Portable electronic devices are becoming more and more prevalent in societies around the world. While the larger portable electronic devices are portable from location to location, they often still require a flat surface, such as a table, and nearby power sources for any type of extended usage. Thus, while the electronic devices themselves are portable, often times the user is still tied to particular types of locations such as a desk near a wall outlet.
The detailed description is described with reference to the accompanying figures. In the figures, the left-most digit(s) of a reference number identifies the figure in which the reference number first appears. The use of the same reference numbers in different figures indicates similar or identical components or features.
This disclosure includes an apparatus for a portable, convertible, and modular lap desk. In some cases, the lap desk may be configured with extendible legs to provide a plurality of adjustable height positions. For instance, the legs may include a closed position, a partially extended position, and a fully extended position for use in different situations. For example, the closed position may be used when the user intends to rest the desk on their lap, the partially extended position may be used when the user is sitting in bed and desires to support the desk on the bed rather than on the user's lap. In this example, the bed may provide for a more stable surface such as when the user is drawing, writing, or using a stylus. The user may also use the fully extended position when the lap desk is placed upon a lower table, such as a coffee table, and the user is working from the living room sofa.
In the closed position, the lap desk may be configured to include a netting or fabric portion positioned under the bottom surface of the lap desk. The netting allows the desk to sit upon the lap of the user in a more comfortable configuration. For example, the netting may take the weight of the desk along the length of the user's lap spreading the pressure points and allowing some give. The reduction in pressure points allows the user to rest the desk upon their lap for longer period than a conventional lap desk. In some implementations, the netting may be retractable. For example, the netting may be located on the left-hand side of the desk and pulled by the user over the length of the bottom surface of the desk and releasably coupled to the right-hand side of the desk when in use. The user may then uncouple the netting form the right-hand side and retract the netting into the left-hand side of the table. Thus, unlike conventional lap desks, the netting may be stowed when not in use to allow additional leg room for the user when the desk is in the partially extended position or the fully extended position. In addition to adding leg room for the user when not in use, the retractable netting may allow for a narrower less bulky design of the desk and may allow for shorter legs, compared to conventional lap desks.
In some implementations, the lap desk may also be modular. For example, the lap desk may include interchangeable components that may electrically and/or communicatively couple to the desk along the exterior surface. The interchangeable components may include back-up battery or power supplies, speakers, lights (such as a desk lamp), stylus pad, mouse, joystick, keyboard, display components, touch enabled components, other types of user interfaces, communication interfaces (e.g., sim card interfaces, universal serial bus (USB) interfaces, DVD or CD readers, etc.), among others. The interchangeable components may also include low or no power components, such as a cup holder, pen/pencil holders, pencil sharpeners, desk extenders, different top surfaces (e.g., stick surface, non-stick surface, leather, wood, metallic, plastic or polymer, patterned, colored, etc.), upright cell phone holder/stand, upright tablet holder/stand, among others. In some cases, the desk may also be configured to electrically and/or communicatively couple to the user's portable electronic device, such that the portable electronic device may access, control, or receive input signals from the interchangeable components.
By allowing for interchangeable components the lap desk may be customized for the user's needs on a situation by situation basis. For example, if the user is at a location away from a power source (such as a coffee shop), the user may couple a battery life extender or back-up battery to the desk and the user may utilize the back-up battery to power the user's portable electronic devices. In another example, if the user is at a location that has poor lighting, the user may couple a lamp or other light source to illuminate the surface of the lap desk as well as any material or electronic devise placed thereon.
In some case, the lap desk may be approximately 25.6 inches wide, approximately 16.0 inches long, and between approximately 1.2 and 2.9 inches thick including the folded legs. In some instances, the desk portion excluding the folded legs may be between approximately 1.2 and 1.5 inches thick. In various implementations, the lap desk may be between approximately 20.0 and 30.0 inches wide, approximately 10.0 and 20.0 inches high, and approximately 0.5 to 2 inches thick. In some specific example, in the closed position the height from the top surface of the lap desk to the bottom of the legs may be approximately 2.6 inches or between approximately 2.0 and 3.0 inches. In the partially extended position the height from the top surface of the lap desk to the bottom of the legs may be approximately 7.4 inches or between approximately 6.0 and 9.0 inches. In the fully extended position the height from the top surface of the lap desk to the bottom of the legs may be approximately 11.3 inches or between approximately 9.0 and 13.0 inches.
The lap desk 100 may include a desk surface 102 as well as two side pad surfaces, such as right pad surface 104 and left pad surface 106. In some cases, the desk surface 102 may be configured for writing, such as pen and paper, or for use with an electronic device, such as a notebook computer or tablet. The right and left pad surfaces 104 and 106 may be configured for use with an input device, such as a mouse or joystick. In some specific examples, the right and left pad surfaces 104 and 106 may be touch enabled pads that may be used with, for instance, a stylus to provide input signals to the notebook computer or tablet on the desk surface 102.
In some implementations, the right pad surface 104 and/or the left pad surface 106 may be removeable or interchangeable. For example, a stylus pad may be coupled to the lap desk 100 at the location of the right pad surface 104 and a mouse pad may be coupled to the lap desk 100 at the location of the left pad surface 106. In some cases, the right and left pad surface 104 and 106 may be interchangeable with various surfaces, such as wood, polymer or plastics, leather, felt, silicone, etc. The right and left pad surface 104 and 106 may include interchange components, such as a mouse pad, joystick, keyboard, touch input device, displays, touch enabled displays, speakers, memory devices, electronic communication interfaces, portable power sources (e.g., back-up batteries), etc. Similarly, the desk surface 102 may also be interchangeable. For instance, the desk surface 102 may be interchanged to include components, such as various surfaces (e.g., wood, polymer or plastics, leather, felt, silicone), displays, touch enabled displays, keyboards, various docking stations connections, power sources, memory devices, game board surfaces (e.g., chess or backgammon boards), etc.
In the current example, the lap desk 100 also includes a stylus or pen slots 108 and 110. The pen slots 108 and 110 may be used to store the stylus or pen when not in use. The illustrated lap desk 100 also includes a tray 112 and a cup holder 114. In some implementations, the try 112 and cup holder 114 may be interchangeable with other components. For example, the try 112 and/or cup holder 114 may be replaced with additional trays or cup holders having various shapes and sizes, displays, speakers, memory devices, electronic communication interfaces, portable power sources (e.g., back-up batteries), light sources (e.g., lamps), photo frames, etc.
In some cases, the desk surface 102 is also interchangeable. For example, the desk surface 102 may be formed from different materials such as wood, plastic, rubbers, or other polymers. In some cases, the desk surface 102 may be configured to include a desired graphic or company logo, lighted or unlighted, or even used as a display component. For instance, the desk surface 102 may form a display while the right or left right and left pad surface 104 and 106 may be a touch input device, such as keypad or touch enabled display. In one example, the desk surface 102 may be configured as a heat sink, venting, fans, or other include a cooling elements to reduce the temperature of the electronic device placed on the desk 100.
In some implementations, the lap desk 100 may also include a front bumper 116 to provide additional comfort to the user. For example, the front bumper 116 may be curved to prevent the development of a pressure point on the user's when the lap desk 100 is in the closed position. In some cases, the bumper 116 may be padded and/or formed from various materials, such as various polymers, various plastics, rubbers, cloth materials, etc.
The legs 206 and 208 may then be further extended by rotating an inner portion 508 of the legs 206 and 208 outwards from an outer portion 506 of the legs 206 and 208 as shown by arrows 504(A) and 504(B). In some examples, the legs 206 and 208 may include a slide release mechanism, generally indicated by 510. For instance, one the legs are in the partially extended position, the user may slide the slide release mechanism 510 upwards as indicated by arrow 512 to release pressure caused by a spring within the inner portion 508 of the leg 206, to cause the inner portion 508 of the leg to release from the outer portion 506. The inner portion 508 may then be extended or rotated by 180° as shown by arrow 504. Once fully extended, as shown by desk 100(C), the desk 100(C) is in the fully extended position. In some cases, the legs 206 and 208 may lock in each of the closed position, partially extended position, and fully extended position.
In the illustrated example, the inner portion 508 of each of the legs 206 and 208 includes a first foot 514 on a first end of the inner portion 508 for use when the table 100 is in the partially extended position 100(B) and a second foot 516 on a second end of the inner portion 508 opposite the first end. The second foot 516 may be used when the table 100 is in the fully extended position 100(C). In general, the spring loaded foot 518, the first foot 514, and the second foot 516 may be formed from rubber, various polymers, or plastic.
In the current example, the legs 206 and 208 are shown as running from the front 520 (e.g., the user facing portion of the desk) of the desk 100 to the back of the desk 522. However, it should be understood that the legs 206 and 208 may be arranged from side to side. Additionally, the discussion above, provides one arrange from the legs 206 and 208 to deploy from the closed position 100(A) to the fully extended position 100(C), however, one skilled in the art would understand that other arrangements may be used.
In the current example, the desk 100(A) and 100(B) illustrates the left side surface 106(A) as coupled to the desk 102, while the desk 100(C) shows the left side surface as removed and in its place an opening 106(B) that may be used to couple other components as discussed above. For instance, a user may electrically and/or mechanically couple components, such as a mouse pad, joystick, keyboard, touch input device, displays, touch enabled displays, speakers, memory devices, electronic communication interfaces, portable power sources (e.g., back-up batteries), etc. to the desk 100 at the location 106(B).
The desk 100 may also include a slot 704 for holding papers in an upright position. In some cases, the slot 704 may include an extendable member that allows the paper, book, tablet, or other items to rest in a substantially upright position for viewing by a user of the lap desk 100. In some cases, the extendable member may pull up from within the slot 704 to ensure a compact desk 100 when the desk 100 is in transit.
As discussed above, in some implementations, the lap desk 100 includes a front bumper 116. As currently illustrated, the bumper 116 that is curved with from a midpoint, generally indicated by 706, outward towards both ends, generally indicated by 708(A) and 708(B). The curve allows for a comfortable fit when placed against or in proximity to a torso of a user.
In some cases, the netting 802 may be formed from various materials including nylon, polyester, spandex, various yarns (such as cotton yarn), other synthetic or plastic materials, or other natural materials. The netting 802 may be knotless or knotted. In some instances, the netting 802 may be a solid piece of fabric while in other cases the netting 802 may include gaps of uniform or nonuniform sizes.
In this implementation, the netting 802 may include various types of clips or attachment means, such as the clips 804. In this implementation, the netting 802 may be moved into position under the desk 100 and the clips 804 may be connected to mated clips (not shown) on the bottom of the desk 100.
In other implementations, the netting 802 may be retractable into the desk 100. For example, the netting 802 may be located on the left-hand side of the desk 100 and pulled by the user over the length of the bottom surface of the desk 100 and releasably coupled to the right-hand side of the desk 100 when in use. The user may then uncouple the netting form the right-hand side and retract the netting into the left-hand side of the table. Thus, unlike conventional lap desks, the netting 802 may be stowed within the desk 100 when not in use.
In the current example, the speaker 1202 is tilted up but it should be understood that in some cases, the speaker 1202 may be tilted down to be flush with the top surface 1404 of the desk 100 for stowing during transport.
Thus, in the illustrated example, the desk 100 includes the right and left back slots 1402 as well as a right and left side slot, generally indicated by 1502. The desk 100 may also include a removable or interchangeable desk surface 102. In this manner, the user may select the functionality, cosmetic appearance, and materials for each component that maybe coupled to the desk 100. In some cases, the desk may include two or more interchangeable slots, three or more interchangeable slots, five interchangeable slots, or more than five interchangeable slots.
In some instances, the storage and cable routing compartments 1702 may be configured to provide storage for particular components. For example, the storage and cable routing compartments 1702(B) may be configured to house one or more power sources or batteries for recharging electrical devices placed on the desk surface 1604. Additionally, in the illustrated example, slots, generally indicated by 1706, may be included to keep items such as stylus and pens from rolling or otherwise moving while the desk 100 is being transported. In the current example, the stylus or pen slots 1706 may also include finger access ports 1708 to allow the user to more easily remove the stylus, pen, USB drive, memory stick, or pencil from the slots 1706.
The desk 100 may also include cable routing passages 1710 along walls 1712 of the desk 100 that separate the various compartments 1702 and slots 1706. The passages 1710 the user may couple various components together out of sight and without mess. For instance, the user may place a memory drive in the compartment 1702(A), a backup battery in compartment 1702(B), and a tablet in compartment 1702(D). The user may then electrically couple the memory drive, the backup battery, and the tablet together using the passages 1710.
In the illustrated example, the desk 100 also includes exit passages 1714 for routing the cable out of the interior compartments 1702 to couple to a power source (such as a wall plug) or to another device (e.g., a personal computer) placed on the surface of the desk 100. In this manner, the user may electrically couple the memory device, backup battery, tablet, and personal computer together without removing the memory device, backup battery, or tablet from the interior compartments 1702. Thus, when the user moves locations, the user may unplug the personal computer, move the desk 100, and then recouple the personal computer without the hassle of setting up the other devices (e.g., the memory device, backup battery, and tablet).
In some cases, the lap desk 100 may include a removable insert (not shown) that may be configured to be located within the interior compartments 1702. The insert may be sized and/or otherwise configured to receive a power source and secure a power source that may be coupled to the various devices and components of the desk 100. In some instances, the insert may be made of foam or polyurethane. In other instances, the insert may include cooling features or heat sinks to reduce the operating temperature of the power source.
The image components 1802 for capturing visual data, such as images or frames, from a physical environment (e.g., the venue, the container, the merchandise, etc.). For example, the image components 1802 may be positioned to capture multiple images of the physical environment or an area proximate to the user and the lap desk 100.
Thee sensors 1804 to collect access data as well as other data, such as impact data, motion data, weight data, pressure data, etc. associated with the desk 100. For instance, the sensors 1804 may include one or more accelerometers, one or more gyroscopes, one or more magnetometers, one or more presence sensors, and/or one or more pressure sensors, as well as other sensors.
The microphones 1806 for capturing audio data from the physical environment. The microphones 1806 may be one or more microphones or an array of microphones associated or positioned around the desk 100 to capture sound in the physical environment as well as directionally of the sound.
The speakers 1808 may be configured to output audio data as sound. For examples, the speakers 1808 may include one or more speakers such as an array of speakers. In some cases, the speakers 1808 may be arranges to reproduce directionality of sound, such as when a user is consuming video content.
The power supply 1810, such as a battery, may be configured to provide power to the desk 100 as well as other nearby or electrically coupled devices. The power supply 1810 may also be configured to recharge from an external power source.
The communication interfaces 1812 configured to facilitate communication between one or more networks, one or more cloud-based system and/or one or more local devices (such as an associated and/or paired electronic device of the user). The communication interfaces 1812 may also facilitate communication between one or more wireless access points, a master device, and/or one or more other computing devices as part of an ad-hoc or home network system. The communication interfaces 1812 may support both wired and wireless connection to various networks, such as cellular networks, radio, WiFi networks, short-range or near-field networks (e.g., Bluetooth®), infrared signals, local area networks, wide area networks, the Internet®, and so forth.
The input devices 1814 may be a mechanical input device (e.g., keyboard, joystick, etc.) or touch enabled component or sensor (e.g., capacitive touch sensor or resistive touch sensor, etc.). The input devices 1814 may allow the user to provide inputs to the desk 100 or a device coupled to or in wireless communication with the desk 100.
The output devices 1816 may be one or more display for providing visual feedback to the user. The output device 1816 may also include one or more tactile outputs, such as haptic feedback units for providing a physical feedback to the user, such as vibrating to provide a low power warning signal. In some cases, the input devices 1814 and output devices 1816 may be combined into a single device,
The processors 1818, such as at least one or more access components, control logic circuits, central processing units, or processors, as well as one or more computer-readable media 1820 to perform the function. Additionally, each of the processors 1818 may itself comprise one or more processors or processing cores.
Depending on the configuration, the computer-readable media 1820 may be an example of tangible non-transitory computer storage media and may include volatile and nonvolatile memory and/or removable and non-removable media implemented in any type of technology for storage of information such as computer-readable instructions or modules, data structures, program modules or other data. Such computer-readable media may include, but is not limited to, RAM, ROM, EEPROM, flash memory or other computer-readable media technology, CD-ROM, digital versatile disks (DVD) or other optical storage, magnetic cassettes, magnetic tape, solid state storage, magnetic disk storage, RAID storage systems, storage arrays, network attached storage, storage area networks, cloud storage, or any other medium that can be used to store information and which can be accessed by the processors 1818.
Several modules such as instruction, data stores, and so forth may be stored within the computer-readable media 1820 and configured to execute on the processors 1818. For example, as illustrated, the computer-readable media 1820 store component detection instructions 1822 as well as other instructions 1824. The computer-readable media 1820 may also store data, such as user data 1822 (e.g., user settings and user preferences).
The component detection instructions 1822 may be configured to sense when a new component has been coupled to the desk 100 and to identify a type associated with the component. For instance, the component detection instructions 1822 may identify when a speaker is coupled to one of the back slots or when a touch screen or input device is coupled to a side slot. The component detection instructions 1822 may also cause stored settings to be applied to the detected component. For example, a sensitivity setting may be applied to the touch screen when detected.
Although the subject matter has been described in language specific to structural features, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features described. Rather, the specific features are disclosed as illustrative forms of implementing the claims.
This application claims priority to U.S. Provisional Application No. 62/750,973 filed on Oct. 26, 2018 and entitled “Portable, Convertible, and Modular Lap Desk,” which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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62750973 | Oct 2018 | US |