placed into aperture 2973 with a washer 2775 (
The orientation of electrical module 2671 can be changed by sliding insertion portion 2872 from the center of aperture 2973 (
Turning to a further embodiment,
As illustrated in
Power acquisition unit 3113 can include: (a) cigarette lighter module 3170 with an end 3288 (
As shown in
Electrical module 3171 is removably coupleable to cigarette lighter module 3170 by coupling indentation 3287 and bump 3289 to one of dimples 3286 at end 3288. Electrical module 3171 is held to the metal inside of cigarette lighter module 3170 by the magnet under indentation 3287. The viewing angle of electrical module 3171 can be changed by the user by moving bump 3289 from a first one of dimples 3286 to a second one of dimples 3286. In this embodiment, electrical module 3171 is also removed from cigarette lighter module 3170 so electrical module 3171 can be placed anywhere electrical connector 3176 can reach.
In alternative embodiments, the magnet can be located inside of cigarette lighter module 3170 instead of electrical module 3171. In still further embodiments, a magnet can be located inside of electrical module 3171, and an oppositely polarized magnet can be located inside of cigarette lighter module 3170.
Turning to yet another embodiment,
As illustrated in
Power acquisition unit 3313 can include: (a) cigarette lighter module 3370 with an end 3388; (b) an electrical module 3371 with a display 3379; and (c) connector 3390 electrically coupling cigarette lighter module 3370 with electrical module 3371. In some examples, connectors 3390 and/or 112 can be a gooseneck.
Turning to another embodiment,
In some examples, an electrical accessory (e.g., electrical accessory 101 of
Referring to
In one example, when coupling mechanism 3401 is resting on surface 3402, and when a user begins to rotate rotational dial 3410 relative to support base 3415 in a first direction (e.g., counterclockwise), the rotational movement first pushes suction cup 3420 downward to dispel air that is trapped under suction cup 3420. After pushing suction cup 3420 downward, the rotational movement can cause a reversal in the direction of the movement of suction cup 3420, and the center of suction cup 3420 is pulled upward (i.e., inward towards the rest of coupling mechanism 3401) to create a vacuum between suction cup 3420 and surface 3402. In various embodiments, the vacuum created between coupling mechanism 3401 and surface 3402 is stronger than the vacuum between a traditional suction cup and a surface because the first downward movement of the suction cup expels the air from between suction cup 3420 and surface 3402, thus allowing for a stronger vacuum to be formed between suction cup 3420 and surface 3402.
In some examples, as shown in
Support base 3415 can include: (a) a bottom portion 3641; (b) a stem 3642 protruding from bottom portion 3641; and (c) at least one cam 3643 also protruding from bottom portion 3641. Stem 3642 can have one or more slots 3644 and 3645.
In various examples, cam 3643 can have an indicator 3447. In some examples, indicator 3447 can indicate whether coupling mechanism is in a locked position (
Rotational dial 3410 can include: (a) an outer ring 3826 (
Additionally, a slot 3825 (
In some examples, connecting mechanism 3616 (
Suction cup 3420 is removable from the rest of coupling mechanism 3401. For example, if suction cup 3420 wears out or is damaged, suction cup 3420 can be removed from coupling mechanism 3401 and replaced with a new suction cup.
In some examples to couple suction cup 3420 with the rest of coupling mechanism 3401, wings 3633 and 3634 are inserted into slots 3644 in support base 3415 and then into slots 3829 in rotational dial 3410. Elastic mechanism 3617 can be placed between suction cup 3420 and rotational dial 3410. In various embodiments, one end of elastic mechanism 3617 can abut the same surface of stem 3642 that connecting mechanism 3616 abuts. The second end of elastic mechanism 3617 can abut stem 3632.
After wings 3633 and 3634 are inserted into slots 3644 in support base 3415 and slots 3829 in rotational dial 3410, suction cup 3420 can be semi-permanently coupled to the rest of coupling mechanism 3401. In some examples, suction cup 3420 can be rotated (e.g., counterclockwise) while an upward force is applied to stem 3632 so wings 3633 and 3634 are lifted over ridge 3771 into regions 3772. Afterward wings 3633 and 3634 are abutted on the bottom by region 3772 of cam mechanism 3621 and on the top by edge 3646 of stem 3642. Wings 3633 and 3634 can be rotated in region 3772.
Suction cup 3420 can be removed (i.e., uncoupled) from the rest of coupling mechanism 3401 by rotating (e.g., clockwise) suction cup 3420 while an upward force is applied to stem 3632 so wings 3633 and 3634 are lifted over ridge 3771 into slot 3829. Stem 3632 can then be pulled out of slots 3644 in support base 3415 and out of slots 3829 in rotational dial 3410.
As previously discussed, a vacuum between coupling mechanism 3401 and surface 3402 can be created by rotating rotational dial 3410 relative to suction cup 3420 and support base 3415. That is, a user can begin rotating rotational dial 3410 relative to suction cup 3420 and support base 3415 in a first direction (e.g., counterclockwise), which causes a downward movement of wings 3633 and 3634 relative to cam 3722, forcing stem 3632 downward and thus, pushing out air that is trapped between suction portion 3631 and surface 3402. Because of the curvature and features of cam mechanism 3621, as the user continues to rotate the rotational dial in the first direction, the direction of the movement of stem 3632 is reversed, and stem 3632 is pulled upward or inward (i.e., toward the rest of coupling mechanism 3401). Pulling stem 3632 upward or inward creates the vacuum between suction portion 3631 and surface 3402 that holds coupling mechanism 3401 to surface 3402.
Turning to yet still another embodiment,
Method 3900 in
Method 3900 of
Next, method 3900 of
Referring to
Activity 3953 also includes a process 4062 of providing a second arm. For example, the second arm can be similar or identical to arm 122, 922, 1122, or 1522 of
Next, activity 3953 continues with a process 4063 of movably coupling the first arm to the second arm. For example, the coupling of the first arm to the second arm can be similar or identical to the coupling of arm 121 to arm 122 in
In other examples, providing a connection mechanism in activity 3953 can include providing arm 612 of
Referring again to
In some examples, coupling the connection mechanism to the cradle section and the first support can include coupling the connection mechanism to the cradle section and the first support such that a length of the holder is changed by moving the second arm relative to the first arm.
In some examples, the order of activities 3951-3953 can be changed. For example, activity 3953 can occur concurrently with or before activities 3951 and 3952.
Although the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the spirit or scope of the invention. For example, it will be readily apparent that any of the holders disclosed herein can include an aperture (similar to aperture 1125 (
All elements claimed in any particular claim are essential to the embodiment claimed in that particular claim. Consequently, replacement of one or more claimed elements constitutes reconstruction and not repair. Additionally, benefits, other advantages, and solutions to problems have been described with regard to specific embodiments. The benefits, advantages, solutions to problems, and any element or elements that may cause any benefit, advantage, or solution to occur or become more pronounced, however, are not to be construed as critical, required, or essential features or elements of any or all of the claims, unless such benefits, advantages, solutions, or elements are stated in such claim.
Moreover, embodiments and limitations disclosed herein are not dedicated to the public under the doctrine of dedication if the embodiments and/or limitations: (1) are not expressly claimed in the claims; and (2) are or are potentially equivalents of express elements and/or limitations in the claims under the doctrine of equivalents.
This application is a divisional application of U.S. patent application Ser. No. 13/730,430, filed Dec. 28, 2012. U.S. patent application Ser. No. 13/730,430 is a continuation-in-part of U.S. patent application Ser. No. 12/545,017, filed Aug. 20, 2009, which is continuation of U.S. patent application Ser. No. 12/349,505, filed Jan. 6, 2009. U.S. patent application Ser. No. 12/349,505 is a continuation-in-part of U.S. patent application Ser. No. 10/936,356, now U.S. Pat. No. 7,292,881, filed Sep. 8, 2004 and a continuation-in-part of U.S. patent application Ser. No. 11/248,762, now U.S. Pat. No. 7,734,256, filed Oct. 11, 2005. U.S. patent application Ser. No. 13/730,430 is also a continuation-in-part of U.S. patent application Ser. No. 12/171,220, filed Jul. 10, 2008, which is a continuation of U.S. patent application Ser. No. 11/842,921, filed Aug. 21, 2007, which is a continuation of U.S. patent application Ser. No. 10/936,356, now U.S. Pat. No. 7,292,881, filed Sep. 8, 2004. U.S. patent application Ser. No. 12/171,220 also claims priority from U.S. Provisional Application No. 60/959,057, filed Jul. 10, 2007. U.S. Pat. Nos. 7,292,881 and 7,734,256, U.S. patent application Ser. Nos. 12/545,017, 12/349,505, 12/171,220, 11/842,921, and 13/730,430 and U.S. Provisional Application No. 60/959,057 are incorporated herein by reference.
Number | Date | Country | |
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60959057 | Jul 2007 | US |
Number | Date | Country | |
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Parent | 13730430 | Dec 2012 | US |
Child | 14094538 | US |
Number | Date | Country | |
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Parent | 12349505 | Jan 2009 | US |
Child | 12545017 | US | |
Parent | 11842921 | Aug 2007 | US |
Child | 12171220 | US | |
Parent | 10936356 | Sep 2004 | US |
Child | 11842921 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 12545017 | Aug 2009 | US |
Child | 13730430 | US | |
Parent | 10936356 | Sep 2004 | US |
Child | 12349505 | US | |
Parent | 11248762 | Oct 2005 | US |
Child | 10936356 | US | |
Parent | 12171220 | Jul 2008 | US |
Child | 13730430 | US |