CROSS REFERENCE TO RELATED APPLICATIONS

[001] This application claims the benefit of and priority to U.S. Provisional Patent Application No. 63/024,097 filed on May 13, 2020 and U.S. Provisional Patent Application No. 63/187,814 filed on May 12, 2021, each of which are incorporated by reference herein in their entirety.

FIELD OF THE INVENTION

[002] The present invention relates generally to a technological hub system. More particularly, the present invention relates to a hub with multi-functional capabilities for power, data and video transmission, with a portable monitor, video-camera, microphone, speakers, memory, power bank, wireless and wired connectivity, USB ports and mechanical slots to connect other apparatuses and characters in a unique and small piece of technology.

BACKGROUND

[003] There are technological hubs which have been used for years to connect different apparatuses. There is a need of a new hub system that provide the users with a portable monitor and other important peripherals in a compact and plug-and-play design which is easy to use especially when traveling.

SUMMARY OF THE INVENTION

[004] The present invention provides the user with a new type of portable hub with connectivity and capabilities for enhanced performance and entertainment in any place and especially when traveling. With the present invention, the hub has extended functionality within the apparatus as a unitary system or with attachments. This invention exchanges data, wired or wireless, with the computer and different apparatuses and accessories such as a touch-screen monitor, sensors, characters/figurines, among others, and it can be used in different applications such as personal use, entertainment, healthcare, office, home and for marketing applications.

[005] The portable hub and peripheral system of this invention includes different features such as monitor screen, video-camera, microphone, speakers, memory, power bank, wireless and wired connectivity, voice activation, USB ports and mechanical slots to connect other apparatuses and characters, among others.

[006] The internal structure of the hub is designed to house electronic boards and connectors of the latest technology that manage, interface and/or detect the signals obtained from the monitor, apparatuses and/or characters installed in the hub, and receive and/or send signals to an external device, such as a computer, smartphone, tablet. [007] Some of the peripherals and/or uses of the portable hub system would be the following: Portable Secondary Computer Screen: to extend or duplicate the computer screen in other display and enhance performance when traveling or working at home; Video: to use a mobile video camera installed in the hub; Camera: to take photos easily and in any direction without moving the computer; Built-in Features: to use the Microphone, Speaker and Memory Flash installed in the portable hub, all options with voice activation option; Connect External Peripherals: to connect other apparatuses in the USB Ports such as external memory, Lantern, Pointer, Fingerprint, chargers; Charger, Video and Data Transfer with Smart Phones and Tablets: to charge other apparatuses and transfer video and data; Mechanical Sound Amplifier: to increase the sound emitted by the smartphones, tablets and other apparatuses when they are installed in the portable hub; Healthcare Applications: to install sensors and be use by professionals in healthcare; Entertainment Applications: to install characters of heroes or other figures for entertainment and download and play their original voices. Voice activation is an option to use this invention; Advertising: to advertise company names, customized names, or the like.

[008] The present invention is a portable hub system with enhanced functionality, including an internal power source and a set of electronics for internet and electronic communication with a computer and other apparatuses. The usage of this invention is explained later herein.

[009] The present invention is a portable monitor and peripherals hub system which comprises a unitary hub device with an internal power source with the unitary device housing a set of electronics for wireless and wired communications with a computer and other apparatuses. The hub has input buttons to activate internal components and software to transfer power, data and video with a computer, portable monitor and other apparatuses simultaneously. The hub includes a telescopic base to install monitors and other apparatuses for power charge, data and video communications with a computer. The hub has a fine-tune mechanical adjustment for a USB port and at least one portable monitor can be connected in the hub and act a secondary screen of a computer. The hub includes a mechanical connection on a top surface, and the mechanical connection is capable of securing a functional object and electronically transferring power and data between the object and the hub. With the present invention, the hub has a built- in video-camera, speaker, microphone, flash memory all within its built-in compact design for easy transport. The hub includes software and hardware to be used as a simple plug-and-play system.

[010] In an embodiment, the hub device comprises a unitary body having a top wall, a bottom wall, a front wall, a rear wall, and a pair of side walls defining a cavity within the unitary body, with the unitary body having an internal power source and a set of electronics for wireless and wired communication with external devices. The front wall has an opening for receiving a telescopic base piece into the cavity of the unitary body, with the base piece having a bottom surface and a locking ridge extending from the bottom surface. The base piece has a usb port extending from the base piece and adjustably positioned by a sliding arm. The bottom wall of the unitary body having an interior surface with a locking slot which receives the locking ridge of the base piece. The front wall includes at least one slot formed in the front wall for receiving an external device. The hub includes a plurality of parallel resonance bars extending from an interior surface of the top wall of the unitary body into the cavity, with the parallel resonance bars defining acoustic pathways. The top wall has an exterior surface with a mechanical connection, with the mechanical connection capable of securing a functional object and electronically transferring power and data between the functional object and the unitary body.

[Oil] In an embodiment, the hub device of the present invention includes the sliding arm is adjusted by a position switch located on the base piece. The hub device includes an embodiment wherein at least one of the side walls has a sound output. The hub device of the present invention includes at least one input located on the unitary body for receiving data communications. The hub device further includes at least one input located on the unitary body for receiving video. The hub device further includes at least one input located on the unitary body for receiving electrical communication.

[012] In an embodiment, the hub device further includes at least one output located on the unitary body for sending data communications. The hub device includes at least one output located on the unitary body for sending video and can also include at least one output located on the unitary body for sending electrical communication.

BRIEF DESCRIPTION OF DRAWINGS

[013] FIGS. 1A, IB, and 1C are illustrations of the present invention in front, side and top views, respectively.

[014] FIGS. 2A, 2B, and 2C are an illustration of the present invention in rear, side and bottom side views, respectively.

[015] FIG. 3 is an illustration of the isometric front view of the present invention.

[016] FIG. 4 is an illustration of the isometric rear view of the present invention.

[017] FIG. 5 is an illustration of the isometric exploded view of the present invention describing the main components. [018] FIGS. 6A, 6B, and 6C are illustrations of the top, front and left views of the hub, respectively, of the present invention.

[019] FIGS.7A, 7B, and 7C are an illustration of the rear, right and bottom views, respectively, of the hub of the present invention. [020] FIG. 8 is an illustration of the USB Type-C port of the present invention with hub control buttons.

[021] FIG. 9 is an illustration of the rear isometric views of the hub of the present invention.

[022] FIG. 10 is an illustration of the telescopic base of the hub of the present invention. [023] FIGS. 11 A, 1 IB, and 11C are illustrations of the hub’s locking slots of the present invention.

[024] FIG.12 is an illustration of the telescopic USB-C fine-tune adjustment button located in the hub of the present invention.

[025] FIGS. 13A, 13B, and 13C are an illustration of the screen mechanical guides of the present invention.

[026] FIG. 14 is an illustration of the screen set-up buttons of the present invention.

[027] FIG. 15 is an illustration of the present invention working as an extended screen of a laptop computer.

[028] FIG. 16 is an illustration of the present invention working as a smartphone charger with data transfer.

[029] FIG. 17 is an illustration of the present invention working as a tablet charger with data transfer.

[030] FIGS. 18A and 18B are an illustration of the top and side views showing the sounds input and output ports of the hub of the present invention. [031] FIGS. 19A and 19B are an illustration of the internal resonance bars and sound output port of the hub of the present invention in section view.

[032] FIGS. 20A and 20B are an illustration of the batteries compartment of the present invention.

[033] FIG. 21 is an illustration of the different options to provide energy to the hub of the present invention.

[034] FIGS. 22A and 22B are an illustration of the screen assembly of the hub, with exploded views.

[035] FIG. 23 is an illustration of the electronic block diagram of the present invention. [036] FIG. 24 is an illustration of the connecting sensors options with the present invention.

PET ATT, ED DESCRIPTION OF THE DRAWINGS

[037] FIGS. 1A, IB and 1C show the portable monitor and peripheral hub system of the present invention in different views of top, front and right-side views respectively, including the monitor 100 and the hub 110. The hub 110 has the top port (330 of FIG. 6A) in the upper back section (335 of FIG. 6A) to mechanically connect interchangeable and removable 120 characters at the user's discretion. The monitor 100, includes the set-up buttons 102 and a manipulation handle 104. The hub and the monitor include many functionalities for enhancing performance that will be explained later herein.

[038] The hub device comprises a unitary body 115 having a top wall 112, a bottom wall 114, a front wall 116, a rear wall 118, and a pair of side walls 111, 113 defining a cavity (801 in FIG. 20A and 20B) within the unitary body 115, with the unitary body having an internal power source (790 in FIG 20A and 20B) and a set of electronics (810 in FIG 20A and 20B) for wireless and wired communication with external devices. The front wall 116 has an opening 119 for receiving a telescopic base piece 103 into the cavity 801 of the unitary body 115, with the telescopic base piece 103 having a bottom surface 101 and locking ridge (550 in FIG 11B) extending from the bottom surface 101. The telescopic base piece 103 has a USB port (344 of FIG. 6A) extending from the telescopic base piece 103 and adjustably positioned by a sliding arm 590 in FIG. 12. The bottom wall 114 of the unitary body 115 has an interior surface (551 in FIG 11B) with a locking slot (560 in FIG 11B) which receives the locking ridge (550 in FIG 11B) of the telescopic base piece 103. The front wall 116 includes at least one slot 121 formed in the front wall 123 for receiving an external device. The hub 110 includes a plurality of parallel resonance bars (760 FIGs.l9A and 19B) extending from an interior surface (776 FIG.19A) of the top wall 112 of the unitary body 115 into the cavity 801, with the parallel resonance bars (760 FIGs.l9A and 19B) defining acoustic pathways. The top wall 112 has an exterior surface 335 with a mechanical connection 330, capable of securing a functional object 120 and electronically transferring power and data between the functional object 120 and the unitary body 115. The hub device 110 of the present invention includes a telescopic sliding arm (588 in FIG. 12) which is adjusted by a position switch (590 in FIG. 12) located on the telescopic base piece 103.

[039] FIGS 2A, 2B and 2C shows the rear, side and bottom view of this invention in which the monitor 130 installed in the hub 172, at an inclination of 65° 155 from the horizontal base for adjusting itself to the user vision (FIG. 2B). Similarly, it can be seen how, but not limited to, the removable characters 140 are installed in the upper rear part of the hub 172. From the rear view, the interchangeable set of plastic cards 150 are installed in landscaping array in the slot 152, which can be used for the purposes of advertising brands, names or other applications. Additionally, the manipulation handle 132 and the set-up buttons 134 of the monitor 130 are shown in this view. In the bottom view (FIG. 2C), pads 160 are shown to give fixation and stability to the hub 172 when it is on a desk, and the telescopic base 170 on which monitor 130 is installed is also seen.

[040] FIG 3 shows an isometric front view of the hub 200 and the connected monitor 180. The monitor can be touch-screen, of different sizes and includes a rechargeable battery and a set of electronics for communication with the hub 200. Monitor 180 has its display configuration control buttons 190 centered at the top so that, when pressed by the user, the force exerted vertically downward is sustained by the telescopic base 201 and the monitor 180 remains stable over the hub 200. The size of the hub gives enough stability to a monitor up to 16 inches. This figure also shows frontal control buttons 204 section and the microphone 202 of the hub 200.

[041] FIG 4 shows a rear isometric view of this invention, the character 230, the plastic cards 240 and the slot for install the cards 212, all of them installed in the hub 210. User can install approximately 5 plastic customized printed cards in both sides with advertising or any other type of written or visual information. Plastic cards are removed and installed horizontally from the slot port 212. This drawing shows the hub USB-C input port 250 for input power, data and video signals, a USB-A port 260 and a side sound output 270. The monitor 220 includes the set-up buttons 224 in the top area 226 and the handle 222 in the back side 228 for grabbing and manipulate it when the monitor 220 is installed and disconnected from the hub 210.

[042] FIG 5. This illustration shows a rear exploded view of the main components of this invention. It shows the monitor 280 with the set-up buttons 284 in the top area, the rear handle 282 that allows the monitor to grab it easily for connect and disconnect it from the hub 310 in a 65 degrees angle from the horizontal, the monitor assembly guides 288 located in the back side 304 of the monitor 280 and the hub assembly grooves 286 located in the front side 306 of the hub 310 which allows the two main components, the hub 310 and the monitor 280, to mechanically attach in a firmly and stable way for manipulation. This figure also shows the interchangeable character 290 that is connected in the top port 292 of the hub 310, the interchangeable cards 300 and the slot compartment 302 for the plastic cards, the rear video camera 320 installed at 65° from the horizontal in the back side 314 of the hub 310 in order to make videos and photos in affordable angles when it is seated over a desk, but also at any angle when the hub 310 is taken with the hand and it is wired or wireless connected with a computer or other apparatus. This figure also shows the telescopic base 312 in an extended position to receive the installation of the monitor 280.

[043] FIGS 6A, 6B, and 6C show general views of the hub 340, including the top view (FIG. 6A) where there is located the top port 330 in the upper back section 335 to install characters or other IoT apparatuses such as healthcare sensors or others. The top port 330 would be of different designs, including but not limited to, a simple mechanical connector to receive the installation of characters or frames, or a type USB-C or type USB- A connectors to allow transmit power, data or video to any apparatuses installed there, such as healthcare sensor or others. This figure also shows the telescopic USB-C port 344 located in the telescopic base 342 to connect different apparatuses such as a monitor, smartphones, tablets, or the like. The front view (FIG. 6B) shows the hub assembly grooves 365, the four (4) control buttons 350 of the hub 340 and the audio input 360 for the microphone. More control buttons would be added depending of the apparatus to control. In the left-side view (FIG. 6C) the left audio output 370 of the speaker and the telescopic base 342 in an extended position, the USB- A port 354, and the slot for the interchangeable cards installation 356 can be seen. The telescopic base 342 slides internally into the hub 340 over two rails 362 located in the inside walls 364 of the hub 340, and as explained later, a locking slot system (see 550 in FIGs.11 A to 11C), allows the telescopic base 342 to extend and retract in different adjustable positions, depending of the size of the device to install over the telescopic base 342.

[044] FIGS. 7A, 7B, and 7C show different views of the hub of this invention. The right- side view (FIG. 7B) of the hub 382 shows the right audio output 380 of the built-in speaker, a USB-A port 390 and the telescopic base 384 in extended position and the telescopic USB-C port 386. In the rear view (FIG. 7A) there are the video-camera 400, with its activation LED indicator 408, the hub USB-C input port 410 and the plastic cards compartment 402. The underneath side 404 (Figure 7C) shows the four grip pads 420 that give stability to the hub 382 when it is on a surface such as a desk and the release button 422 for extend and retract the telescopic base 384 into the hub 382. By pushing the release button 422, the locking system described in FIGs.11 A to llC, unlocks and permit to extend or retract the telescopic base 384 to be adjusted to the desired position to fit the thickness of the device to install in the telescopic base 384 of this invention. The hub's ventilation slots 426 are also shown.

[045] FIG 8. In this figure there is an isometric front view of the hub 432 with the telescopic base 434 in an extended position. The Detail A enlarges the front section of the hub 432 showing the telescopic USB-C port 430 where the monitor or other apparatuses can be installed, and the hub’s control buttons, including, but not limited to, an activation button 440 for taking photos, an on/off microphone button 450, an on/off speaker button 460, the audio input 470 mesh for the microphone, and an on/off video-camera button 480. These features are activated in the hub by means of an embedded software designed so that this invention works as a plug-and-play system dully coordinated with the computer software.

[046] FIG 9. This figure is an isometric rear view of the hub 502 and shows the telescopic base 504 in an extended position. The Detail B shows how the plastic cards 510 are installed horizontally in the cards slot 512. Also, it shows the input USB-C port 490 for power, video and data, and a USB-A port 500 for data and power transfer with other peripherals.

[047] FIG 10. This view shows how the telescopic base 520 works. In the folded and closed position 524, the telescopic base 520 is folded into the hub 522, and the hub looks like a small, compact and lightweight unit. By manually pulling the telescopic base 520 out, which is done when the release button (See 422 in FIG 7C) of the telescopic base is pressed up, shown in FIG. 11A to llC, the telescopic base is moved to any of the seven (7) intermediate adjustable positions 530. In any of these intermediate positions a user can install the monitor originally designed to work with the hub 522 of this invention. In case the user wants to install a protective plastic cover to the monitor, which is of normal use by users to protect this type of portable screens, then the telescopic base 520 can be pulled out again to a bigger intermediate position 540 which allows to install a monitor or other apparatuses of a greater thickness. This telescopic base 520 design will allow the user to install many sizes of devices such as smartphones, tablets and other devices for power supply, data transfer or video, regardless of whether they are bigger, or they have plastic covers or not. The telescopic base 520 slides in and out over the internal hub’s rails 525 for about 0.75 of inch. All cabling coming from the telescopic base are connected directly to the main PCB of this invention.

[048] FIGS. 11 A, 11B, and 11C show the locking ridge 550 of the telescopic base 555.

In detail C (FIG. 11 A) it is observed when the telescopic base 555 is folded inside the hub 552, the locking ridge 550 holds the telescopic base in said position. By manually pulling the telescopic base out, Detail D (FIG. 11B), which is done when the release button 554 of the telescopic base is pressed up and horizontally out, the telescopic base can be moved to any of the intermediate positions' locking slots 560, located in the bottom internal surface 551 of the hub 552 in order to fit the thickness of the apparatus to be installed. By pulling the telescopic base 555 to the maximum extension position 570 this invention will receive up to the maximum thickness of 0.75 inches of an apparatus. (FIG. 11C).

[049] FIG 12. This figure shows a fine adjustment system 590 to move the telescopic USB-C port 580 inside the telescopic base 584 in the hub 582. In this way, depending on where the power and/or data/video port of the monitor, smartphone, tablet or other device are located, the fine-tune adjustment of the telescopic USB-C port 580 can be positioned to accommodate and fit the precise distance of the device port of the connected apparatus, and do not break the telescopic USB-C port 580 due to the mechanical effort that these connecting devices can exert when connecting and disconnecting them from this invention. As explained in Detail F, the telescopic USB-C port 580 pivots over a pivot 583 that provides a +/- 5,0 degrees of adjustment, compared with the centered line 581. The telescopic USB-C port is sustained in the top side 592 of the hub frame 587, in the bottom side 594 by a clip 588 which has a pivot space 583 to provide mobility to the USB connector 596. An elastic plastic dust seal 586 provide flexibility and protection for particles entry into the hub. This design release mechanical strengths in the telescopic USB-C port 580. The apparatuses installed in the telescopic base 584 will be horizontally supported in the sustaining wall 598 of the hub 582. The signals sent from the PCB are carried by cable to the connecting port 585 of the USB-C 580. The top side 592 of frame 587 also receives and supports the attached device.

[050] FIGs 13A, 13B, and 13C shows the front (FIG. 13 A), top (FIG. 13C) and right side view (FIG. 13B) of the monitor 610 identifying a touchscreen display 600, the set-up buttons 614, these buttons allow the user to configure the setting of brightness, contrast, sharpness, and other available configurations of the monitor, the description icons 602 of these buttons, the led indicator 604 when the monitor is turned on, the manipulation handle 620 and the assembly guides 622 for connecting the monitor with the hub and provide mechanical stability. Internally the monitor 610 includes a rechargeable battery and a set of electronics for communications with the hub (340 of the FIG 6A) and other peripherals apparatuses.

[051] In FIG. 14, this figure enlarges the Detail G shown in FIG.13, where the monitor control buttons are described. It shows the screen power button 630 that turns the screen 632 on and off, the up/down button 640 that moves the display options selector, and the select button 650 that activates the menu and opens the display setting options such as, but not limited to, brightness, contrast, color, image, energy options, language, information, return and exit. By pressing the select button 650, all the previous options are activated, and the user can use the up/down button to choose the option desired to modify. Afterwards, user can press the select button 650 again, and then enter to edit the value by pressing the up/down button 640 up to the desired value. To exit the option then press return, select any other option, or press exit to exit the display configuration. The monitor 632 will be powered directly from the telescopic USB-C port, both for power and data transfer. There are different options to provide power to the hub as will be explained later in this document. This figure also shows the monitor ^' s manipulation handle 634 in a top view that would be part of the screen frame or mechanically attached by means of screens to the chassis of the monitor. [052] FIG 15. This figure shows the hub 690 of this invention connected by cable 680 to a laptop 662. In this configuration, the user can use the screen 1 660 of the laptop 662 and extend a new one or duplicate the same image on the display 2670 of the portable monitor 672 when it is installed on the hub 690. The type of communication between the hub and the monitor would be Display Port or other wired or wireless technologies, including but not limited to, wireless video transmission, wi-fi, Bluetooth, 4G or 5G communications protocols. The USB-C cable 680 carries different signals such as video, data and power that are used and distributed to the hub’s ports. The cable would include a retractable reel to permit move the hub far from the computer. This functionality is commonly used by users to increase their performance among other benefits described in the Usage section of this document.

[053] FIG 16. This figure shows how this invention also serves to charge or share data and/or video with other types of devices such as a smartphone 710 when it is installed in the telescopic USB-C port of the hub 700 and the hub is connected by cable 714 to a laptop 712. In the described designs USB-C connectors are mentioned, but the hub can also be built with other types of ports that allow connecting other devices with proprietary connectors such the used by well known or other brands. In this way the devices can be loaded, transmit power, data and/or videos through the wired connection to the computer. As will be explained later, this invention can be connected wired or wireless (wi-fi, Bluetooth and other wireless technologies) with other apparatuses.

[054] FIG 17. This figure similarly shows how to connect a tablet 720 to the hub 730 system, and the hub system to a laptop 734 with a cable 732, with the same benefits announced in the previous FIG 16.

[055] FIGS 18A and 18B are top and side views respectively, which show the sound inputs 740 located on the telescopic base 744 of this invention, which allow the sound of smartphones, tablets and other devices that have the speaker at the bottom next to the power connector to enter. The sound enters the hub and with the internal resonance bars design explained in the following FIGs 19A and 19B, the sound is amplified and comes out with more power through the audio outputs 750 located on both sides 752 of the hub 742. In this sense, this invention also acts as a resonance box to amplify the sound power of the devices that are connected in the telescopic USB-C port.

[056] With FIGS. 19A and 19B, these figure show a cross section and internal side of the hub 764. When the sound comes in by the sound inputs 766 and 740 of FIGs. 18A and 18B, both located in the telescopic base 762, the multiple parallel resonance bars 760 (four are shown in FIGS 19A and 19B, but more may be included, and at least one is included in the embodiments) which together create one or more acoustic pathways to help to amplify the sound in about, but not limited to, a range among 5 to 10 decibels and emit it through the audio output 770 located on both sides (See 752 of FIG 18A) of the hub 764. As seen in FIGS. 19A and 19B, the parallel resonance bars 760 are preferably arranged in increasing length within the hub from front to back (or alternatively, back to front), are equal distance apart from each other, and extend downward from the internal top side 776 of the hub 764, and across the width of the hub. This figure also shows an option of connection between the telescopic USB-C port 776 with the hub USB-C input port 774 by means of a flexible pass-through cable 778, in order for this invention to act, in one of its versions, as a charger and sound amplifier of apparatuses such as smartphones, tablets or the like. This figure also shows the interchangeable plastic cards 772 installed horizontally in the cards slot section.

[057] FIGS. 20A and 20B show the internal view of the hub 800 of this invention, including internal electronic speakers 802 on the both sides (See 752 of FIG 18A) of the hub 800 and the bottom section 804 where the rechargeable battery 790 is housed. The rechargeable battery 790 is placed under the PCB module 810 separated by an isolation plate 812. Ventilation holes 784 aid in convective heat transfer and helps the battery maintain a proper temperature when in use. The rechargeable battery 790 is charged through the hub USB-C input port 774, when this invention 800 is connected to a computer, or an A/C adapter or another power source. The telescopic base 780 with the telescopic USB-C port 805 are also shown.

[058] FIG 21. This figure describes how the hub 820 can obtain power in the USB-C port 822, which would be, but not limited from, a USB-C or USB-A port 832 of a computer 830, or from an A/C adapter 840 (for instance 110/220v), or from the internally installed rechargeable battery 850. This invention is a self-contained device that can even work as a power bank unit to charge devices such as smartphones or tablets.

[059] With FIGS 22A, the Detail H shows how from an isometric back view the screen guides 860 aligns the monitor 862 with the grooves 870 of the hub 872 of this invention. This mechanical design provides horizontal stability to this invention when user touches the screen in any angle or when push any of the screen control buttons in the top side. In FIG. 22B, the Detail I shows a frontal isometric view of the hub 872, including the two grooves 870 for receiving the monitor 862, and the telescopic base 874 in an extended position.

[060] FIG. 23 figure depicts a block diagram of the exemplary embodiment device’s (TBD) internal capabilities. The hub 1000 connects to a user’s PC, laptop, tablet or phone 1001 via a USB-Type C connector 1002. This connection carries power, video and, data communications. Each signal undergoes filtering, clamping and conditioning to reduce unwanted electromagnetic interference and emissions 1007. [061] Power delivered by the connected device reaches a Power Module 1006. This circuitry 1006 monitors the voltage and current and allows the USB Type-C cable to be reversed while still powering the device. The Power Module 1006 also provides some overvoltage/current protection.

[062] In one embodiment of the device, a rechargeable Lithium-Ion Battery or Pack 1005 is installed. When power is available for the Charger Module 1004 to recharge the cell with. In one embodiment of the device, a power connector 1003 is available for providing external power to the hub 1000.

[063] Data, power and, video are provided to a Type-C controller with Power Delivery 1025 which handles enumeration with the host 1001 and provides power delivery to a USB 2.0 Hub 1014 and any connected devices (1015, 1016, 1017, 1018, 1019, 1020, 1022).

[064] A MUX module 1008 handles crossing and uncrossing of the USB superspeed data pairs to support a reversed USB cable connection.

[065] One or more superspeed data pairs are routed to converter module for the camera 1009. Embodiments may be developed to support MIPI, LVDS, HDMI, Display Port and other display formats. A camera image sensor 1010 sends video data to the converter module 1009 for reception back to the host 1001.

[066] One or more superspeed data pairs are routed to a USB-display converter module 1011. Embodiments may be developed to support MIPI, LVDS, HDMI, Display Port and other display formats. A USB Type-C connector 1012 allows a connected display 1013 to be docked and stream video output from the host 1001.

[067] Various embodiments may be developed to support different display sizes, formats, resolutions, color profiles, viewing angles and mechanical profiles. One embodiment supports a touch screen in the display that provides input to the host 1001 via a USB or I2C interface.

[068] A USB audio codec 1015 connected to a microphone 1016 converts audio in the environment to a USB data signal for transmission back to the host 1001. A USB audio amplifier 1017 connected to one or more speakers 1018 converts a USB data signal from the host 1001 into audio for playback in the environment.

[069] A USB Flash module 1021 connects to the USB 2.0 HUB 1014 and provides local data storage to the connected host 1001.

[070] In one embodiment a microcontroller 1022 reads button inputs 1023 for local control and transmission back to the host 1001.

[071] Embodiments may support turning the camera on and off, muting and unmuting the speaker or microphone, blanking the display, triggering lights, sounds or other behaviors from a connected NFC device 1021, and various wireless data operations. [072] Embodiments of the microcontroller 1022 support WiFi and Bluetooth for sending and receiving data to other connected devices and databases. The microcontroller 1022 also sends and receives data from an NFC coil 1021. In one embodiment the NFC coil would read data from a figuring or action figure and trigger sound effects from the speakers. In one embodiment the NFC coil would read information sent from a temperature, light, biometric or atmospheric sensor.

[073] USB Type-A ports 1019 provide power for charging connected mobile devices and a data link back to the Host 1001.

[074] FIG 24 shows this invention allowing the installation onto the hub 1100, of different kinds of sensor or auxiliary peripherals such as, but not limited to, a laser pointer 1112, ambient temperature 1114, light intensity 1116, oxygen in blood 1118, heartrate/pulse sensor 1120, for increase the functionality of this invention such as in the healthcare and HSE (Health, Safety and Environment system) applications.

USAGE OPTIONS OF THE PORTABLE SCREEN AND PERIPHERALS HUB [075] The present invention is the new generation of the portable monitor and hub system that incorporates the flexibility to transport, install and interchange different types of apparatuses combining with IoT capabilities, such as a secondary screen, video-camera, microphone, speakers, sensors, characters, all-in-one portable hub system.

[076] This new hub system can interact mechanically, visually and/or orally with the user or third parties and be used in different applications.

[077] The internal and external structures are designed to house electronic boards and connectors of the latest technology that can manage, interface and/or detect the signals obtained from the monitor, apparatuses and/or characters installed in the hub, and receive and/or send signals to a computer and/or other apparatuses.

[078] Some of uses of this invention are the following: 1.) As a Portable Monitor: by installing a secondary computer screen in the hub’s telescopic USB-C Port, the screen will act as a secondary monitor of the computer and the user can duplicate or extend another screen for enhanced performance;

2. To make Videos: by using the video-camera located in the back side of the hub, user can select the camera of the computer to show what is at the computer’s front, or the hub’s camera to show any other place, easily, by just directing the hub to the desired place and touching the on/off video button; or also can activate both videos at the same time, for instance, during a videocall using an APP such as known video conferencing;

3. To take Photos: by using the hub’s cameras when it is connected to the computer, in a wired or wireless connection, the user can easily take photos of documents or places by taking the hub with the hand, looking at the computer screen or monitor to see what the hub’s camera is directed to and then pushing the photo button, and all photos will be downloaded directly to the computer or the hub. Take photos with the computer is not easy or maybe impossible in many cases, or it takes longer time to do it with a smartphone because it requires to send the file to the computer via e-mail consuming unnecessary time and data plans. For instance, to take a photo with a smartphone, users need to see the display of the smartphone, something which is hard or impossible for instance if they want to take a photo of the back side of their head, however, with this invention, user just need to see the computer’s display and direct the video-camera to any place and push the photo button. All options with voice activation are available to simplify and enhanced operation; Use Microphone, Speaker and Memory Built-in Features: use these hub’s features in case that the computer ones do not work properly, or the specific situation requires it or because it is easier to just pushing a button in the hub, instead trying to finding the right option in the configuration section of the computer’s software, which sometimes is very difficult and consume time. Therefore, this invention acts as portable redundant system of some important features of the computers; Connect External Peripherals: to connect other apparatuses in the USB Ports such as external memory, Lantern, Pointer, Fingerprint, chargers. The connection with the computer would be wired or wireless by using the wi-fi, Bluetooth or other similar feature connectivity of the hub, that permits the hub to work as an independent apparatus of the computer; Power Charge, Video and Data Transfer with Smart Phones and Tablets: by simply installing them in the hub’s telescopic USB-C port or, in laterals USB-A ports. The hub can transfer power to the USB ports in different ways: i) when the hub is wired connected to the computer by a type-c cable or similar, or ii) when the hub is connected to an external A/C adapter (110/220 volts), or iii) when the hub is using the power stored in the rechargeable batteries installed inside the hub thus acting as a power bank.

Knowing that users generally install covers to protect their smartphones and tablets, the present invention includes a telescopic base to install different size of apparatuses. The telescopic base can be sited to a minimum of up to 2 positions to increase the area for installing different type of apparatuses sizes, and also, a Fine-Tune selector to move the telescopic USB-C port over the telescopic base to do a fine adjust of the hub’s USB-C port to the apparatus to be connected.

The present invention will be produced with different type of connectors depending of the common technologies such as, USB-C, MAC. Also, there is a possibility to produce the present invention with magnetic and removable adaptors to connect different type of smartphones, such as Android or Apple among others, in a unique hub connector.

7. Gain Sound Amplifier: to increase the sound emitted by the apparatuses’ speakers when they are close to the input holes of the resonance box in the hub;

8. Install Healthcare sensors: by installing Pulse, Oxygen, Temperature, Workstation Light sensors, among other in the hub.

9. Use the hub for Entertainment: to install interchangeable figurines or characters onto the hub frame, such as famous heroes, and download their original licensed voices by using the RFID feature built-in in the hub.

10. Advertising: to install removable cards advertising company names, customized names, popular phrases.

Some IoT capabilities of the HUB:

[079] Many kinds of apparatuses can be installed in the portable hub, allowing the transfer of data with other IoT apparatuses, software, databases. The data reaches a database where is analysed and presented using Data Science algorithms programmed in an AI (Artificial Intelligence) machine.

[080] The download and file storing feature of the hub can be applied to download voices or sounds from the cloud, for instance, of a famous character that is installed on the hub. The hub of this invention includes an NFC (Near Field Communication) reader module to detect microchips installed in characters or other apparatuses by using the RFID (Radio Frequency Identification) technology.

[081] A custom software will be developed to download, automatically or manually, movies trailers, marketing announcements, promotions, and other kind of information to be watched in the screen, or to be emitted by the character, for instance.

[082] The customer satisfaction surveys can be obtained at the Point-of-Sale by using a data-entry accessory connected to the hub, and the data will be uploaded to the cloud and the software feature of this product can delivery analytics to the company or user.

Electronic Design of the HUB:

[083] IoT (Internet of things) is a technical name for any technology that captures data from any device or subject and transmit it, using an available network, to a database for analysis.

[084] The hub of this invention can capture health data, environmental data, security alerts or any other information in a home or office environment subject to be measured using an array of sensors. [085] Then, the hub transmits the data using the computer as a modem connected to the internet via a wired (LAN) connector or a Wireless (Wifi, Bluetooth, 3G, 4G, 5G) transport protocol. The data reached a database where it is analysed using data Science algorithms programmed in an AI machine.

[086] The hub can work wired or wireless with computers, and its versatility to share files in its built-in memory is an innovative design that will facilitate business meetings with the extended monitor.

Decorative Applications:

[087] Different kinds of decorative accessories can be installed onto the hub. The following are some of the options:

1. Fixed Toy or Character: In this case the toy or character cannot be separated from hub. That is, the Toy or Doll is fixed to the hub, although it could have the ability to rotate horizontally and/or vertically in different angles.

2 Interchangeable Toy or Character: In this version, the Toy or Character can be released from the hubs, and replaced by a different one, or by a different application.

3 Luminous or Rotative Toy: This version will have a power connector that will allow to transfer energy from the batteries for illumination or rotation actions.

4 Popular Phrases: This version will market popular phrases, maps of regions, (“I love you!”, “may I help you?”)

5 Customized Name: user can customize the name of the hub just selecting the word pieces that will be installed in the front of the hub (John, Susan). Businesses and Corporations users can market their names, logos, slogans, special or seasonal events.

6. 3D Printed Pictures or Figures: of people or other figures provided by user (in glass or other light material; like a 3D figure of your family, your pet).

Healthcare Sensors and applications:

[088] The following are some options of applications and sensors that can operate with the hub system:

1. Pulse and/or Oxygen: in this version, a sensor installed on the top of the hub can measure the oxygen and pulse per minute of a user. The data is sent to an APP to store and/or create statics and/or early warnings. The hub-Software will indicate the pulsations per minute in a pop-up screen, which can be programmed by the user.

2. Temperature sensor: this model measures the temperature body, by mean of a touching sensor or laser.

3. Workstation Light Level sensor: it senses and measures the quantity of light user has where the hub is located. When the user has higher or lower quantity of light that could affect the vision of user. The hub Software will pop-up an alert in the computer’s user if levels are out of recommended measures. This application could help some people to save their eyes stress, headache and/or other collateral pains.

The hub Software include thresholds and alerts that will give user early warnings and/or information, depending of the application.

Office and Home applications:

[089] The following are some options of other peripherals that can be installed on the hub:

1. Microphone Entry: The hub -Microphone can incorporates a high-tech microphone in the front in such a way that allows the participants of a conference to be closer to the microphone, improving the clearness of the audio signal heard by the other people on the other side of the computer or cellular phone connection. This facilitates that the computer or cell phone or Tablet does not have to be moved, but only move the hub close to the person who is speaking. It is very normal in business meetings to have many attendees in big large tables, then it will be easier to say... “Talk to the Hub” for the other people connected to listen the speaker person clearly and louder. The connection could be wired or wireless via Bluetooth.

2. Memory stick reader Entry: to increase the data entry to the computer.

3. Lantern or Pointer Light Entry: It has a high intensity light, low power consumption, in case user need it in an emergency or if user want to improve the sharpness of something wanted to see or read. A Pointer entry incorporates a laser on the front (colors to be selected), to be used when making a presentation. It could also incorporate two keys to pass page forward or backward

4. Fingerprint Reader Entry: The hub would incorporate a fingerprint reader to validate the identity of people. This application can be especially useful in banks and other entities that wish to integrate 2 devices in a single Multi-Entry apparatus. Fig.34.

5. Third-party Data-Entry: to obtain data from the user or third parties, like the satisfaction experience survey at a point-of-sale or other applications. This could be useful for companies to save, register, analyze and make decisions based on this Data-Entry data. Data would be transmitted to the cloud by mean of a specific data management system to be embedded in the hub or computer.

Second screen applications:

[090] The hub system incorporates a lightweight display of between 5” to 25”, having

133” as preferred size, that serves as a secondary monitor of the computer, cellular, tablet or other apparatuses that can be wired or wireless connected with the hub. [091] It could be used for conferences, in which all people do not have access to see the computer screen either because they are not on the same side of the computer, or because the computer’s owner does not want them to see the screen of the computer for privacy reasons. [092] Various hub systems of this invention could be connected, wired or wireless to show the same image of who is on the other side of a video call (using some current and known video conferencing platforms).

[093] The hub can also be used as a TV screen when the user connects the hub to a computer, to a TV, to a TV transmitter, phone, tablet or similar apparatuses.

DESCRIPTION OF PRODUCTION

[094] The multiple pieces of the outer shell of the hub are made of acrylonitrile butadiene styrene (ABS) plastic that has been injection moulded. Sections of the outer shell may also have an additional material such as thermoplastic polyurethane (TPU) or silicone. The power, data and video transfer options would be done by using USB type C, USB2.0, HDMI among other available wired and wireless technologies. All buttons, switches, electrical micro-switches (made of plastic and metal) are also commodity components that have been manufactured and/or sourced from other suppliers. Integrated circuits, chipsets and printed circuit boards (PCB) are also standard items, although different proposed functions of the hub may have proprietary chipsets designed, printed and programmed to fit the requirements of each peripheral function that is to be added to the hub.

[095] The printed circuit board (PCB) on which the electrical and mechanical components are mounted is custom-made for the functional design of the hub peripherals. It is a flat, resin-coated sheet. Electrical resistors, capacitors, oscillators, integrated circuits (ICs), and other components are made of various types of metal, plastic, and silicon, also sourced from manufacturers that produce in mass.

[096] The general shape falls within the range of a top-end industrial design product that is available in the current market but may be produced slightly larger to accommodate for the added internal components that are built into the hub. The overall layout is similar as well, its orientation is symmetrical along a line that runs from the front to the back of the body of the hub along the top face. The hub has been detailed designed to obtain the smallest and carry-on size to allow for the addition of the proposed peripherals. On this hub, there are holes moulded in the shell to allow for sounds to leave the device via internally mounted drivers. On the front there are activation buttons to accommodate the functions of the added devices that become mounted into the hub.

[097] The invention is not restricted to the details of the foregoing embodiments. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.