This disclosure generally relates to systems, devices, and methods for storing, transporting and networking mobile computing devices, such as tablet computing devices.
Tablet computing devices, sometimes referred to as tablets, or as tablet computers, are generally planar, lightweight devices that include a touch-screen display. Examples include the Apple iPad, Kindle Fire, Motorola Xoom, Samsung Galaxy, Blackberry Playbook, LG Optimus Pad, Dell Streak, HP TouchPad, HTC Flyer, and Viewsonic ViewPad. Generally, tablets have a rectangular form factor that may be considered smaller than a traditional laptop or desktop computer monitor but larger than a smaller electronic device such as a smartphone. For example, in some cases tablets may be about 20 CM to about 30 CM in length, about 10 CM to about 20 CM in height, and about 1 CM in thickness or less, with a weight of between about 400 grams and about 1 KG. Tablets also generally have a display panel (e.g. LCD or TFT) with a screen size of between about 15 CM and about 25 CM, and may include a variety of other features such as front and/or rear camera(s), wire or cable connector(s) (e.g., proprietary, HDMI, USB, audio, charging/power, etc.), and wireless network connections (e.g., 3G/4G, Wi-Fi). Tablets may also currently have between about 500 MB and about 1 GB of RAM and between about 16 GB and about 64 GB of storage memory.
A typical tablet 108 is depicted in
Given that tablets are generally rectangularly shaped, tablets are thus typically symmetrical when viewed front-on, as shown in
Tablet users often choose to cover their tablets with a tablet cover 170, as depicted in
Embodiments of tablet storage devices described herein generally provide devices and systems for storing and/or transporting tablets and related electronic devices. According to one embodiment, a tablet storage device can include a cart frame, and at least a first module and a second module (e.g., at least a plurality of modules). The cart frame can include a wheeled base. The first module can define a selectively accessible first interior space. The first module can have a plurality of storage slots within the first interior space and can be adapted to hold a first portion of the tablets. The second module can define a second selectively accessible second interior space. The second module can have a plurality of storage slots within the second interior space. The second module can be adapted to hold a second portion of tablets. The cart frame can be adapted to hold the first and second modules in a stacked arrangement on the wheeled base.
Some embodiments may simply provide a tablet storage module that can be used in conjunction with a tablet storage cart to store and/or transport one or more tablets or other electronic devices. The tablet storage module is configured for holding a plurality of tablets on a tablet storage cart and generally includes a module body having a top panel, a bottom panel, and a side wall. The module body also defines a selectively accessible interior space that contains multiple storage slots adapted to hold a plurality of tablets. At least one, some, or all of the storage slots include a connector for connecting to one of the plurality of tablets within a particular slot. The module can also include at least one door configured to selectively provide access to the interior space and the plurality of storage slots and tablets stored within the module body. Further, in some cases the module body is configured to be removably positioned on a wheeled base of a tablet storage cart in a stacked arrangement of at least two tablet storage modules.
Some embodiments may optionally provide none, some, or all of the following advantages, features, and/or options, though other advantages, features, and/or options not listed here may also be provided. In some cases, the first docking station can have a connector configured to align with and connect to a first tablet as the tablet is positioned in the first docking station. The slot can be further adapted such that the first docking station can be replaced by a second docking station, where the second docking station can be adapted for use with a second tablet that is not compatible with the first docking station.
In some cases the storage slots of the first and second modules can optionally have connectors for connecting to the tablets. The cart frame can have a network connection system that can be adapted to provide a network connection for each tablet that is connected to one of the connectors. The network connection system can include a wireless transmitter. The cart frame can have an internal compartment that can house equipment for the network connection system. The internal compartment can include a fan and a vent. A plurality of the storage slots of a first module can have docking stations for connecting to a first portion of tablets. The storage slots of the first and second modules can have connectors for connecting to the tablets. The cart frame can have a power supply system for charging each tablet that is connected to one of the connectors.
In some cases at least one of the storage slots of the first module can have a connector for connecting to a tablet. The first module can have a network connection system that can be adapted to provide a network connection for a tablet that is connected to the connector of at least one storage slot. The first module can have an equipment bay that can house equipment for the network connection system. In some cases the storage slots of the first module can have connectors for connecting to the tablets. The first module can have a power supply system that can be adapted to connect a power supply to each tablet that is connected to one of the connectors.
In some cases the first module can have a port. The cart frame can have a connector that can connect to the port such that the cart frame and the first module are in electronic communication. In some cases the first module can have a port and a connector, the second module can have a port, and the cart frame can have a connector. The cart frame connector can be connected to the first module port to form a first connection, and the first module connector can be connected to the second module port to form a second connection. Such that the cart and the first module can be in electronic communication through the first connection, and the cart and the second module can be in electronic communication through the first and second connections.
According to some embodiments, a cart frame can have a connector and a network connection system. The first module can have a port, and at least one of the storage slots can have a connector for connecting to a tablet. The cart frame connector can be connected to the first module port to form a first connection, and the slot connector can be connected to the tablet to form a second connection. As a result, the network connection system can be in electronic communication with the first module through the first connection, and the network connection system can be in electronic communication with the tablet through the first and second connections.
In some cases the cart frame can have a connector and a power supply system. The first module can have a port and at least one of the storage slots can have a connector for connecting to a tablet. The cart frame connector can be connected to the first module port to form a first connection, and the slot connector can be connected to the tablet to form a second connection. As a result, the power supply system can be in electronic communication with the first module through the first connection, and the power supply system can be in electronic communication with the tablet through the first and second connections.
According to some embodiments, the cart frame can have a vertical portion coupled to the wheeled base, and the wheeled base can have a translatable tray on which the first and second modules rest. The translatable tray can translatable from a first position to a second position. In the first position, a vertical surface of at least one of the first and second modules can be disposed immediately adjacent to the vertical portion of the cart frame; and in the second position, the vertical surface can be spaced from the vertical portion of the cart frame. The translatable tray can include an alignment feature. The cart frame can have a vertical portion that includes a handle. The cart frame can have a grounding system. The selectively accessible first interior space can be selectively accessible via a door. The door can be lockable. The first and second modules can include handles.
In some cases the first module and/or the second module can include an alignment feature to facilitate alignment with the other of the first module and the second module. The cart frame can include an alignment feature to facilitate alignment of the first and/or second module with the cart frame. The first and second modules can include a locking mechanism that can be adapted to enable the first module to be locked to the second module in a stacked arrangement. The locking mechanism can be further adapted to enable at least one of the first and second modules immediately adjacent to the wheeled base in the stacked arrangement to be locked to the cart frame. The cart frame can have a vertical portion that can include a locking mechanism. The locking mechanism can be adapted to enable the first and second modules to be locked to the cart frame.
These and various other features and advantages will be apparent from a reading of the following detailed description.
The following drawings are illustrative of particular embodiments of the invention and therefore do not limit the scope of the invention. The drawings are not necessarily to scale (unless so stated) and are intended for use in conjunction with the explanations in the following detailed description. Embodiments of the invention will hereinafter be described in conjunction with the appended drawings, wherein like numerals denote like elements.
The following detailed description is exemplary in nature and is not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the following description provides some practical illustrations for implementing exemplary embodiments of the present invention. Examples of constructions, materials, dimensions, and manufacturing processes are provided for selected elements, and all other elements employ that which is known to those of ordinary skill in the field of the invention. Those skilled in the art will recognize that many of the noted examples have a variety of suitable alternatives.
Embodiments described herein provide systems, devices, and methods for storing and/or transporting and/or charging and/or networking one or more tablet computing devices. As discussed above, tablet computing devices are well known and are also referred to herein as tablets. In general, a tablet is a mobile computer, typically integrated into a flat touch screen and primarily operated by touching the screen, often including an onscreen virtual keyboard, rather than using a physical keyboard. The form factor of a tablet offers a more mobile way to interact with a computer. Typically, tablets have a battery that needs to be periodically charged, software that may need to be periodically updated or maintained, and data that may need to be backed up from, or transferred to the tablet.
Some embodiments provide a tablet storage device in the form of a tablet caddy for storing, transporting, charging, and/or networking one or more tablets. Tablet caddies and other tablet storage devices, can be provided with various physical configurations and features, as will be appreciated from this detailed description. As will be discussed in detail below with reference to
Regardless of a particular physical configuration, in some cases a tablet caddy can include a power supply system for charging a plurality of tablets when stored.
In some embodiments, the power supply system can include a power cable 324, and a wall plug 328 that extend from a caddy 100 to a wall outlet, as depicted in the block diagram of
In some embodiments, the power supply system can include a power cable 324 that extends from the caddy 100 to form a junction with a building power-supply wire, as depicted in the block diagram of
Embodiments of the power supply system convert AC power to DC power and ultimately route the power to each stored tablet. In some embodiments, the power supply system includes a timer, or other arrangement, that charges a subset of the total number of stored tablets at any one time, and can cycle the subsets until all tablets are substantially fully charged. Such a timer or other system, is useful for limiting the instantaneous power draw of the power supply system. In some embodiments, the power supply system can include an auxiliary outlet 292 located on the caddy so that other devices, such as accessories, can be conveniently plugged in and provided with AC or DC power.
In some embodiments, the power supply system can include a combined power supply 248 which has a plurality of wires 126 that provide power to each stored tablet, as depicted in the block diagram of
In some embodiments, a combined power supply such as in
In embodiments where the power supply system of the caddy includes a wire that is directly connected to a building's power-supply wire, as depicted in
An embodiment that uses a standard wall outlet connection, as depicted in
As depicted in the block diagrams of
In some embodiments, as depicted in the block diagrams of
In some embodiments, as depicted in the block diagrams of
An embodiment that uses a wired connection to a network, as depicted in
Turning now to
Stationary tablet caddy embodiments can be considered generally stationary as they are commonly adapted to be supported by or mounted to a stationary surface. For example, a frame for a tablet storage rack may include a surface adapted to be in apposition to or attached to another surface, such as a stationary support surface. Examples of such stationary surfaces can include vertical surfaces, horizontal surfaces, and surfaces at other angles, including surfaces of a wall, a column (which can have, for example, a circular, oval, square, rectangular or irregular cross-sectional shape), a post, a desk, a counter, a floor and a ceiling.
The plurality of slots of a tablet storage rack can be generally configured to hold a plurality of corresponding tablets. For example, each slot in a tablet storage rack may be configured to receive and store one tablet or optionally two or more tablets depending upon the particular physical implementation. In some cases one or more slots may include one or more connectors for connecting to a tablet received within the slot(s) as mentioned above. Thus, in some cases the slots may be referred to as storage slots, connection slots, and/or storage and connection slots. While certain embodiments of tablet caddies are described herein as specifically including storage slots, connection slots, and/or storage and connection slots, it should be appreciated that in many cases these terms are used interchangeably and many variations of slot configurations can be utilized, including configurations in which none, one, some, or all of the slots in a tablet caddy have connectors for connecting to a tablet received within a particular slot.
In some cases storage and/or connection slots can be arranged in a substantially vertical orientation in a frame such that tablets can be stored in a substantially vertical orientation. Storage and connection slots can include any shape that is useful for holding a tablet in such a generally vertical orientation, which can include holding a tablet on one of its four edges (the top, bottom, left and right edges when the screen of the tablet is viewed). Tablets can also be held at a slight angle to a vertical, which can range from about 10 degrees to about 30 degrees from vertical.
One embodiment of a stationary tablet caddy including a tablet storage rack 151 is depicted in
Another embodiment of a tablet storage rack 161 is depicted in
Another embodiment of a tablet storage rack 165 is depicted in
Thus, a tablet caddy can be a tablet storage rack that can be configured as a type of cabinet that in some cases can have doors to retain the tablets in place within the slots. A tablet storage rack can be mounted to a wall or other vertical surface, or can be mounted to a counter or other horizontal surface and can be configured to hold as many tablets as desired. In some embodiments, the rack can hold at least ten tablets. In other embodiments, the rack can be configured to hold between ten and forty (for example, between twenty and thirty) tablets and can include a corresponding number of connection slots.
As mentioned above, in some embodiments, connector(s) useful for connecting one or more stored tablets to a power supply system and/or network connection system are disposed in one or more of the slots. Such connector(s) can be applicable to one or all of the embodiments described herein.
In the embodiments that use a docking station 160, the docking station connector 148 connects to the tablet automatically as the tablet is positioned (e.g. pushed in or let down from a vertical position) into the storage and connection position. Such a system saves significant time because of the potential number of connections required to connect a plurality of tablets. Further, such a system is user friendly because, in many embodiments, the connections are made near the bottom of the slot 112, which may be hard to access or see by the user. In some embodiments, connector(s) within a slot can be located to one side of the storage and connection slot 112, as discussed in greater detail below. Further, in some cases connectors may be integrated within a tray-shaped docking station that is positioned within a storage slot. Examples of such configurations are discussed below with respect to
In some embodiments that use a pigtail connection connector 144, individual storage and connection slots may in some cases be used by more than one type (e.g., brand and/or model) of tablet, depending on the compatibility of the connector itself with respect to a particular tablet type. In some embodiments that use a docking station connector 148, the docking station 160 along with the docking station connector(s) 148 may optionally be removable so that they can be removed and replaced by another docking station 160 that has a configuration and docking station connector(s) 148 that are adapted for use with another type of tablet. Similarly, pigtail connection connectors 144 that are adapted for a proprietary connector and pin arrangement can be removed and replaced by another pigtail connection connector 144 that is adapted for use with another type of tablet, or with a connector that is compatible with a variety of tablet types. Such interchangeability is useful if a user has new tablets that are desired to be stored in the caddy, such as in cases where one brand of tablets are being phased out and are being replaced by another brand or model.
Continuing with reference to
In some embodiments, the front wall of a slot can be in an overlapping configuration with the front wall of an adjacent slot in order to overlap at least a portion of the tablets when stored. This configuration can reduce the vertical footprint of the caddy. In some embodiments, the front wall can be angled 10-35 degrees from the back wall. In certain embodiments, it may be desirable to have at least some portion of the tablet screen visible to a user while the tablet is held in the tablet storage rack 104, as shown for example in
The rack itself can include any suitable configuration. In some embodiments such as those in
For embodiments that use a docking station 160, the slot can include any shape useful for automatically guiding the tablet into the slot and for aligning the tablet port(s) 164 to engage with the docking station connector(s) 148. Docking station connector(s) 148 can be coated with a highly conductive material, that can be applied in a relatively thick coating (for example, 50 microinchs of gold (about 0.00127 mm)) to protect against wear from repeated insertions. In determining appropriate slot geometry, consideration of any asymmetrical feature 192 can be useful to ensure that the tablet port(s) 164 engage correctly with the docking station connector(s) 148.
In some embodiments, the docking station has a shape adapted to conform to the tablet, in order to hold the tablet in a desired position. In some embodiments, the docking station is adapted to support two or more tablet surfaces, and thereby control the orientation of a tablet in order to establish correct tablet port alignment with the docking station connector. For example, a docking station can be adapted to hold the tablet at an angle from about 10 to about 35 degrees from vertical. In other embodiments, the docking station can use one or more spring biased pressure tabs to ensure correct tablet alignment within the docking station.
Tablet physical properties, such as an asymmetrical feature 192, as well as one or more outside linear dimensions (e.g. tablet thickness) can be used by a docking station to correctly align tablet port(s) to the station docking connector(s). Thus, in certain embodiments, it may be desirable to adapt the docking stations such that they accept a tablet for docking with an attached tablet cover. In other embodiments, it may be desirable to adapt the docking stations such that they accept a tablet for docking with, or without an attached tablet cover. For example, such a configuration can be achieved through the use of a spring biased docking station connector, that has a beveled leading edge, and that is adapted to adjust its distance from an alignment surface according to the location of the corresponding mating port on a tablet. In other embodiments that use pigtail connection connectors 144, tablet covers should not require any special adaptation, as long as the tablet cover does not hinder access to a tablet port, and the overall dimensions of the tablet with the tablet cover attached do not exceed the interior slot dimensions.
In some embodiments a slot 112 and pigtail can be provided as depicted in
Alternately, a wired router can be used to supply access to a network via cables and network connectors. In this embodiment, which is not depicted, a wired network router can be located within the front compartment 228 in lieu of the Wi-Fi transmitter 232. In such a configuration, one cable per tablet would come from the router and be connected to each tablet 108, either through pigtail connector 144, or a docking station connector 148.
As can also be seen from
In some embodiments, an individual power supply 260 can be provided to each tablet that is connected to the power supply system. In such embodiments, as depicted in
As seen in
In some embodiments, as show for example in
In some embodiments of the tablet storage rack 104, a small electronic device 264, such as a cell phone, smart phone, music player (e.g. mp3 player), a handheld device, a palm sized device or any other relatively small electronic device (e.g. a device that can be held and operated with one hand) can also be stored, alone or alongside a tablet. These small electronic devices 264 can either be simply stored in the rack, or they can also be charged and/or networked, by adding the appropriate connectors, according to the general teachings of this disclosure. As shown in
The bracket 190 illustrated in
Of course, a tablet storage rack can be supported or suspended off the ground or floor by a support beam or other elevated surface in a wide variety of configurations that will be apparent to those skilled in the art. In some cases, one or more types of fasteners may be used to attach a surface of the tablet storage rack to a support surface, such as the bracket and slot configuration discussed and illustrated with respect to
Turning now to
According to some embodiments, a tablet storage device in the form of a mobile tablet caddy generally includes a tablet cart adapted to hold a plurality of tablets within an interior space of the tablet cart, such as within a corresponding plurality of slots in the interior space of the cart. A tablet cart can be useful for transporting and/or storing (e.g., in a temporary location) a plurality of tablets and in some cases may also be referred to herein as a storage and/or transportation cart. When stored, each tablet can be individually accessed for storage or retrieval, e.g., without disturbing other tablets that may also be stored. In some embodiments connector(s) useful for connecting a stored tablet to a power supply system and/or to a network connection system are disposed in one or more of the slots. In some cases the connector(s) may be pigtail connection connectors or docking station connectors, both of which can share configuration similarities with the connector(s) that can be included in a tablet storage rack.
A cart can be configured to hold as many tablets as desired. In some embodiments, a tablet cart holds at least ten tablets. In other embodiments, a tablet cart is configured to hold between ten and forty (for example, between twenty and thirty) tablets. In some embodiments, a cart is configured to hold between thirty and one hundred and eighty (for example, between sixty and ninety) tablets, and includes a corresponding number of connection slots. The slot(s) provided by the tablet cart can include any shape that is useful for holding a tablet and in many cases may have configurations and features generally similar to those described above with reference to the generally stationary tablet storage racks.
According to some embodiments, slots in a tablet cart can be grouped within one or more tablet storage modules that each define an interior space for storing one or more tablets. According to some embodiments, a tablet cart may have at least two or at least three or even more tablet storage modules for storing portions of a plurality of tablets. As will be discussed herein, several examples are given in which a tablet cart has three tablet storage modules. However, this is just one example and embodiments with less or even more storage modules are possible.
The tablet storage modules are each adapted to hold one or more tablets in a corresponding number of slots, as will be further described. Tablet storage modules can be arranged in a variety of ways on a cart and depending on the cart and module configurations, a variety of connection embodiments may be available for electronic connection of a network connection system and a power supply system to provide power and/or a network connection from the respective source(s) to each connected tablet though the cart and modules.
According to some embodiments a tablet cart may have one or more non-tablet modules that may be included within a stack of modules on a particular tablet cart. In some cases non-tablet modules can be used for storing or housing equipment and items other than tablets. For example, in some cases a module may be dedicated for power supply and distribution equipment and may be useful for providing power to the tablet storage modules. Another example of a non-tablet module includes a module with networking equipment that provides the tablet storage modules with network connectivity. In some cases one or more modules may be included for storing auxiliary and peripheral equipment that may or may not be used in conjunction with the tablets. In some cases, simple open storage modules may also be provided without any internal customization or specific hardware, thus providing simple storage units along with the tablet storage modules.
According to some embodiments, a tablet cart can have a frame that can include a wheeled base (which can also be referred to as a horizontal portion) and a vertical portion, which can have a handle, as depicted for example in
Referring generally to
One embodiment of a tablet cart 271 is depicted in
In some cases the display 288 can include (a) indications for power consumption and/or distribution, which can be displayed as an aggregate for the cart, or displayed module by module; (b) the temperature within each tablet storage module (not shown), as well as a temperature indication for within the cart frame; and/or (c) indications for network connectivity. In some cases the one or more auxiliary outlets 292 can provide pass through power, such that if the cart is plugged into a wall outlet, power can also be provided to the auxiliary outlets 292 in order to reduce or eliminate the need for additional extension cords that may be required to power devices, such as a laptop computer, and/or a projector that are in use on, or near, the cart.
In some embodiments the frame 276B may house one or more electronic components or systems, such as a network connection system or a power supply system, within an internal compartment of the cart frame (not shown). In order to keep such internal electronic components cooled, a fan 296 that either draws air into, or out from, the internal compartment can be installed on the cart frame in communication with the internal compartment. One or more cooperating vents can also be provided to enhance air flow into, out from, and throughout the internal compartment. The power supply system can include a power cable which can terminate on one end in a standard wall plug for plugging into a standard wall outlet. A retractable cord assembly can also be provided within the cord stowage compartment, such that the power cable can be retracted into the cart frame when not in use.
Another embodiment of a tablet cart 277 is depicted in
An embodiment of another transportation cart 275 is depicted in
In some embodiments, such as depicted in
Another embodiment of a transportation cart is depicted in
Although not shown in
In some embodiments, transportation cart 279 may include six casters (not shown) generally positioned near the corners of the cart 279 instead of only the four casters 308 shown in
According to some embodiments, transportation cart 279 can include four casters that are attached to the frame (not shown). As the four casters in these embodiments are all attached to the frame, none of the casters move to positions A and/or B when the lowest drawer is opened.
As mentioned above, in some embodiments, a tablet cart can have a cart frame with a generally horizontal portion that includes a wheeled base, but without a generally vertical portion as described with respect to some other embodiments. In some cases the horizontal portion is adapted to hold one or more tablet storage modules in a stacking arrangement. A user can transport the system by applying a generally horizontal force to one of the stacked modules, which will transfer the force to any module(s) stacked below and to the wheeled base, thus facilitating movement of the cart. Several features, discussed in detail below, inhibit the relative horizontal movement of one module with respect to another, or with respect to the base.
Features that can be common to cart frames that include a wheeled base, but not a vertical portion, can include an internal compartment within the wheeled base. The internal compartment can house electronic components, such as a network connection system or a power supply system. In order to keep such internal electronic components cooled, a fan that either draws air into, or out from, the internal compartment can be installed on the wheeled base. One or more corresponding vents can also be provided to enhance air flow into, out from, and within the internal compartment.
As shown in
A combined power supply 248 can also be provided according to certain embodiments of the base 280. In such embodiments, the power supply system 136 can provide power to the modules through connector 3002, and through power distribution within each module, to reach each tablet that is connected to the power supply system through the connector 3002 as will be described further with respect to
In other embodiments, the power supply system 136 within the base 280 does not include the combined power supply 248. Instead, the power supply system 136 distributes power to each module, and each module includes a combined power supply to distribute power to each connected tablet.
In the embodiment of the internal compartment 312 depicted in
Alternately, a wired router can be used to supply access to a network via cables and network connectors such as a pig tail or docking station connectors as described elsewhere herein. In this embodiment, a wired network router can be located within the compartment 312 in lieu of the Wi-Fi transmitter 232. In such a configuration, network signals can be transmitted through cart connector 3002 to the modules, and from there, the network signals can be routed to each connected tablet, as will be described in further detail below. Thus, either by a wired, or by a wireless connection, the cart can allow for communication between each stored tablet and a network.
As can be appreciated, some or all of the components which have been described, or have been depicted in the figures, as being located within the internal compartment 312 of the wheeled base 280, can also be located within an internal compartment of a cart frame with a vertical portion, an example of which is depicted in
Turning to
As discussed above with respect to several embodiments, tablet carts can include one or more tablet storage modules. A tablet storage module can have an interior space configured to hold one or a plurality of tablets within one or more corresponding slots within the module. As an example, a tablet cart configured to hold a plurality of tablets may include two or more modules, including a first module that defines a selectively accessible first interior space and a second module that defines a selectively accessible second interior space. The first module can have a plurality of storage slots within the first interior space adapted to hold a first portion of the plurality of tablets, while the second module can have a plurality of storage slots within the second interior space adapted to hold a second portion of the plurality of tablets.
According to some embodiments, the interior space of a module may be freely accessible from outside the module, such as through a permanent opening or window in a side of the module. In some cases, a storage module may alternately include one or more doors that close upon the interior space to provide selective access to tablets stored therein. As shown in
Of course, tablet storage modules may optionally include a number of other features, some of which are described in further detail elsewhere herein. For example, modules may be provided with handles (e.g., handles 348 of module 3200) that facilitate easy transport of modules on and off of a tablet cart, may include one or more alignment features (e.g., edge features or surface features 356, protrusion 360, and recesses 364 of module 3200) to facilitate stacking of modules, one upon another, and/or may include various slot configurations within the modules. As other examples, modules may include various types of electrical components (e.g., for a power supply system and/or communication network system) and connectors for connecting tablets and other devices. In addition, while several features have been discussed with respect to module 3200 in
Turning to
In some embodiments, a horizontal extension of a tablet cart (e.g., the horizontal portion 282 of the carts in
In some embodiments, an alignment feature on the horizontal portion of a tablet cart frame can be the same as the alignment feature on each module, such that modules can be stacked in any order on the horizontal portion and thus the cart. In some cases, alignment features can be used to restrict the possible combinations for ordering and aligning modules upon a cart. Turning to
Of course the type and number of alignment features for a given module may vary from the particular embodiments illustrated herein. In some cases more or less alignment features may be included or alignment features having a different type of engagement may be included. In some embodiments the alignment features may include two or more cooperating surface features on opposing surfaces of two storage modules or on opposing surfaces of a storage module and a horizontal frame portion. In some cases one or more alignment features may facilitate stacking of multiple modules and aid in transporting the modules and cart together by inhibiting relative horizontal movement of one module with respect to another in some embodiments. As described above, in some cases the alignment feature can be a protrusion or a recess, though these are just some illustrated examples.
As shown in
As discussed elsewhere, some embodiments of a tablet cart include one or more slots within an interior space of a tablet storage module for receiving and storing one or more tablets. For example, a tablet cart may include a plurality of storage modules, each having a plurality of storage slots within an interior space of each module adapted to hold a portion of a plurality of tablets stored within the tablet cart.
Slots provided by a tablet cart can include any shape that is useful for holding a tablet and in many cases may have configurations and features generally similar to those described above with reference to the generally stationary tablet storage racks. For example, each slot in a tablet cart may be configured to receive and store one tablet or optionally two or more tablets depending upon the particular physical implementation. In some cases one or more slots may include one or more connectors for connecting to a tablet received within the slot(s) and thus the slots may be referred to as storage slots, connection slots, and/or storage and connection slots. Of course it should be appreciated that many variations of slot configurations can be utilized, including configurations in which none, one, some, or all of the slots in a tablet cart have connectors for connecting to a tablet received within a particular slot.
Storage and connection slots can be arranged in any suitable orientation with respect to a tablet cart and/or one or more tablet storage modules associated with the tablet cart. In some cases, slots can have a vertical orientation or a generally vertical or slightly angled from vertical orientation. For example, a tablet within such a slot can be positioned in similar orientation to tablets stored in a tablet storage rack. Slots can also be arranged in a horizontal orientation (for example, a tablet within such a slot can lie flat with the screen either facing up or down), and/or in a generally diagonal orientation (for example, a tablet within such a slot can be resting on both an edge and either the screen or the back plate), among other orientations. As described elsewhere, storage and/or connection slots in a tablet cart can also be grouped within one or more modules that each define an interior space for storing a plurality of tablets. In some cases slots may be included in modules that are configured as extendable drawers (see, e.g.,
Of course, these are just some of the many number of possible types of configurations that may be useful for providing storage and/or connection slots in various embodiments of tablet carts (as well as tablet storage racks, where appropriate), and it should be appreciated that many other slot configurations and variations are possible. For example, U.S. patent application Ser. No. 13/025,782, entitled “Mobile Computing Device Charging and Networking System and Method,” filed Feb. 11, 2011, which claims the benefit of U.S. Provisional Application Ser. No. 61/303,357, entitled “Laptop Computer Cart,” filed Feb. 11, 2010, describes multiple examples of mobile computing device carts adapted to hold a plurality of mobile computing devices in a corresponding plurality of docking station slots. The disclosures of U.S. patent application Ser. No. 13/025,782, and U.S. Provisional Application Ser. No. 61/303,357 are each incorporated herein by reference in their entirety.
As discussed above, one or more of the slots in a tablet cart can optionally have various types of connectors to connect a stored tablet to, e.g., a network connection system and/or to a power supply system. In some embodiments, one or more pigtail connection connectors and/or a docking station connectors may be provided. For example, a slot within a tablet cart storage module may include one or more pigtail connectors in a manner similar to slots of the tablet storage rack embodiments discussed above with respect to
Docking station connectors can be provided in any suitable format.
Docking stations, such as the docking station 160 in
According to some embodiments, one or more docking stations (and included connectors) may be removable from tablet storage slots. Referring to
Returning to
Returning to
Of course, many other configurations for module equipment bays are also possible and it should be appreciated that the scope of this disclosure is not limited to any particular equipment configuration. As just a few examples, various configurations of power supply equipment and/or network connection equipment can be provided within a module equipment bay.
Turning to
In the embodiment shown in
In the embodiment shown in
To complement the adjustable configuration of multiple modules as depicted in the examples in
According to some embodiments, a tablet cart may be provided with a grounding system in order to ground the electrical system of the cart and reduce the risk of unwanted electrical charge build-up.
Continuing with reference to
As mentioned above, in some embodiments a tablet cart may have one or more tablet storage modules with an optional, built-in locking mechanism that allows one or more doors of the storage module to be secured when closed, thus securing any tablets that are stored within the module. Examples of locking doors are illustrated in the tablet cart embodiments depicted in
Turning to
Thus, some embodiments of the invention are disclosed. Although the invention has been described in considerable detail with reference to certain disclosed embodiments, the disclosed embodiments are presented for purposes of illustration and not limitation and other embodiments of the invention are possible. One skilled in the art will appreciate that various changes, adaptations, and modifications may be made without departing from the spirit of the invention and the scope of the appended claims.
This application is a continuation application and claims the benefit of U.S. application Ser. No. 13/650,736, entitled Tablet Storage and Transportation Device, filed Oct. 12, 2012, which claims the benefit of U.S. Provisional Application Ser. Nos. 61/547,257, 61/553,620, and 61/590,032, all three of which are entitled Tablet Mounting Systems and Methods, filed Oct. 14, 2011, Oct. 31, 2011, and Jan. 24, 2012, respectively, the contents of each of which are hereby incorporated by reference.
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Number | Date | Country | |
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20160111902 A1 | Apr 2016 | US |
Number | Date | Country | |
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Number | Date | Country | |
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Parent | 13650736 | Oct 2012 | US |
Child | 14919520 | US |