IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0019370
(2008-01-24)
|
등록번호 |
US-RE41453
(2010-08-13)
|
발명자
/ 주소 |
- Wall, Justin D.
- Wall, David M.
|
출원인 / 주소 |
- Generation 2 Technology, LLC
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
12 |
초록
▼
A universal remote control apparatus that is programmable with software supplied by manufacturers of controllable devices so that a single remote control apparatus has a broad spectrum application capable of operating many different controllable devices. The remote control apparatus is based in a Pe
A universal remote control apparatus that is programmable with software supplied by manufacturers of controllable devices so that a single remote control apparatus has a broad spectrum application capable of operating many different controllable devices. The remote control apparatus is based in a Personal Digital Assistant (PDA) having sufficient memory to store the requisite software from a multitude of controllable devices and is operable to send or receive signals to the controllable devices by radio signal or by infra red beam. The remote control apparatus can be coupled to a personal computer to download the requisite software into the memory of the PDA, which can come via software supplied with the controllable device or by accessing the manufacturer's web site and downloading the necessary software therefrom. The display screen of the PDA can then be customized to replicate any control functions with a touch screen actuation control buttons.
대표청구항
▼
Having thus described the invention, what is claimed is: 1. A universal remote control apparatus comprising: a casing; memory storage unit housed within said casing operable to store software programming corresponding to multiple remote devices to be controlled by said universal remote control ap
Having thus described the invention, what is claimed is: 1. A universal remote control apparatus comprising: a casing; memory storage unit housed within said casing operable to store software programming corresponding to multiple remote devices to be controlled by said universal remote control apparatus; a microprocessor housed within said casing and being cooperable with said memory storage unit to execute said software programming; a display screen capable of displaying touch screen buttons operable to initiate commands to said microprocessor for operation of said software programming, said display screen being operable to display touch screen buttons corresponding to more than one remote device simultaneously; an electrical power device to provide electrical power for operating said microprocessor; a data transfer device operable coupled with said microprocessor for transferring data, including software programming, from a remote source to said microprocessor for storage in said memory storage unit; and a control command transmitter to provide simultaneous functionality in that said control command transmitter is operable to transmit said commands to multiple remote devices simultaneously via said infra red beam transmitter and said radio signal transmitter, as well as being operable to transmit said commands at multiple radio frequencies corresponding to multiple said remote devices, to control selectively the operation of said remote devices individually as well as simultaneously. 2. The universal remote control apparatus of claim 1 wherein said microprocessor can display a menu on said display screen to permit selection of one or more of said multiple remote devices stored within said memory storage unit. 3. The universal remote control apparatus of claim 2 further comprising a docking cradle for receiving said universal remote control apparatus, said docking cradle including a data transfer cable to interconnect said data transfer device and said remote source. 4. The universal remote control apparatus of claim 3 wherein said electrical power device includes rechargeable batteries, said docking cradle including a power adapter for recharging said rechargeable batteries. 5. The universal remote control apparatus of claim 1 wherein said casing is mountable in a buoyancy holder to permit said casing to float on top of water, said buoyancy holder including an upright wall having a transparent window therein for communication between said control command transmitter and said remote devices. 6. A method of controlling a remote device comprising the steps of: providing a remote control apparatus having a casing, a display screen mounted within said casing, a memory storage unit, and a microprocessor; storing software programming from a remote source into said memory storage unit, said software programming corresponding to multiple remote devices to be operatively controlled by said remote control apparatus; loading said software programming into said microprocessor to cause a display of touch screen buttons on said display screen, each of said touch screen buttons being operable to initiate a command for controlling a function of at least one of said remote devices, said touch screen buttons selectively corresponding to one or more of said remote devices; and selecting a control command transmitter including an infra red beam transmitter and a radio signal transmitter for sending said command to said remote apparatus, the selection of said control command transmitter being determined by said software programming specific to the selected said remote device and being capable of simultaneous functionality in that said control command transmitter is operable to transmit said commands to multiple remote devices simultaneously via said infra red beam transmitter and said radio signal transmitter, as well as being operable to transmit said commands at multiple radio frequencies corresponding to multiple said remote devices. 7. The method of claim 6 wherein said method further comprises the steps of: providing a menu on said display screen of said multiple remote apparats to permit a selection of one of said remote devices for the display of said touch screen buttons corresponding thereto on said display screen. 8. The method of claim 6 further comprising the step of: obtaining said software programming from a connection with a web site corresponding to said remote device via a personal computer. 9. The method of claim 6 further comprising the step of: obtaining said software programming from a remote memory storage device loaded into a personal computer. 10. The method of claim 6 further comprising the step of: learning said control commands from a remote control device corresponding to said remote device. 11. The method of claim 10 wherein said learning step includes the step of transferring control commands through an infra red beam transmitted by said remote control device and received by an infra red receiver in said remote control apparatus. 12. The method of claim 6 further comprising the step of: selecting the operative function of each touch screen button corresponding to a selected remote device to provide a customized control panel of touch screen buttons on said display screen. 13. A universal remote control apparatus for controlling a remote apparatus comprising: a casing having a display screen mounted therein; a microprocessor housed within said casing to receive and operate software programming corresponding to said remote apparatus, said microprocessor being operable to display on said display screen touch screen icons corresponding to commands for controlling various operative functions of said remote apparatus; a data transfer device operatively coupled to said microprocessor to receive software programming from a remote source corresponding to said remote apparatus; and a command transmitter mounted in said casing and being cooperable with said microprocessor to send a command selected by an operator touching one of said touch screen icons to initiate a control of an operative function of said remote apparatus, said command transmitter including an infra red beam transmitter and a radio signal transmitter, said command transmitter being capable of simultaneous functionality such that said microprocessor is operable to select one of said infra red beam transmitter and said radio signal transmitter according to the software being executed by said microprocessor, as well as transmit commands via both said infra red beam transmitter and said radio signal transmitter simultaneously to control multiple remote apparatus. 14. The universal remote control apparatus of claim 13 wherein said radio signal transmitter is operable to transmit commands at multiple frequencies simultaneously via said radio signal transmitter according to the software being executed by said microprocessor to control corresponding multiple remote apparatus. 15. The universal remote control apparatus of claim 14 wherein said data transfer device is connectable to a personal computer by a data transfer cable to load software programming therefrom into said microprocessor. 16. The universal remote control apparatus of claim 15 wherein said personal computer obtains said software programming from a web site on the Inernet. 17. The universal remote control apparatus of claim 15 further comprising a memory storage unit to store software programing for multiple remote apparatus, said microprocessor being operable to display a menu of said multiple remote apparatus to permit said operator to select a remote apparatus to be controlled. 18. The universal remote control apparatus of claim 17 wherein said universal remote control apparatus is cooperable with a docking cradle having said data transfer cable connected thereto to transfer software programming into said microprocessor. 19. The universal remote control apparatus of claim 18 further comprising an electrical power source including rechargeable batteries, said docking cradle including a power adapter to convert AC electrical current into DC electrical current for recharging said rechargeable batteries when said universal remote control apparatus is received in said docking cradle. 20. A handheld remote control apparatus, comprising: (a) hardware comprising, (i) a casing having a display screen mounted therein, (ii) a microprocessor housed within said casing, (iii) a memory; and (iv) a transmitter assembly including an infra red beam transmitter and a radio signal transmitter; and (b) software for operating the remote control apparatus that is stored in said memory and that is executable by said microprocessor to display on said screen a menu representative of controllable devices that may be wirelessly controlled by the remote control apparatus, whereby a user selects from said menu one of said controllable devices for wireless control thereof using the remote control apparatus; (c) wherein, (i) for each respective one of a plurality of controllable devices, said software for operating the remote control apparatus is configured to separately load into said memory, from a remote source, control programming corresponding to said respective controllable device, (A) which respective control programming is executable by said microprocessor to display on said screen a specific control panel for wirelessly controlling said respective controllable device, and (B) which respective control programming defines a manner in which the remote control apparatus communicates with said respective controllable device, including whether the infra red beam transmitter or the radio signal transmitter is used in sending commands to said respective controllable device, and (ii) upon selection of one of said controllable devices from said menu for which control programming has been loaded into said memory, said software for operating said remote control apparatus is configured to cause said microprocessor to execute said respective control programming stored in said memory corresponding to said selected controllable device such that said respective control panel corresponding to said selected controllable device is presented on said display for wirelessly controlling said selected controllable device in said manner defined by said respective control programming; and (d) wherein said transmitter assembly is capable of simultaneous functionality such that said microprocessor is operable, (i) to select, in accordance with said respective control programming being executed by said microprocessor, one of said infra red beam transmitter and said radio signal transmitter, as well as, (ii) to cause transmitter assembly to transmit commands via both said infra red beam transmitter and said radio signal transmitter simultaneously to wirelessly control multiple controllable devices. 21. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to enable a user to customize a respective control panel that is displayed on said screen when a said control programming is executed by said microprocessor. 22. The remote control apparatus of claim 20, wherein said display screen comprises a touch screen. 23. The remote control apparatus of claim 20, wherein said menu comprises a plurality of icons, each icon corresponding to one of said controllable devices that may be wirelessly controlled by the remote control apparatus. 24. The remote control apparatus of claim 20, wherein one of the controllable devices comprises a light. 25. The remote control apparatus of claim 20, wherein one of the controllable devices comprises a hot tub. 26. The remote control apparatus of claim 20, wherein one of the controllable devices comprises a ceiling fan. 27. The remote control apparatus of claim 20, wherein each respective control panel comprises a graphical user interface. 28. The remote control apparatus of claim 20, wherein said menu is displayed on said screen upon boot-up of the remote control apparatus. 29. The remote control apparatus of claim 20, wherein said hardware is part of a personal digital assistant (PDA). 30. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to enable a user to toggle between respective said control panels provided by respective said control programming. 31. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to enable respective said control panels provided by respective said control programming to be separately displayed simultaneously on said display screen. 32. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to enable respective said control panels provided by respective said control programming to be separately displayed simultaneously in a split screen. 33. The remote control apparatus of claim 20, further comprising a docking-cradle for receiving the remote control apparatus, said docking cradle including a data transfer cable to interconnect the remote control apparatus and each respective said remote source. 34. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to separately load into said memory, from an Internet website, control programming corresponding to said respective controllable device. 35. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to couple to a personal computer for separately loading into said memory, from an Internet website, control programming corresponding to said respective controllable device. 36. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to couple to a personal computer for separately loading into said memory, from a memory storage device loaded into the computer, control programming corresponding to said respective controllable device. 37. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to couple to a personal computer for separately loading into said memory, from a CD loaded into the computer, control programming corresponding to said respective controllable device. 38. The remote control apparatus of claim 20, wherein said software for operating the remote control apparatus is configured to learn control commands from a remote control for a controllable device. 39. The remote control apparatus of claim 20, wherein the transmitter assembly is operable to receive, via a radio signal receiver, confirmation from a controlled device of receipt of a command wirelessly communicated by the remote control apparatus to the controlled device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.