The present invention relates, generally, to cases and accessories for portable electronic devices.
Advances in mobile computing have led to consumer adoption of portable electronic devices. However, due to the portability of these devices, they are susceptible to damage from physical impact and exposure to the elements. For this reason cases and accessories for portable electronic devices have been designed to minimize the damage to these devices.
Embodiments of the present disclosure provide an accessory case for a portable electronic device, the case being configured to protect the portable electronic device from damage. In some embodiments, the accessory case securely retains the portable electronic device. In various embodiments, the case may be configured in a closed position, in an open position, and in a plurality of supported (i.e., propped up) positions.
Generally, the case comprises two support panels or flaps configured to support the case in a first supported (i.e., elevated) position and a second supported (i.e., elevated) position. These support flaps allow the case to be arranged at different angles with respect to a supporting surface. The first and second supported positions allow the user to choose at least two different angles at which to view a portable electronic device that has been placed inside the case. The user may selectively arrange the case at a viewing angle best suited for a particular task (e.g., typing, gaming, viewing media) or for a particular surface (e.g., whether the case rests on a flat surface or an angled surface).
In some embodiments, the case may be selectively arranged so that the screen of the personal electronic device is at a portrait orientation or at a landscape orientation.
Additional aspects and advantages will be apparent from the following detailed description of preferred embodiments, which proceeds with reference to the accompanying drawings.
Non-limiting and non-exhaustive embodiments of the disclosure are described, including various embodiments of the disclosure with reference to the figures, in which:
Portable electronic devices provide users with mobile computing. Mobile computing enhances personal activity and business productivity. Portable electronic devices include laptop computers, notebook computers, subnotebook computers, netbook computers, ultraportable computers (e.g., ultrabooks or slimbooks), ultra-mobile PCs, smartbook computers, tablet computers, smartphones, personal digital assistants, mobile internet devices, electronic reading devices, portable media players, digital cameras, and the like.
Portable electronic devices are generally more at risk to damage than traditional non-portable computing devices. As portable electronic devices are carried by users, there is a risk that these devices may be dropped or may collide with other objects. There is also risk that these devices will be scratched or otherwise marred when placed in pockets, purses, book bags, drawers, or the like. Accordingly, many users seek to protect their portable devices from harm by encasing their devices in protective cases. Protective cases not only protect against scratches, dents, and the like; they also protect against environmental damage such as degradation due to exposure to sunlight, dust, or other elements.
Embodiments of the present disclosure provide an accessory case for a portable electronic device, the case being configured to protect the portable electronic device from damage. In some embodiments, the accessory case securely retains the portable electronic device. In various embodiments, the accessory case comprises a bifold case that may be configured in a closed position, in an open position, and in a plurality of supported (i.e., raised) positions.
Generally, the case comprises two support panels or flaps configured to support the case in a first supported (i.e., elevated) position and a second supported (i.e., elevated) position. These support flaps allow the case to be arranged at different angles with respect to a supporting surface. The first and second supported or raised positions allow the user to choose at least two different angles at which to view a portable electronic device that has been placed inside the case. The user may selectively arrange the case at a viewing angle best suited for a particular task (e.g., typing, gaming, viewing media) or for a particular surface (e.g., whether the case rests on a flat surface or an angled surface).
In some embodiments, the case may be selectively arranged so that the screen of the personal electronic device is at a portrait orientation or at a landscape orientation.
The embodiments of the disclosure may be better understood by reference to the drawings. Generally, like features are designated by like reference numerals. It will be readily understood that the components of the present disclosure, as generally described and depicted in the drawings herein, may be arranged and designated in a wide variety of different configurations. Further, the described features, elements, or characteristics may be combined in any suitable manner in one or more embodiments. Thus, the following more detailed description of the illustrated embodiments of the apparatus is not intended to limit the scope of the disclosure, but is merely representative of possible embodiments of the disclosure. In some instances, well-known structures, materials, or operations are not shown or described in detail.
Referring to the drawings,
In
The first panel 110 is a rectangular and planar panel that is approximately matched to the dimensions of a portable electronic device 101 and/or to the second panel 130. The first panel 110 provides support to the device receptacle 120 and to the portable electronic device. The first panel 110 also protects the back of the portable electronic device 101 when said portable electronic device 101 is inserted into the device receptacle 120. The shape and size of the first panel 110 may be configured to match the dimensions of a corresponding second panel 130 or of a portable electronic device 101. For example, the dimensions of the first panel 110 may substantially match that of a specific portable electronic device such as a specific tablet computer or smartphone. Thus, in other embodiments, the first panel 110 may have any other shape or size to match any available portable electronic device. In
In some embodiments, the first panel 110 comprises a camera window 111. The camera window 111 is positioned in the first panel 110 to correspond with a position of a digital camera located on the back side of a portable electronic device 101 when placed within the device receptacle 120. In some embodiments, the camera window 111 comprises transparent material configured to allow light to pass through to a camera of the portable electronic device 101 while providing a barrier between the camera and objects or surfaces exterior to the case. In other embodiments, the camera window 111 comprises a hole or cutout in the material of the first panel 110 and does not provide a barrier between the camera and objects or surfaces exterior to the bifold case 100. As will be understood by one of skill in the art, various dimensions and/or proportions of the camera window 111 may be modified to fit a specific portable electronic device 101. In situation where a portable electronic device 101 comprises more than one camera, more than one camera windows may be provided in the first panel 110.
In some embodiments, the first panel 110 may be rigid or semi-rigid to maintain its shape when there is no portable electronic device present. In one embodiment, a rigid or semi-rigid first panel 110 may retain a planar shape when there is no portable electronic device in the device receptacle 120. Similarly, a rigid or semi-rigid first panel 110 may retain its shape to support the bifold case 100 and/or a portable electronic device 101 when the bifold case 100 is configured in an elevated or supported position. For example, if the first panel 110 is extremely flexible it may not hold its shape enough to support the bifold case 100 and/or portable electronic device 101 in the elevated or supported positions depicted in
The first panel 110 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an inner surface portion of the first panel 110 may be formed of a soft or protective material to reduce scratching of a portable electronic device 101. For example, a surface of the first panel 110 adjacent to the device receptacle 120 may be formed of a soft fabric, lint free cloth, felt, suede leather or imitation suede leather, or the like. Other portions of the first panel 110 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the first panel 110 may be formed of rigid or semi-rigid material such that the first panel 110 maintains its planar shape. For example, the first panel 110 may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. In some embodiments, an outer portion of the first panel 110 may be formed of a scratch-resistant material to reduce scratching of the bifold case 100. Other portions of the first panel 110 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the first panel 110 comprises shock absorptive material to protect against shock damage if the bifold case 100 containing the personal electronic device 101 is dropped. For example, a layer of padding may be formed at the interior of the first panel 110 to absorb the impact of a fall or drop. The padding may be formed of polymer, leather, fabric, felt, gel, foam, rubber, synthetic rubber, or other suitable shock absorptive material.
The device receptacle 120 attaches to the first panel 110 and is configured to receive and hold a portable electronic device 101. The device receptacle 120 has a shape corresponding to a portable electronic device 101 such that it encloses the portable electronic device 101 around its perimeter to retain the portable electronic device 101 to the bifold case 100. The shape and size of the device receptacle 120 may be configured to match the dimensions of the first panel 110 and/or of a portable electronic device 101. For example, the dimensions of the device receptacle 120 may substantially match that of a specific portable electronic device such as a specific tablet computer or smartphone. Thus, in other embodiments, the device receptacle 120 may have any other shape or size to match any available portable electronic device. The device receptacle 120 acts together with the first panel 110 to enclose and retain the portable electronic device 101 and protect it from damage. As shown in
The first panel 110 and device receptacle 120 retain a portable electronic device 101 such that the backside and edges of the portable electronic device 101 are substantially protected. The second panel 130 covers a screen of a portable electronic device 101 when the bifold case 100 is in a closed position. Thus, the bifold case 100 shown in the embodiments of
The device receptacle 120 comprises a window or opening configured to match the dimensions of a screen of the portable electronic device. The window allows a user to manipulate a touch screen and/or controls of the portable electronic device 101. For example, the device receptacle 120 may be sized and shaped to match a display bezel of portable electronic device 101 such that the entire display may be seen and/or manipulated through the device receptacle 120, but edges of the display (including the bezel) are protected. In some embodiments, the device receptacle 120 comprises a screen protector to prevent damage to a surface of the portable electronic device screen. In other embodiments, the device receptacle 120 window comprises a cutout or opening.
In some embodiments, device receptacle 120 comprises a device retainer 121 configured to retain a portable electronic device 101 when placed in the device receptacle 120. In some embodiments, the device retainer 121 extends from, or is permanently affixed to, the device receptacle 120 and selectively fastens to the first panel 110 thereby securing the portable electronic device 101 within the device receptacle 120. In other embodiments, the device retainer 121 extends from, or is permanently affixed to, the first panel 110 and selectively fastens to the device receptacle 121 to secure the portable electronic device 101. The device retainer 121 removably fastens to the first panel 110 (or device receptacle 120) using suitable fasteners, including, but not limited to, snap fasteners, hook-and-loop fasteners, hook-and-eye fasteners, magnets, buttons, buckles, zippers, ties, adhesives, retaining pins or clips, or the like.
Generally, the device receptacle 120 extends along the sides of the portable electronic device 101 to protect the sides from damage. However, in some embodiments, the device receptacle 120 comprises at least one access slot 122 configured to allow a user access to buttons, switches, ports, and/or slots located on a portable electronic device 101. The access slot(s) 122 are located at suitable positions on the device receptacle 120 to allow for user manipulation of the controls, ports, and/or slots of the portable electronic device 101. For example, access slots 122 may allow a user to actuate a volume switch, plug a data connector into a data port, and/or insert a removable memory device (e.g., an SD card) into a memory slot in the portable electronic device 101.
In some embodiments, the device receptacle 120 may be rigid or semi-rigid to maintain its shape when there is no portable electronic device present. Similarly, a rigid or semi-rigid device receptacle 120 may retain the portable electronic device 101 in a constant location respective to the first panel 110. For example, if the device receptacle 102 is extremely flexible it may not hold its shape enough to prevent a portable electronic device 101 from shifting around in the device receptacle 120. Such shifting may result in scratches to the display and/or body of the portable electronic device 101, thus a rigid or semi-rigid device receptacle 120 may prevent scratching of the portable electronic device 101. In other embodiments, the device receptacle 120 may be flexible to accommodate a variety of portable electronic devices 101 having varying dimensions.
The device receptacle 120 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an inner portion of the device receptacle 120 may be formed of a soft or protective material to reduce scratching of a portable electronic device 101. For example, a surface of the device receptacle 120 in contact with the portable electronic device 101 may be formed of a soft fabric, lint free cloth, felt, suede leather or imitation suede leather, or the like. Other portions of the device receptacle 120 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, an outer portion of the device receptacle 120 may be formed of rigid or semi-rigid material such that the device receptacle 120 maintains its shape when there is no portable electronic device within the device receptacle 120. For example, an outer portion of the device receptacle 120 may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. Other portions of the device receptacle 120 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
The second panel 130 is a rectangular and planar panel that is approximately matched to the dimensions of the first panel 110. The second panel 130 protects the screen of the portable electronic device 101 when the bifold case 100 is arranged in a closed position. The second panel 130 provides support to the first support flap 140 and the second support flap 150. In some embodiments, the first support flap 140 attaches to a first portion of the second panel 130 and the second support flap 150 attaches to a second portion of the second panel 130. In some embodiments, the second panel 130, the first support flap 140, and the second support flap 150 are formed from a single, contiguous piece of material. Constructing these elements from a contiguous piece of material beneficially enhances the strength of the bifold case 100 (i.e., allows the bifold case 100 to support a greater weight), increases durability (e.g., reduces the likelihood that the bifold case 100 will come apart at the joint between the second panel 130 and the first support flap 140), and reduces cost.
As discussed above, the shape and size of the first panel 110 (and consequently, the second panel 130) may be configured to match the dimensions of a portable electronic device 101. In some embodiments, the dimensions of the second panel 130 substantially match that of a specific portable electronic device 101. In other embodiments, the second panel 130 may have any other shape or size to match any available portable electronic device.
As shown in
In some embodiments, the second panel 130 may be rigid or semi-rigid to maintain its shape. In one embodiment, a rigid or semi-rigid second panel 130 may retain its planar shape when supporting the bifold case 100 and/or portable electronic device 101 in an elevated or supported position. For example, if the second panel 130 is extremely flexible it may not hold its shape enough to support the bifold case 100 and/or portable electronic device 101 in the elevated or supported positions depicted in
The second panel may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, the second panel may be formed of rigid or semi-rigid material such that the second panel maintains its planar shape. For example, the second panel may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. In some embodiments, an outer portion of the second panel may be formed of a scratch-resistant material to reduce scratching of the case. Other portions of the second panel may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the second panel comprises shock absorptive material to protect the personal electronic device against shock damage if the case is dropped. For example, a layer of padding may be formed at the interior of the second panel to absorb the impact of a fall or drop. The padding may be formed of polymer, leather, fabric, felt, gel, foam, rubber, synthetic rubber, or other suitable shock absorptive material.
The first support flap 140 is a rectangular and planar flap that may be used to raise one end of the case into a first supported position as shown in
The first support flap 140 can be arranged in a folded position and an extended position. When in the folded position, the first support flap 140 lies flat against the second panel 130. To transition to the extended position, the first support flap 140 is rotated away from the second panel 130 to a maximum rotation angle. In some embodiments, the first support flap 140 may comprise one or more first rotation limiters configured to restrict the amount by which the first support flap 140 can rotate. Embodiments of the first rotation limiter(s) will be discussed in detail below with reference to
In some embodiments, the first support flap 140 may be rigid or semi-rigid to maintain its shape. In one embodiment, a rigid or semi-rigid first support flap 140 retains its planar shape to support the bifold case 100 and/or second panel 130 when the bifold case 100 is configured in an elevated or supported position. For example, if the first support flap 140 is extremely flexible it may not hold its shape enough to support the bifold case 100 and/or portable electronic device 101 in the elevated or supported positions depicted in
The first support flap 140 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an outer portion of the first support flap 140 may be formed of a soft or protective material to reduce scratching of a portable electronic device 101. For example, a surface of the first support flap 140 that faces the device receptacle when the bifold case 100 is arranged in a closed configuration may be formed of a soft fabric, lint free cloth, suede leather or imitation suede leather, or the like. Other portions of the first support flap 140 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the first support flap 140 may be formed of rigid or semi-rigid material such that the first support flap 140 maintains its planar shape. For example, a portion of the first support flap 140 may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. Other portions of the first support flap 140 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
The second support flap 150 is a rectangular and planar flap that may be used to raise one end of the bifold case 100 into a second supported position, as seen in
The second support flap 150 can be arranged in a folded position and an extended position. When in the folded position, the second support flap 150 lies flat against the second panel 130. To transition to the extended position, the second support flap 150 is rotated away from the second panel 130 to a maximum rotation angle. In some embodiments, the second support flap 150 may comprise one or more first rotation limiters configured to restrict the amount by which the second support flap 150 can rotate. Embodiments of the first rotation limiter(s) will be discussed in detail below with reference to
In some embodiments, the second support flap 150 comprises one or more receptacles configured to receive flat items. These receptacles may comprise a pocket 152, one or more card slots 153, or an ID slot 154. The pocket 152 may be configured to hold objects such as, but not limited to, currency, papers, documents, coupons, or other suitable sized or shaped objects. In some embodiments, the pocket 152 holds small number of objects and is limited in thickness to minimize contact between the second support flap 150 and a screen of the portable electronic device 101 when the bifold case 100 is arranged in a closed configuration. In other embodiments, the pocket 152 is configured to hold thicker objects. In some embodiments, the pocket 152 is configured to hold accessories for the portable electronic device 101, including headphones, styluses, memory cards (e.g., SD cards), port adapters, cables, or the like. The ID slot 154 comprises a windowed card holder and is configured to hold an identification card such as a driver's license, a student identification card, identification badge, or other suitable photo identification card. The card slots 153 may comprise slots or pockets located in the second support panel and configured to hold credit cards or similarly shaped objects. In some embodiments a second ID slot is provided in lieu of the one or more card slots 153. In some embodiments, a second set of one or more card slots is provided in lieu of the ID slot 154. One of skill in the art will recognize considerable variation within the scope of the present disclosure regarding how a various pockets, card slots, and ID slots may be arranged on the second support flap 150.
In some embodiments, the second support flap 150 may be rigid or semi-rigid to maintain its shape. In one embodiment, a rigid or semi-rigid second support flap 150 retains its planar shape and supports the bifold case 100 and/or second panel 130 when the bifold case 100 is configured in an elevated or supported position. For example, if the second support flap 150 is extremely flexible it may not hold its shape enough to support the bifold case 100 and/or portable electronic device 101 in the elevated or supported positions depicted in
The second support flap 150 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an outer portion of the second support flap 150 may be formed of a soft or protective material to reduce scratching of a portable electronic device 101. For example, a surface of the second support flap 150 that faces the device receptacle 120 when the bifold case 100 is in a closed configuration may be formed of a soft fabric, lint free cloth, suede leather or imitation suede leather, or the like. Other portions of the second support flap 150 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the second support flap 150 may be formed of rigid or semi-rigid material such that the second support flap 150 maintains its planar shape. For example, a portion of the second support flap 150 may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. Other portions of the second support flap 150 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
As seen in
While
The panel connector 160 is attached to both the first panel 110 and the second panel 130 and functions to join the two panels together. The panel connector 160 may comprise a flexible joint, a mechanical hinge, or other suitable connector. The panel connector 160 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, the panel connector 160 comprises shock absorptive material to protect against shock damage if the bifold case 100 holding personal electronic device 101 is dropped. For example, a layer of padding may be formed within the panel connector 160 to absorb the impact of a fall or drop. The padding may be formed of polymer, leather, fabric, felt, gel, foam, rubber, synthetic rubber, or other suitable shock absorptive material. In some embodiments, an inner portion of the panel connector 160 may be formed of a soft or protective material to reduce scratching of the device receptacle 120 and/or a portable electronic device 101. For example, a surface of the panel connector 160 that faces the device receptacle 120 may be formed of a soft fabric, lint free cloth, suede leather or imitation suede leather, or the like. Other portions of the panel connector 160 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, an outer portion of the panel connector 160 may be formed of a scratch-resistant material to reduce scratching of the bifold case 100. Other portions of the panel connector 160 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
In some embodiments, the bifold case 100 comprises a closure 170 configured to selectively maintain the bifold case 100 in a closed configuration. The closure 170 may consist of a strap or buckle extending from (or permanently affixed to) a distal end of the first panel 110 and selectively attached to the second panel 130. As will be understood by one of skill in the art, the closure 170 may extend from the second panel 130 and attach to the first panel 110. The closure 170 may comprise any suitable latching mechanism, including, but not limited to, snap fasteners, hook-and-loop fasteners, hook-and-eye fasteners, magnets, buttons, buckles, zippers, ties, adhesives, latches, retaining pins or clips, or the like.
The closure 170 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an inner surface portion of the closure 170 may be formed of a soft or protective material to reduce scratching of the device receptacle 120 and/or a portable electronic device 101. For example, a surface of the closure 170 adjacent to the device receptacle 120 may be formed of a soft fabric, lint free cloth, felt, suede leather or imitation suede leather, or the like. Other portions of the closure 170 may include the same or other materials to provide a pleasing appearance to the bifold case 100. In some embodiments, the closure 170 may be formed of semi-rigid or flexible material such that the closure 170 may be folded to attach to the second panel 130 (or first panel 110) or folded away from the device receptacle 120. For example, the closure 170 may be formed of a variety of semi-rigid or flexible materials including a fabric, leather, plastic, composite, metal mesh, or any other suitable material. In some embodiments, an outer portion of the closure 170 may be formed of a scratch-resistant material to reduce scratching of the bifold case 100. Other portions of the closure 170 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
The device enclosure 220 may be configured to enclose and selectively release a portable electronic device 101. The device enclosure comprises an enclosure fastener 221 that selectively fastens to the first panel 110 thereby securing the portable electronic device 101 within the device enclosure 120. The device fastener 121 may comprise any suitable fastener, including, but not limited to, a snap fastener, a hook-and-loop fastener, a hook-and-eye fastener, one or more magnets, a button, a buckle, a zipper, a tie, an adhesive, a retaining pin or clip, or the like.
In some embodiments, the device enclosure 220 comprises one or more control windows 222 configured to allow a user access to buttons, switches, ports, and/or slots located on a portable electronic device 101. The control window(s) 222 are located at suitable positions on the device enclosure 220 to allow for user manipulation of the controls, ports, and/or slots of the portable electronic device 101. As will be understood by one of skill in the art, the control window(s) 222 may be modified to accommodate the various locations and dimensions of controls, ports, and/or slots, of a specific portable electronic device 101. Further, the number of control windows 222 provided in the device enclosure 220 may vary according to the number and location of controls, ports, and/or slots of a specific portable electronic device 101.
The panel latch 270 may be configured to selectively maintain the case 200 in a closed configuration and may be a specific example of the closure 170. As seen in
Referring to
In some embodiments, the first support flap retainer 242 comprises at least one pair of magnetic devices. The magnetic devices may comprise a pair of magnets, a magnet and a corresponding ferromagnetic material (e.g., steel, iron, or nickel), or other suitable devices attracted to each other via magnetic forces. One magnetic device of the pair may be located in the first support flap 140 while the other magnetic device of the pair may be located in the second panel 130. The magnetic attraction between the first support flap retainers 242 maintains the first support flap 140 in the folded position. In some embodiments, the magnetic first support flap retainer 242 is configured to interact with sensors of a portable electronic device 101 such that the change in magnetic field caused by opening the case 200 triggers the portable electronic device 101 to wake up or power up and the change in magnetic field caused by closing the case 200 triggers the portable electronic device 101 to sleep or power down.
In some embodiments, the first support flap retainer 242 comprises at least one bistable spring having a first stable position corresponding to the folded position of the first support flap 140 and a second stable position corresponding to the extended position of the first support flap 140. The bistable spring attaches to the first support flap 140 and to the second panel 130. In some embodiments, the bistable spring passes through the first flap connector 141. In other embodiments, the bistable spring is located adjacent to the first flap connector 141.
In some embodiments the second support flap retainer 255 comprises at least one pair of magnetic devices. The magnetic devices may comprise a pair of magnets, a magnet and a corresponding ferromagnetic material (e.g., steel, iron, or nickel), or other suitable devices attracted to each other via magnetic forces. One magnetic device of the pair may be located in the second support flap 150 while the other magnetic device of the pair may be located in the second panel 130. The magnetic attraction between the magnetic devices maintains the second support flap 150 in the folded position. In some embodiments, the magnetic second support flap retainer 255 is located and/or configured to interact with magnetic sensors embedded in the portable electronic device 101 such that the change in magnetic field caused by opening the bifold case 100 (i.e., arranging the bifold case 100 in an opened configuration) triggers the portable electronic device 101 to wake up or power up and the change in magnetic field caused by closing the bifold case 100 (i.e., arranging the bifold case 100 in a closed configuration) triggers the portable electronic device 101 to sleep or power down.
In some embodiments, the second support flap retainer 255 comprises at least one bistable spring having a first stable position corresponding to the folded position of the second support flap 150 and a second stable position corresponding to the extended position of the second support flap 150. The bistable spring attaches to the second support flap 150 and to the second panel 130. In some embodiments, the bistable spring passes through the second flap connector 151. In other embodiments, the bistable spring is located adjacent to the second flap connector 151.
As seen in
In some embodiments, the first panel 110, second panel 130, and panel joint 360 are one unitary panel with a portion of the unitary panel corresponding to the first panel 110, a portion corresponding to the second panel 130, and a portion corresponding to the panel joint 360. In these embodiments, the unitary panel may be formed of a variety of semi rigid materials such that the first panel 110 and second panel 130 portions provide the needed support and maintain their shape while the panel joint 360 can flex and bend into the closed and open configurations.
In some embodiments, the panel joint 360 may be formed at one side of the first panel 110 and attached to the second panel 130. In other embodiments, the panel joint 360 may be formed at one side of the second panel 130 and attached to the first panel 110. In some embodiments, the first panel 110, the second panel 130, and the panel joint 360 comprise at least two pieces of material that share a unitary outer layer or inner layer. One of skill in the art will recognize considerable variation within the scope of the present disclosure regarding how a first panel 110 may be connected to a second panel 130.
The exterior of the case 300 may be formed of a variety of materials. For example, the exterior may include various materials, such as fabric, plastic, rubber, metal, leather, faux leather, vinyl, nylon, and/or any of a wide variety of alternative decorative or useful materials utilized in cases, bags, luggage, and the like. In some embodiments, the exterior of the case 300 may be formed of a scratch-resistant material so as to reduce scratching of the case 300. Other portions of the case 300 may include the same or other materials to provide a pleasing appearance to the case 300.
As seen in
As seen in
In some embodiments, the first rotation limiter 443 comprises a strap or ribbon affixed to the first support flap 140 at one end and to the second panel 130 at the other end. When the first support flap 140 is in a folded position (i.e., flush against the second panel 130) the strap or ribbon is slack. As the first support flap 140 pivots away from the second panel 130, the slack is taken out of the strap or ribbon until the strap or ribbon is pulled taut. The taut strap or ribbon prevents further rotation of the first support flap 140. The maximum rotation angle of the first support flap 140 (i.e., the maximum angle to which the first support flap can rotate) is determined by both the length of the first rotation limiter 443 and the distance between the first flap connector 141 and the attachment point of the first rotation limiter 443.
In some embodiments, the first rotation limiter 443 comprises a pair of flat, rigid members that are joined together at one end via a flexible joint or hinge. One flat member is attached to the first support flap 140 while the other is attached to the second panel 130. When the first support flap 140 is in a folded position (i.e., flush against the second panel 130) the flat members lie atop each other and the angle formed between the two flat members is substantially 0°. As the first support flap 140 rotates away from the second panel 130, the flat members pivot around their joint, or hinge, and the angle between the flat members increases to a maximum angle of 180°. At this maximum angle, the joined flat members are fully extended. The fully extended flat members prevent further rotation of the first support flap 140. The maximum rotation angle of the first support flap 140 (i.e., the maximum angle to which the first support flap can rotate) is determined by both the length of the first rotation limiter 443 and the distance between the first flap connector 141 and the attachment point of the first rotation limiter 443. In some embodiments, the first rotation limiter 443 is omitted because a bistable spring is used to bias the first support flap 140 in a folded position or an open position. In other embodiments, the first rotation limiter 443 acts conjunction with a bistable spring to limit the rotation of the first support flap.
As seen in
As seen in
In some embodiments, the second rotation limiter 556 comprises a strap or ribbon affixed to the second support flap 150 at one end and to the second panel 130 at the other end. When the second support flap 150 is in a folded position (i.e., flush against the second panel 130) the strap or ribbon is slack. As the second support flap 150 pivots away from the second panel 130, the slack is taken out of the strap or ribbon until the strap or ribbon is pulled taut. The taut strap or ribbon prevents further rotation of the second support flap 150. The maximum rotation angle of the second support flap 150 (i.e., the maximum angle to which the second support flap 150 can rotate) is determined by both the length of the second rotation limiter 556 and the distance between the second flap connector 151 and the attachment point of the second rotation limiter 556. In some embodiments, the second rotation limiter 556 comprises a strap whose length can be adjusted. By adjusting the length of the strap, a user can vary the maximum rotation angle that the second support flap 150 can rotate. The second viewing angle is related to the length of the second support flap 150 and its maximum rotation angle according to the principles of trigonometry. Thus, when the maximum rotation angle of the second support flap is changed, the second viewing angle is also changed.
In some embodiments, the second rotation limiter 556 comprises a pair of flat, rigid members that are joined together at one end via a flexible joint or hinge. One flat member is attached to the second support flap 150 while the other is attached to the second panel 130. When the second support flap 150 is in a folded position (i.e., flush against the second panel 130) the flat members lie atop each other and the angle formed between the two flat members is substantially 0°. As the second support flap 150 rotates away from the second panel 130, the flat members pivot around their joint, or hinge, and the angle between the flat members increases to a maximum angle of 180°. At this maximum angle, the joined flat members are fully extended, thereby preventing further rotation of the second support flap 150. The maximum rotation angle of the second support flap 150 (i.e., the maximum angle to which the second support flap can rotate) is determined by both length of the second rotation limiter 556 and the distance between the second flap connector 151 and the attachment point of the second rotation limiter 556. In some embodiments, the second rotation limiter 556 is omitted because a bistable spring is used to bias the second support flap 150 in a folded position or an open position. In other embodiments, the second rotation limiter 556 acts conjunction with a bistable spring to limit the rotation of the second support flap 150.
As seen in
As seen in
As seen in
The case 600 may comprise a third rotation limiter 656 configured to limit the rotation of angled support flap 650. The angled support flap 650 may rotate with respect to the second panel 130 up to a maximum rotation angle defined by the third rotation limiter 656. The embodiments of
In some embodiments, the third rotation limiter 656 comprises a strap or ribbon affixed to the angled support flap 650 at one end and to the second panel 130 at the other end. When the angled support flap 650 is in a folded position (i.e., flush against the second panel 130) the strap or ribbon is slack. As the angled support flap 650 pivots away from the second panel 130, the slack is taken out of the strap or ribbon until the strap or ribbon is pulled taut. The taut strap or ribbon prevents further rotation of the angled support flap 650. The maximum rotation angle of the angled support flap 650 (i.e., the maximum angle to which the angled support flap 650 can rotate) is determined by both the length of the third rotation limiter 656 and the distance between the angled flap connector 551 and the attachment point of the third rotation limiter 656. In some embodiments, the third rotation limiter 656 comprises a strap whose length can be adjusted. By adjusting the length of the strap, a user can vary the maximum rotation angle that the angled support flap 650 can rotate. The second viewing angle is related to the length of the angled support flap 650 and its maximum rotation angle according to the principles of trigonometry. Thus, when the maximum rotation angle of the second support flap is changed, the second viewing angle is also changed.
In some embodiments, the third rotation limiter 656 comprises a pair of flat, rigid members that are joined together at one end via a flexible joint or hinge. One flat member is attached to the angled support flap 650 while the other is attached to the second panel 130. When the angled support flap 650 is in a folded position (i.e., flush against the second panel 130) the flat members lie atop each other and the angle formed between the two flat members is substantially 0°. As the angled support flap 650 rotates away from the second panel 130, the flat members pivot around their joint, or hinge, and the angle between the flat members increases to a maximum angle of 180°. At this maximum angle, the joined flat members are fully extended, thereby preventing further rotation of the angled support flap 650. The maximum rotation angle of the angled support flap 650 (i.e., the maximum angle to which the second support flap can rotate) is determined by both length of the third rotation limiter 656 and the distance between the angled flap connector 551 and the attachment point of the third rotation limiter 656.
Referring to
In some embodiments, the angled support flap retainer 655 comprises at least one pair of magnetic devices. The magnetic devices may comprise a pair of magnets, a magnet and a corresponding ferromagnetic material (e.g., steel, iron, or nickel), or other suitable devices attracted to each other via magnetic forces. One magnetic device of the pair may be located in the angled support flap 650 while the other magnetic device of the pair may be located in the second panel 130. The magnetic attraction between the angled support flap retainers 655 maintains the angled support flap 650 in the folded position. In some embodiments, the magnetic angled support flap retainer 655 is configured to interact with one or more sensors of a portable electronic device 101 such that the change in magnetic field caused by opening the case 600 triggers the portable electronic device 101 to wake up or power up and the change in magnetic field caused by closing the case 600 triggers the portable electronic device 101 to sleep or power down.
In some embodiments, the angled support flap retainer 655 comprises at least one bistable spring having a first stable position corresponding to the folded position of the angled support flap 650 and a second stable position corresponding to the extended position of the angled support flap 650. The bistable spring attaches to the angled support flap 650 and to the second panel 130. In some embodiments, the bistable spring passes through the angled flap connector 551. In other embodiments, the bistable spring is located adjacent to the angled flap connector 551. In some embodiments, the third rotation limiter 656 is omitted because a bistable spring is used to bias the angled support flap 650 in a folded position or an open position. In other embodiments, the third rotation limiter 656 acts conjunction with a bistable spring to limit the rotation of the angled support flap 650.
As illustrated in the embodiments of
In some embodiments, angled support flap 650 may comprise one or more receptacles configured to receive flat items. For example, the receptacles may comprise card slots 153 and an ID slot 154. The card slots 153 may comprise slots or pockets located in the angled support panel 650 and configured to hold credit cards or similarly shaped objects. The ID slot 154 comprises a windowed card holder located on angled support panel 650 and is configured to hold an identification card or the like. In some embodiments a second ID slot 154 is provided in lieu of the one or more card slots 153 and vice versa. One of skill in the art will recognize considerable variation within the scope of the present disclosure regarding how a various pockets, card slots, and ID slots may be arranged on the angled support flap 650.
In some embodiments, the angled support flap 650 may be rigid or semi-rigid to maintain its shape. In one embodiment, a rigid or semi-rigid angled support flap 650 retains its planar shape and supports the case 600 and/or second panel 130 when the case 600 is configured in a landscape or a portrait supported position. For example, if the angled support flap 650 is extremely flexible it may not hold its shape enough to support the case 600 and/or portable electronic device 101 in the supported positions depicted in
The angled support flap 650 may be formed of a variety of materials including a fabric, leather, plastic, composite, metal, or any other material. In some embodiments, an outer portion of the angled support flap 650 may be formed of a soft or protective material to reduce scratching of a portable electronic device 101. For example, a surface of the angled support flap 650 that faces the device receptacle 120 when the case 600 is in a closed configuration may be formed of a soft fabric, lint free cloth, suede leather or imitation suede leather, or the like. Other portions of the angled support flap 650 may include the same or other materials to provide a pleasing appearance to the case 600. In some embodiments, the angled support flap 650 may be formed of rigid or semi-rigid material such that the angled support flap 650 maintains its planar shape. For example, a portion of the angled support flap 650 may be formed of a variety of rigid or semi-rigid materials including a fabric, leather, plastic, composite, metal, or any other suitable material. Other portions of the angled support flap 650 may include the same or other materials to provide a pleasing appearance to the bifold case 100.
While the principles of this disclosure have been shown in various embodiments, many modifications of structure, arrangements, proportions, elements, materials, and components, which are particularly adapted for a specific environment and operating requirements, may be used without departing from the principles and scope of this disclosure. These and other changes or modifications are intended to be included within the scope of the present disclosure.
The foregoing specification has been described with reference to various embodiments. However, one of ordinary skill in the art will appreciate that various modifications and changes can be made without departing from the scope of the present disclosure. Accordingly, this disclosure is to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope thereof. Likewise, benefits, other advantages, and solutions to problems have been described above with regard to various embodiments. However, benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, a required, or an essential feature or element. As used herein, the terms “comprises,” “comprising,” and any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, a method, an article, or an apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, system, article, or apparatus.
Those having skill in the art will appreciate that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. The scope of the present invention should, therefore, be determined only by the following claims.
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