The present invention pertains to the burgeoning field of tools facilitating remote and/or mobile work, employee mental and emotional wellness, and indoor and outdoor recreation.
The world of business, entrepreneurship, and work/life balance has witnessed multiple shifts forward in recent years, especially in light of the recent marked increase in the percentage of employees working from home and/or while traveling. The current state of available technology and commercial products fall short of meeting the needs of this moment. Working outdoors or other remote indoor or outdoor location currently requires locating or having a power source (battery bank or wall outlet), lugging power cords for each of the user's various devices, a separate wireless charger, a device capable of cellular hot-spotting (such as a portable hotspot, or through cell phone tethering, etc.), and a device capable of repeating a boosted WiFi signal and creating a local hotspot, and all related power and data transmission cables. No all-in-one desk networking and charging solution exists in the technology or among commercially available options. Many of the devices which constitute attempts at such a solution would require independent power sources (using rechargeable batteries, for example) with varying lifespans. In addition, a user would be required to find an area, presumably outdoors, or in another non-traditional workspace, where these types of solutions are most frequently sought, where these devices could all function interconnectedly and also allow the user to connect to remote or offline working capabilities on their primary (laptop, iPad, tablet) and/or secondary (cell phone, tablet, smartwatch) devices. In addition, users seeking a comfortable place and position, as they often do, are currently required to seek out an existing space with a seat and a flat writing or working surface (i.e., a picnic table, cabin, tent), or instead have to sit on the ground with the various devices described above surrounding them.
As indicated above, the options for users seeking a mobile workspace solution, especially one that is feasible for use outside, are extremely limited. These options have several significant disadvantages in common, some of which were noted above. Specifically, the requirement to purchase each of the components of a mobile workspace solution is not only costly and inconvenient, but also creates user issues in accomplishing technical compatibility of the various interactive components. Additionally, the various components typically come with and require: their own types or forms of power sources—either built-in or as an auxiliary tool—all of which have their own means of, and minimum times to, full charge; and cables and cords for interconnection. The physical heft, cumbersome conveying, and multi-step deployment of these elements create inconvenience and require excessive mental energy and planning—defeating the aims of a user seeking a uniform and user-friendly solution suitable for use outdoors.
In addition to the significant drawbacks outlined above, existing portable desk surfaces, and other theoretically possible homemade, converted, or jury-rigged options therefor, are not designed for the express purpose of working outdoors. Such commercial products—either already in existence or repurposed versions thereof—are inadequate and partial solutions for the outdoor and other remote location markets. For instance, desks designed as bed trays or lap desks would require significant alteration for use outdoors and on-the-go, with the closure mechanisms and locks being one example of a currently unavailable necessity for a comprehensive and convenient solution to outside work. The limitations imposed by the varying purposes for which they were designed include awkwardly folding or non-adjustable leg angles and workstation heights, all of which create uncomfortable and often non-ergonomic sitting and working positions (such as cross-legged, kneeling or squatting, haphazard uses of outdoor or other workspace unfriendly furniture, vehicles, or naturally occurring accommodations). Options such as individual leg height adjustments and variable angles and orientations for the desktop are essential for a complete and comfortable solution to facilitate the productivity, freedom, and flexibility that users seek, and employers are increasingly coming to value. Furthermore, such commercial options and ad hoc desk solutions do not allow for desk operation when in a closed, folded state, or in an opened state, but with the legs folded.
Likewise, options in the realm of travel and other existing portable desks are insufficient to meet the needs described. They lack some or all of the features required for practical outdoor or other remote location use, including, but not limited to: mechanisms for folding, collapsing, or otherwise minimizing for convenient transport; means for device and component storage; connectivity and networking features; charging components and connections; a flat surface conducive to, and appropriately sized for, writing, opening and laying flat laptops and other devices, and other activities; the ability to add, remove, and substitute accessories and components, as the user may need; and are composed of durable, washable, environmentally-friendly materials. Finally, current states of technology and trends for working and workspaces give rise to a variety of accessories, ideally with a universal connection point and organized and sized for transport and airline travel, which may include electronic attachments and tools for the user's comfort such as sun shades, chair, hammock, and other seating attachments, magnetic data or power connections and ports, cooling systems, as well as solar and heat based recharging systems. These useful advantages remain unmet for a growing population of users and mobile workers.
As noted herein, current technology and commercial products fail to assist those who seek to establish a comfortable and fully outfitted workspace, without the hindrances, inconveniences and inefficiencies noted above.
The present invention provides a portable, mobile, and/or modular workstation which accommodates a user in a broad range of remote and unconventional working environments. More specifically, the apparatus is designed to promote remote work in outdoor spaces, allowing users to easily conduct remote work from outdoor and mobile locations. The device merges telecommunications, power delivery and back-up, a mobile work environment, and the outdoors, to create a system capable of fulfilling the needs of a remote worker, and accounting for the blurred line between productivity and traditional notions of a mandatory office environment.
Certain embodiments may comprise an improved portable workstation used in connection with external electronic devices and other office and personal equipment such as, for example, a laptop, laptop accessories, tablet, cellular telephone, office supplies and the like, is disclosed. The workstation comprises a first section comprising a first work surface, and a second section comprising a second work surface. The second section is hingedly attached to the first section. The workstation may be placed in an open position and a closed position, such that when in the open position the first and second sections reveal a storage compartment accessible to a user of the workstation. The workstation further comprises a support mechanism, such as legs or other support devices, which is capable of being deployed by the user when the workstation is in the open position, and which support the first and second sections when said workstation is in said open position. The workstation further comprises an internal power and data hub positioned in the storage compartment. to When external electronic devices are attached and/or otherwise in operative communication with the hub, the hub provides electrical power and data and internet access to one or more external communications networks.
Certain embodiments may comprise an improved portable workstation for use with external electronic devices comprising a first section, a second section hingedly attached to the first section. In this embodiment the workstation may have an open position and a closed position, where the first and second sections form a storage compartment accessible to a user of the workstation when said workstation is in an open position. Such embodiments may also comprise an internal power and data hub positioned in said storage compartment where the hub may provide to external electronic devices electrical power and data and internet access to one or more external communications networks.
Certain other embodiments may comprise a portable workstation for use with external electronic devices comprising a work surface comprising one or more areas for storage of items, and an electronics hub adjacent to the work surface. The hub may further provide to external electronic devices electrical power and data and internet access to one or more external communications networks.
Unless otherwise stated, drawings are Computer Aided Design (CAD) depictions, dimensions are in inches, and drawings are not to scale.
The present invention provides a portable, mobile, and/or modular workstation which accommodates a user in a broad range of remote and unconventional working environments. More specifically, the apparatus is designed to promote remote work in outdoor spaces, allowing users to easily conduct remote work from outdoor and mobile locations. The device merges telecommunications, power delivery and back-up, a mobile work environment, and the outdoors, to create a system capable of fulfilling the needs of a remote worker, and accounting for the blurred line between productivity and traditional notions of a mandatory office environment.
The present invention, a portable workstation which provides a complete integrated wireless information technology enabled and ergonomic seating accommodation system, proposes to serve the unmet needs of an increasingly mobile workforce. As described above in the Background Section of this application, multiple disadvantages and deficiencies exist in current options for remote work in unconventional locations, especially outdoors. The present invention combines electronic networking components with a flexible desk top setup suitable for working at various statures and in various positions. Such components can include a large capacity removable battery pack, a cellular network connection, a WiFi network connection, a data or power port switcher, a wireless charger, and any related and expandable accessories, with an objective of compatibility and interoperability of such components with one or more shared connectors and battery sources. A further aim of this technology is to reduce unused materials and batteries, as each component is integrated inside the desk itself, with the least amount of structural housing and technical turnover and replacement possible.
The calculated, ruggedized, and convenient design described herein addresses one or more of the disadvantages of the current technology and specifically resolves an unanswered issue facing remote workers and travelers. Certain aspects of the present invention may comprise one or more of the following features:
As indicated above, several embodiments and variations of the present invention are contemplated hereby. The present invention is capable of multiple configurations and attendant uses, as demonstrated by the examples in
Turning now to
Any items carried onboard or inside workstation 100 (such as, for example, a laptop, laptop accessories, tablet, cellular telephone, office supplies and the like) may be removably stored in carrying compartment 14. Compartment 14 may also comprise other areas which may be incorporated into workstation 100, or take the form of any type of storage device incorporated into workstation 100 capable of providing onboard storage and/or transport of external electronic devices, peripherals, office supplies and personal items.
Once workstation 100 is in the open position (as, for example, as shown in
If a battery is not present in battery slot 16, a removable battery may be inserted into battery slot 16.
One or more wireless WiFi connection(s) 7 and/or cellular data connection(s) 8 may be provided, accessed, switched on and connected to a device (such as for example a laptop computer, cellular telephone, tablet, smartwatch or other electronic device or peripheral) by a user of workstation 100. WiFi and/or cellular data connections 7 and 8 also may comprise appropriate antenna devices.
Cabled power also may be provided to a device (such as for example a laptop computer, cellular telephone, tablet, smartwatch or other electronic device or peripheral) through weatherproof magnetic connection ports 5 or a wireless charger 6. Any electronic devices or accessories also may be attached and/or connected through the universal connectors 10 to access battery power and/or WiFi and/or cellular data.
When a user is finished using workstation 100, items intended to be stored and/or transported inside workstation 100 may be placed, stored and/or transported in storage compartment 14. Extension legs 12 may be unextended and/or folded and stored inside of workstation 100. To place workstation 100 in a closed position, two halves 102 and 103 may be folded along hinge 15 and latched together via latching mechanism(s) 11. Workstation 100 may then be transported and/or carried in the closed position using handle 13.
A removable battery pack or other power source (not shown) may also be mounted to Workstation 100 at removable battery slot 16. When so equipped with a power source, workstation 100 may be capable of charging battery powered devices (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals) via port 2. The removable battery or other power source may be operatively connected internally to workstation 100 via designated connection point 3, therein operatively connecting the power source to port 2. Thus, when a battery powered device (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals) is operatively connected to port 2, the battery powered device may be charged by the power source.
The invention may also comprise internal hub system 9 that enables power and data transfer to external electronic devices (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals) in operative communication with one or more port(s) 5 and/or 6. In certain embodiments, connection to port(s) 2 and/or 5 may magnetically or otherwise be attached in operative communication with external electronic devices. Hub 9 also may provide a centralized interface to wireless charger 6. Additionally, hub 9 may provide a centralized interface in operative communication with WiFi signal booster and hotspot network system 7, and/or cellular data connection 8.
In certain embodiments, workstation 100 comprises a removable battery pack which confers the ability to charge an entire laptop or one and/or more electronic devices at a reasonably expedient charging rate. In addition, the battery pack may be capable of being removed for added portability. This feature provides users of workstation 100 who work outdoors or in other remote or unconventional venues with a power source, connectivity to the internet and/or other data and/or networking sources, as well as a portable work surfaces 104 and 105. In addition, the removable nature of the battery pack allows for the use of the battery pack independent of workstation 100, and the capability of replacement of expended battery packs, and/or allowing for exchange of battery packs with battery packs of differing charging capacity including but not limited to larger or smaller charging capacities. The ability of the battery to charge and accept/divert power from power sources, such as AC connections, solar chargers, heat charger, other batteries, etc., enable workstation 100 to be used in remote environments where grid energy is not readily available. Moreover, the ability to exchange battery packs of differing types and capacities allows for safe and legal travel in compliance with regulatory requirements, and particularly with airline and other travel regulations.
In certain embodiments, cellular network connection and system 8 allows the user to connect to a cellular network funneling through a sim card, independent of other devices such as cellphone tethering. Cellular connection 8 of this type may facilitate mobile telecommunications capabilities, allowing the user to use the product away from a traditional home or office setting, and supports enhanced privacy and security measures compared to public wireless connections. The modular nature of cellular network connection 8 may allow the user to use external electronic devices (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals) independently from workstation 100.
In yet another embodiment, wireless network extender and hotspot system 7 of the present invention can expand the WiFi range for networked external devices (such as such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals), allowing the user to network in environments without needing to be in relatively close proximity to a wireless router/network, and enabling use in remote locations such as a backyard, park, patio, etc. Additionally, the wireless hotspot 7 allows for privacy when connected through a public network, keeping business and personal information secure. The modular nature of this wireless network connection 7 allows the user to use external electronic devices (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals) independently from workstation 100.
In certain embodiments of workstation 100, wireless charging feature 6 facilitates convenient and uncomplicated charging of electronic devices, eliminating the need for a wired connection to the battery and giving the user several options for ergonomic placement and usability of a device placed, for example, on one or more of surfaces 104 and/or 105 of workstation 100.
In certain embodiments, such as depicted in
The present invention is more fully described by way of the following non-limiting examples, use cases and objects of the invention, which should, in no way, be construed as limiting the scope of the invention. The goals accomplished by this invention are increased efficiency, cost-savings, fewer incidents of technical difficulty or failure, promotion of mental health, mindful enjoyment of the outdoors, work/life balance, professional freedom and flexibility, and multiple positive environmental impacts. Its largest role will be in the professional, home office, and travel spaces, with applications in every industry and arena of work, and appeal to individual end users, as well as large employers and businesses.
Several use cases are described in, or contemplated by, this application wherein users customize their preferred uses of mobile workstation 100, capable of being integrated with modular wireless communications, such as WiFi connection(s) 7 and/or cellular data connection(s) 8, and battery power devices for enabling a fully integrated workstation 100 unit, or used independently of workstation 100, but when connected to workstation 100 provides power and functionality to workstation 100 for use by external electronic devices (such as for example laptop computers, cellular telephones, tablets, smartwatches or other electronic devices or peripherals).
In one example of the utility and practical advantages represented in the various embodiments, workstation 100 provides a portable, all-in-one office system that affords a convenient, portable, modular, and productive office experience for use in an indoor and outdoor (or other remote and non-traditional) location, and then workstation 100 collapses into a compact form for ease of transport.
One or more of the foregoing embodiments may be adapted to or with a customized or non-customized backpack, carrying case or bag.
Furthermore, one or more of the embodiments of workstation 100 provided herein may be utilized in the use case of a mobile workstation sharing network, which may be focused in a particular venue or location, such as Central Park, or deployed within a city or other larger geographic region, and wherein an iteration of the present invention can be rented from a bank of containers or lockers and employed by the user according to such user's requirements, and then returned after use to its locker of origin or another bank of lockers or containers located elsewhere for charging and other potential restorative treatments, such as redistribution, recycling, disinfecting, or other post use processing or handling.
In another embodiment, certain embodiments of workstation 100 may comprise a mobile workstation which provides an integrated wireless information technology enabled and ergonomic seating accommodation system, for users in remote, outdoor, or other locations and settings, such as construction sites, work zones, and on-the-ground research or military locations.
Turning now to
Certain embodiments of workstation 100 comprise a cost-effective device that comprises a multipurpose working surface (such as, for example, work surfaces 104 and 105 depicted in
In one embodiment, DOCK 100 may comprise a single enclosure packaged unit with a footprint of about 16×12×1 inch (for electronics). DOCK 100 may be powered via a laptop-like power connector(s) 1218 and/or 1220 from a commercial AC/DC converter that outputs DC power (for a lap-top). Therefore, in certain embodiments DOCK 100 may not draw more than about 5.13 A of current through power supply 1214. DOCK 100 may also have WiFi (802.11ac-IPV6) 1204 and cellular (IPV6) 1208 connection to Internet 1212.
Certain embodiments of workstation 100 may comprise one or more of the following features:
One embodiment of Workstation 100 comprises DOCK unit 1209 and may continuously monitor user input via network interface 1204, and/or or via the Bluetooth interface 1224. Installation and connection to network 1212 may be via WiFi 1204, and/or cellular 1208. DOCK 100 may be about 16×12×2 inches to afford easy transportation and placement in the home or office while taking up the least amount of space.
In one embodiment, the operational requirements of Workstation 100 may comprise one or more of the following features:
Interfaces:
Inputs:
Human Interface: In certain embodiments of workstation 100, the human interface of the DOCK device 1209 may be provided via a Bluetooth connected smart phone app 1210.
DC Power: Power may be applied via a laptop-like connector 1224.
Wireless: WiFi 802.11ac-PV6 1204 and cellular—IPV6 1208.
Outputs:
Human Interface: In certain embodiments of workstation 100, the human interface of the DOCK 1209 device may be provided via a Bluetooth connected smart phone app 1210.
DC Power: Power may be applied via a laptop-like connector 1224.
Wireless: WiFi 802.11ac-PV6 1204 and cellular—IPV6 1208.
Wireless Charging: Qi Wireless Charging Standard 1226.
Embedded System Features:
Charging the Battery:
Workstation 100 may have the ability to charge an on-board Li+ or LiPo battery 1228 with a capacity of up to about 26800 mAh.
USB Dongle:
Workstation 100 may provide USB dongle functionality from USB-C port 1234 as device to USB-A port 1232 as host.
Wireless Charging:
Workstation 100 may provide wireless charging functionality employing the Qi wireless charging standard 1226.
Bluetooth Communications:
Workstation 100 may provide Bluetooth communications 1224 to communicate with Phone App 1210 using a Transparent UART Profile.
WiFi Communications:
Workstation 100 may provide WiFi router 1222 functionality.
Upgrading:
Firmware (such as, for example, Firmware 1400 shown in
Power Consumption:
Main power to the DOCK 100 may be provided by power supply brick 1236 like those used for laptops. DOCK 100 may supply power to a removable Cellular Hotspot.
Certain embodiments of Workstation 100 may meet necessary and/or desirable FCC and environmental regulatory requirements.
In
In
Turning now to
System software 1400 may be written in industry standard language or “C” code. Any special libraries or software functions not provided with standard compilers may be identified and implemented into system software 1400.
In certain embodiments of workstation 100, system software 1400 may be organized in three layers as shown in
Turning now to
The disclosure herein is directed to the variations and modifications of the elements and methods of the invention disclosed and that will be apparent to those skilled in the art in light of the disclosure herein. Thus, it is intended that the present invention covers the modifications and variations of this invention, provided those modifications and variations come within the scope of the appended claims and the equivalents thereof.
This application claims priority and benefit from U.S. Provisional Patent Application Ser. No. 63/110,764, filed Nov. 6, 2020, the contents of each of which are incorporated by reference herein in their entireties.
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