Modular battery pack apparatus, systems, and methods including viral data and/or code transfer
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-002/12
H01M-002/10
H01M-010/42
H01M-010/647
H01M-010/623
H01M-010/6554
H01M-010/613
H01M-002/02
H01M-002/20
H01M-010/655
출원번호
US-0925636
(2013-06-24)
등록번호
US-10090498
(2018-10-02)
발명자
/ 주소
Olsson, Mark S.
Cox, David A.
Warren, Alexander L.
Phaneuf, Joseph B.
출원인 / 주소
SEESCAN, INC.
대리인 / 주소
Tietsworth, Esq., Steven C.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
Intelligent modular battery pack assemblies and associated charging and docking systems are disclosed. In one embodiment a modular battery pack assembly may include an outer casing assembly, a thermally conductive structural housing element configured to house a battery assembly in an interior volum
Intelligent modular battery pack assemblies and associated charging and docking systems are disclosed. In one embodiment a modular battery pack assembly may include an outer casing assembly, a thermally conductive structural housing element configured to house a battery assembly in an interior volume, a lid element configured to cover the opening in the thermally conductive structural housing element and mechanically strengthen the thermally conductive structural housing element, and a circuit element disposed to electrically couple the battery cell to a battery-powered device and provide viral data transfer between the battery and a coupled device.
대표청구항▼
1. A battery, comprising: an outer casing assembly;a thermally conductive metallic structural housing element having a bottom, four sides, and a top enclosing an interior volume, and the thermally conductive structural housing element dimensioned and sized to house a battery assembly including a plu
1. A battery, comprising: an outer casing assembly;a thermally conductive metallic structural housing element having a bottom, four sides, and a top enclosing an interior volume, and the thermally conductive structural housing element dimensioned and sized to house a battery assembly including a plurality of one or more battery cells in the interior volume, the thermally conductive structural housing element and including an opening in the top for placement of the battery assembly within the interior volume;a lid element shaped and sized to cover the opening in the top of the thermally conductive structural housing element and mechanically strengthen the thermally conductive structural housing element, the lid element including a printed circuit board (PCB) assembly including electrical contacts to electrically couple the one or more battery cells to a first coupled battery-powered tool device consisting of one or more of a utility locator, a utility locator transmitter, a drill a camera control unit (CCU), and a power saw;a vent assembly including a pressure relief valve and one or more openings and a semi-permeable membrane positioned across the one or more openings configured to allow exchange of gases to and from the thermally conductive structural housing element interior volume and restrict entry of water into the thermally conductive structural housing element interior volume; andan electronic circuit on the PCB assembly including a non-transitory memory storage medium and a processing element operatively coupled to the non-transitory memory and programmed with instructions in the non-transitory memory to monitor battery cell charge and discharge states and numbers of cycles and to transfer, automatically upon coupling of the battery to the first coupled battery-powered device, a new version of processor-executable code stored in the non-transitory memory of the battery to a non-transitory memory of the first coupled battery-powered device. 2. The battery enclosure of claim 1, wherein the one or more contact assemblies comprise a plurality of contact assemblies, and wherein a first subset of the plurality of contact assemblies provides an electrical power connection between the battery assembly and the first coupled battery-powered device and a second subset of the plurality of contact assemblies provides a data connection between the battery assembly and the first coupled battery-powered device for transferring processor-executable code to the battery-powered tool device. 3. The battery enclosure of claim 1, wherein the PCB includes a battery control element comprising an electronic circuit programmed to provide information on a battery assembly state and/or operating condition. 4. The battery enclosure of claim 1, wherein the memory and processing element of the battery are programmed to transfer data stored in the non-transitory memory of the battery, including battery charge and discharge data, to the non-transitory memory of the first coupled battery-powered tool device. 5. The battery enclosure of claim 4, wherein the memory and processing element of the battery are programmed to transfer data stored in the non-transitory memory of the battery to a non-transitory memory of a second coupled battery powered tool device different from the first coupled battery-powered tool device. 6. The battery enclosure of claim 5, wherein the memory and processing element of the battery are programmed to transfer processor-executable code stored in the non-transitory memory of the battery to a non-transitory memory of a third coupled device, different than the first coupled battery-powered tool device and the second coupled battery-powered tool device, to reprogram executable code in the third coupled device. 7. The battery enclosure of claim 4, wherein the memory and processing element of the battery are programmed to receive data from the non-transitory memory of the first coupled battery-powered tool device and store the received data in the non-transitory memory of the battery. 8. The battery enclosure of claim 7, wherein the memory and processing element of the battery are programmed to transfer the data received from the non-transitory memory of the first coupled battery-powered tool device to a non-transitory memory of a second coupled device-different from the first coupled battery powered device. 9. The battery enclosure of claim 1, wherein the first coupled battery-powered device is a utility locator and processor-executable code stored in the non-transitory memory of the battery is transferred to a non-transitory memory of the utility locator to reprogram executable code in the utility locator for subsequent execution thereon. 10. The battery enclosure of claim 1, wherein the first coupled battery-powered tool device is a camera control unit (CCU) of a video inspection system and processor-executable code stored in the non-transitory memory of the battery is transferred to a non-transitory memory of the CCU to reprogram executable code in the CCU for execution thereon. 11. The battery enclosure of claim 1, wherein the first coupled battery-powered tool device is a video camera system and processor-executable code stored in the non-transitory memory of the battery is transferred to a non-transitory memory of the video camera system to reprogram executable code in the video camera system for execution thereon. 12. A rechargeable battery, comprising: an outer casing assembly;a rechargeable battery assembly including one or more battery cells;a single piece thermally conductive metallic structural housing element substantially enclosing an interior volume and having a top opening for placing the rechargeable battery assembly into the interior volume;a circuit element to electrically couple one or more battery cells of the battery assembly to a battery-powered tool;a vent assembly including one or more openings and a semi-permeable membrane positioned across the one or more openings to allow exchange of gases to and from the interior volume and restrict entry of water into the interior volume; andan electronic circuit including a non-transitory memory storage medium and a processing element programmed to transfer, automatically upon coupling of the battery to the battery-powered device, a new version of processor-executable code stored in the non-transitory memory of the battery to a non-transitory memory of the battery-powered device for replacement of existing executable code thereon,wherein the battery-powered tool is a utility locator, camera control unit of a video inspection system, and a video camera system. 13. The rechargeable battery of claim 12, wherein the non-transitory memory storage medium and processing element are programmed to transfer processor executable code stored in the memory to a non-transitory memory of the battery-powered device to replace a different version of executable code in the battery-powered tool. 14. The rechargeable battery of claim 12, wherein the memory and processing element of the battery are programmed to transfer data stored in the non-transitory memory of the battery to a non-transitory memory of the battery-powered tool. 15. The rechargeable battery of claim 14, wherein the memory and processing element of the battery are programmed to receive data from the non-transitory memory of the battery-powered device and store the received data in the non-transitory memory of the battery. 16. The rechargeable battery of claim 14, wherein the memory and processing element of the battery are programmed to transfer the data received from the non-transitory memory of the battery-powered tool to a second coupled battery-powered tool different from the battery-powered tool.
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