This invention concerns portable electronic devices having displays, such as mobile communication devices, tablets, smart terminals and the like; and in particular a means for maximizing the available display space on the front of such a device, particularly, a smart phone. Traditionally, smart phones have been considered as a single operating unit. This invention seeks to separate the smart phone into 2 distinct components—a front touch screen panel with a true full display that covers the entire face of the device, and a back panel that contains substantially all of the components of the smart phone.
Smart phone screens seem to have settled on an optimum upper size of around 6 inches for comfortable palming use. To maximize this valuable “real estate” however, the trending design is now focused on achieving a display that covers the entire face of the device. That requires removing components that take up visible space in the top and bottom strips of the front panel screen. Even if one day there is reliable technology to placing some of the components such as sensors and speakers beneath the touch screen panel such that they become invisible, the present front facing camera would have to remain. Consequently, the space occupied by these components makes it impossible for the actual “usable” display to cover the full entire visible face of the device. The result is a loss of valuable display space and a noticeable lack of design elegance and color coordination, all of which are important consumer considerations in the competitive high end smart phones war. What is needed is a convenient and comprehensive solution for maximizing the smart phone display to cover the entire face of the device, without any loss in accessibility or functionality.
With respect to the above problem, the present invention aims to provide a set of solutions to provide physical design features that allow a smart phone display to cover the entire face of the device, without any loss in accessibility or functionality.
In the present invention, the front face is defined as a touch screen display panel which contains no visible components on any part of the screen and particularly on its top and bottom strips, including the home button, speakers, microphone, sensors, front camera, or other such devices (collectively, “Components”).
In the present invention, the back face is defined as the back panel containing the Components as defined above and substantially all the other elements comprising the smart phone including the sensors, battery, SoC, cameras, chips, speakers, modems, and other such devices.
One embodiment of the invention provides a seamlessly integrated hand-held terminal such as a smart phone comprised of a front touch panel screen, a back panel, and a spring loaded slider mechanism in between. The Components are relocated from the front panel to the top and bottom strips of the back panel. In normal (sleep) mode, the Components are covered by the front panel whose edges are flush with those of the back panel. When the Components are needed, the user slides the back panel up or down past the front panel edges, via the integrated spring loaded slider mechanism, sufficiently to reveal the Components in the top or bottom strips of the back panel. Built-in sensors and contactors detect the sliding motion and activate the said Components that are normally in sleep mode. For example, when the back panel is slid up, the front camera screen will turn on in the same way as when the camera icon is pressed on the smart phone application screen. When the Components are no longer needed, the user slides the back panel into position (flush with the front panel) and the Components revert back to their original sleep state.
Another embodiment of the invention provides a seamlessly integrated hand-held terminal such as a smart phone comprised of a front touch panel screen, a back panel, and a built-in housing. The Components are relocated from the front panel to a module within the back panel. The back panel has an opening on its to frame or on its side frame to accommodate a built-in housing with a spring loaded module (“Housing Module”) containing the Components. In normal (sleep) mode, the Components module is hidden within the top or side frames of the back panel such that the top of the Housing Module is flush with the back panel frame. When the components are needed, the user presses down on the top of the Housing Module and the Components module is revealed such that the bottom of the Housing Module is now flush with the frame of the back panel. Built-in sensors and contactors detect the upward motion of the Housing Module and activate the Components that are normally in sleep mode. When the Components are no longer needed, the user pushes down on the top of the Housing Module and the Housing Module retracts back into its original position within the back panel and the Components revert back to their original sleep state.
Another embodiment of the invention also provides a seamlessly integrated hand-held terminal such as a smart phone comprised of a front touch panel screen, a back panel, and an integrated flip component (“Flip Module”). The Components are relocated from the front panel to a module in the back panel. The back panel has an opening located at its top or side edges. The opening is occupied by a spring loaded housing module containing the Components. The Components module is hinged on the side closest to the back panel frame. In the normal state of this Flip Module, the integrated Components housing is locked-in to the back panel and actively functions as a normal rear camera system. When the Components are needed for front facing functions, the user releases the Flip Module or sends a signal to the electrical actuators (which are operably coupled to Flip Module's hinged side) to release the Flip Module and cause a 180 degree rotational movement about the back panel vertical or horizontal axes.
Other aspects of the invention will become apparent by consideration of the detailed description and accompanying drawings.
The design of the device as proposed separates the front panel module from the back panel module. All the (visible) Components such as the home button, speakers, microphone, sensors, or front camera, or other components are relocated from the top and bottom strips of the front panel to the back panel.
The invention provides different embodiments and methods to locate the Components on or within the back panel and make them fully accessible and functional.
The front and back panels may have equal dimensions but different depths, and are independent modules that are seamlessly integrated to function together as a smart phone. During normal state, the Components are dormant in some embodiments and active in others. When any of the mechanisms disclosed are activated and motion is sensed, the normally open relays close and become energized and send a signal to the processor and communication modules to automatically activate the Components if they are in a dormant state (
For brevity and ease of description, each of the exemplary systems presented herein is illustrated with a single exemplar of each of its component parts. Some examples may not describe or illustrate all components of the systems, but a person of ordinary skill in the art will recognize whether such components are needed. Other exemplary embodiments may include more or fewer of each of the illustrated components, may combine some components, or may include additional or alternative components. Again, a person of ordinary skill in the art will recognize omissions that would be obvious to the person of ordinary skill in the art.
The memory may include read only memory (ROM), random access memory (RAM), other non-transitory computer-readable media, or a combination thereof. The electronic processor is configured to retrieve instructions and data from the memory and execute, among other things, instructions to perform the methods described herein. The microphone captures audio data and the speaker outputs audio data.
The communication network may be implemented using various networks, for example, a cellular network, the Internet, a Bluetooth™ network, a wireless local area network (for example, Wi-Fi), a wireless accessory Personal Area Networks (PAN), cable, an Ethernet network, satellite, a machine-to-machine (M2M) autonomous network, and a public switched telephone network.
The spring loaded slider mechanism (“Slider Mechanism”) relates to a mechanism in which the inward face of the front panel is coupled to a fixed plate and the inward face of the back panel is coupled to a sliding plate such that the back panel is able to slide up or down against the front panel. A spring mechanism is installed on each end at the location desired to lock the back panel into its new position. There are numerous commonly used slider mechanisms which would work for this purpose and a person of ordinary skill in the art will recognize the components that are needed.
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Some embodiments are described in the following numbered clauses:
Clause 1. A method for manufacturing a mobile communications device such as a smart phone with an increased display area covering the entire full face of the device, comprising:
Providing a device case of hand-holdable size, said case comprising a front face and a back face;
Embedding in the front face of said case a touch screen display panel entirely occupying said front face, except for rims surrounding said display; said touch screen display panel to have no visible components therein, including the home button, speakers, microphone, sensors, front camera, or other such devices (collectively, “Components”); and
Embedding in the back face of said case an inwardly facing back panel containing the Components and substantially all the other elements comprising the mobile communications device, said elements including cameras, battery, SoC, speakers, and sensors.
Clause 2. The method of clause 1, further comprising:
Embedding the front camera within the top strip area of the back panel's inside face;
Clause 3. The mobile communications device of clause 2, further comprising:
Embedding the sensors, the lenses, the flash, and the ear speaker within the top strip area of the back panel's inside face;
Clause 4. The method of clause 1, further comprising:
Embedding the navigation buttons including the home, back, and overview buttons within the bottom strip area of the back panel's inside face;
Clause 5. The method of clause 1, further comprising:
Embedding a Slider Mechanism as defined herein between the inward face of the front panel and the inward face of the back panel of the mobile device, such that the back panel can be slid up or down against the front panel for a distance equivalent to the respective heights of the top and bottom strips of the back panel's inward face containing the Components;
Clause 6. The mobile communications device of clause 5, further comprising:
at least one electronic relay electrically coupled to the back panel's inner face and to the Slider Mechanism; and
at least one transmitter electrically coupled to the electronic relay(s); and
an electronic processor electrically coupled to the CPU configured to:
receive a signal from the transmitter whenever the electronic relay(s) change state between open and closed as a result of a sliding movement of the back panel; and
send a signal to the CPU to change the mode between sleep and active of any of the Components located within the top and bottom strips of the back panel's inward face.
Clause 7. The method of clause 1, further comprising:
Embedding a built-in spring loaded housing “Housing Module” hidden within the top frame of the back panel such that said housing springs up and sits on the top face of the back panel whenever the user presses down and releases on the top of said housing;
Clause 8. The method of clause 1, further comprising:
Embedding a built-in spring loaded housing “Housing Module” hidden within the side frame of the back panel such that said housing springs up and sits on the side face of the back panel whenever the user presses down and releases on the top of said housing;
Clause 9. The method of clause 7 or of clause 8, further comprising: Embedding the front camera within the Housing Module;
Clause 10. The mobile communications device of clause 7 or of clause 8, further comprising: Embedding the sensors, the lenses, the flash, and the ear speaker within the Housing Module;
Clause 11. The mobile communications device of clause 7 or of clause 8, further comprising:
an electronic relay electrically coupled to the bottom side of the built-in spring loaded Housing Module; and
a transmitter electrically coupled to the electronic relay; and
an electronic processor electrically coupled to the CPU configured to:
receive a signal from the transmitter whenever the electronic relay changes state between open and closed as a result of a the movement of the Housing Module; and
send a signal to the CPU to change the mode between sleep and active of any of the Components located within the Housing Module.
Clause 12. The method of clause 1, further comprising:
Integrating a flip component “Flip Module” embedded flush within an opening on the outward face of the back panel as close as possible to the top face of the back panel; said Flip Module to be hinged on one side such that, in response to a user action or command, it would rotate 180 degrees on its hinged side and sit flush with the top face of the back panel facing inward;
Clause 13. The method of clause 1, further comprising:
Integrating a flip component “Flip Module” embedded flush within an opening on the outward face of the back panel as close as possible to the side face of the back panel; said Flip Module to be hinged on one side such that, responsive to a user action or command, it would rotate 180 degrees on its hinged side and sit flush with the side face of the back panel facing inward;
Clause 14. The method of clause 12 or of clause 13, further comprising:
Embedding a camera within the Flip Module; said camera to function normally as the mobile device's back camera component;
Clause 15. The mobile communications device of clause 12 or of clause 13, further comprising: Embedding the sensors, the lenses, the flash, within the Flip Module;
Clause 16. The mobile communications device of clause 12 or of clause 13, further comprising:
an electronic relay electrically coupled to the back of the Flip Module and to the back face of the back panel; and
a transmitter electrically coupled to the electronic relay; and
an electrical actuator operably coupled to the Flip Module's hinged side; and an electronic processor electrically coupled to the CPU configured to:
receive a signal from the transmitter whenever the electronic relay changes state between open and closed as a result of a movement of the Flip Module; and
send a signal to the electrical actuator to release and rotate the Flip Module 180 degrees; and
send a signal to the CPU to change the to change the mode between sleep and active for any of the Components located within the Flip Module and further for the camera, to change its function from a rear camera to a front camera.
These disclosures are not limited in their application to the examples provided, the embodiments discussed, or to the details of construction and the arrangement of Components set forth in the foregoing description or drawings. The disclosure is capable of other embodiments and of being practiced or of being carried out in various ways, improving the available display area as a person of ordinary skill in the art will readily recognize.
This application is a continuation of U.S. patent application Ser. No. 15/709,054, entitled “SYSTEMS AND METHODS FOR ACHIEVING TRUE FULL SCREEN DISPLAY IN HANDHELD TERMINALS” filed Sep. 19, 2017 (the “'054 application”). The '054 application and this application claim priority to U.S. Provisional Application No. 62/555,673 entitled “HANDHELD TERMINAL WITH AN INTEGRATED SLIDING BACK PANEL TO ACHIEVE FULL SCREEN DISPLAY,” filed Sep. 8, 2017 (the “'673 application”). The entire contents of both the '054 application and the '673 application are incorporated herein by reference as if fully set forth herein.
Number | Date | Country | |
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62555673 | Sep 2017 | US |
Number | Date | Country | |
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Parent | 15709054 | Sep 2017 | US |
Child | 16564609 | US |