Apparatus, method and article for collection, charging and distributing power storage devices, such as batteries
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
G07C-005/08
G07C-005/00
H01M-010/42
G01C-021/34
G06Q-030/02
G06Q-030/06
H02J-004/00
E05B-081/56
B60L-003/00
B60L-011/00
B60L-011/18
G06Q-010/02
H01M-010/44
H01M-010/48
출원번호
US-0559314
(2012-07-26)
등록번호
US-9129461
(2015-09-08)
발명자
/ 주소
Luke, Hok-Sum Horace
Taylor, Matthew Whiting
Hung, Huang-Cheng
출원인 / 주소
Gogoro Inc.
대리인 / 주소
Seed IP Law Group PLLC
인용정보
피인용 횟수 :
2인용 특허 :
82
초록▼
A collection, charging and distribution machine collects, charges and distributes portable electrical energy storage devices (e.g., batteries, super- or ultracapacitors). To charge, the machine employs electrical current from an external source, such as the electrical grid or an electrical service o
A collection, charging and distribution machine collects, charges and distributes portable electrical energy storage devices (e.g., batteries, super- or ultracapacitors). To charge, the machine employs electrical current from an external source, such as the electrical grid or an electrical service of an installation location. The machine determines a first number of devices to be rapidly charged, employing charge from a second number of devices identified to sacrifice charge. Thus, some devices may be concurrently charged via current from the electrical service and current from other devices, to achieve rapid charging of some subset of devices. The devices that sacrifice charge may later be charged. Such may ensure availability of devices for end users.
대표청구항▼
1. A method of operating at least one distribution, collection and charging machine for distribution, collection and charging of portable electrical energy storage devices, the method comprising: identifying by a control subsystem a first number of portable electrical energy storage devices currentl
1. A method of operating at least one distribution, collection and charging machine for distribution, collection and charging of portable electrical energy storage devices, the method comprising: identifying by a control subsystem a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine, wherein identifying a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine includes identifying for accelerated charging at least one portable electrical energy storage device which is over halfway to being fully charged;charging by a charging subsystem the first number of portable electrical energy storage devices via an electrical service, where the electrical service has an associated limiting rating; andcharging by the charging subsystem the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices concurrently with the charging of the first number of portable electrical energy storage devices via the electrical service. 2. The method of claim 1, further comprising: identifying as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is less than halfway to being fully charged. 3. The method of claim 1, further comprising: identifying as part of the second number of portable electrical energy storage devices any portable electrical energy storage device which are below a first threshold of being fully charged and which are also above a second threshold of being fully depleted. 4. The method of claim 1 wherein identifying a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine includes identifying for accelerated charging at least one portable electrical energy storage device which is more fully charged than at least another portable electrical energy storage device. 5. The method of claim 1 wherein charging the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices concurrently with the charging via the electrical service includes charging includes charging at least one more fully charged portable electrical energy storage device using energy from at least one less fully charged portable electrical energy storage device. 6. The method of claim 1 wherein identifying a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine further includes identifying for accelerated charging at least one portable electrical energy storage device which is less than halfway to being fully charged, and identifying as part of the second number of portable electrical energy storage devices at least another portable electrical energy storage device which is more than halfway to being fully charged. 7. The method of claim 1, further comprising: identifying as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is more than halfway to being fully charged. 8. The method of claim 7, further comprising: identifying as part of the second number of portable electrical energy storage devices any portable electrical energy storage devices which are more than approximately 80-85 percent fully charged. 9. The method of claim 1 wherein identifying a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine includes identifying for accelerated charging at least one portable electrical energy storage device which is less fully charged than at least another portable electrical energy storage device. 10. The method of claim 9 wherein charging the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices concurrently with the charging via the electrical service includes charging includes charging at least one more fully charged portable electrical energy storage devices using energy from at least one less fully charged portable electrical energy storage device. 11. The method of claim 1, further comprising: identifying as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is to sacrifice charge. 12. The method of claim 1, further comprising: removably receiving an at least partially discharged portable electrical energy storage device at a first position of the first distribution, collection and charging machine at a first time, and wherein the identifying the first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate is performed in response to the receiving of the at least partially discharged portable electrical energy storage device at the first position of the first distribution, collection and charging machine at the first time. 13. The method of claim 12 wherein removably receiving an at least partially discharged portable electrical energy storage device at a first position of the first distribution, collection and charging machine at a first time includes removably receiving a battery sized to power a personal vehicle. 14. The method of claim 1, further comprising: detecting an insertion of a portable electrical energy storage device at one of a plurality of positions of the first distribution, collection and charging machine; anddetermining a charge state of the inserted portable electrical energy storage device. 15. The method of claim 1, further comprising: repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time. 16. The method of claim 15 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time is based at least in part on a current charge condition of the portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine and a rate of charging for at least one of the portable electrical energy storage devices. 17. The method of claim 15 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time is based at least in part on a presence or absence of the portable electrical energy storage devices at the first distribution, collection and charging machine. 18. The method of claim 15 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time is based at least in part on a total number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine and a respective charge state of each of the portable electrical energy storage devices. 19. The method of claim 18 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time is based at least in part on a total cumulative charge available from a number of portable electrical energy storage devices identified as available to sacrifice charge for charging the portable electrical energy storage devices to be charged at the accelerated rate. 20. The method of claim 1 wherein charging the first number of portable electrical energy storage devices via an electrical service includes conductively supplying electrical current to the first number of portable electrical energy storage devices via mains of an electrical service panel supplied via a metered electrical service from an external electrical grid, and wherein charging the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices includes conductively supplying electrical current from the second number of portable electrical energy storage devices. 21. A distribution, collection and charging machine for distribution, collection and charging of portable electrical energy storage devices, comprising: a number of receivers each sized and dimensioned to removably receive respective portable electrical energy storage devices;a control subsystem including at least one controller that identifies a first number of portable electrical energy storage devices currently removably located at the distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the distribution, collection and charging machine, wherein the at least one controller identifies for accelerated charging at least one portable electrical energy storage device based on the at least one portable electrical energy storage device having a respective charge state that is over halfway to being fully charged; anda charging subsystem responsive to the at least one controller to charge the first number of portable electrical energy storage devices via an electrical service and to concurrently charge the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices. 22. The distribution, collection and charging machine of claim 21 wherein the at least one controller further identifies as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device based on the at least one portable electrical energy storage device having a respective charge state that is less than halfway to being fully charged. 23. The distribution, collection and charging machine of claim 21 wherein the at least one controller further identifies as part of the second number of portable electrical energy storage devices any portable electrical energy storage device which has a respective charge state that is between a first threshold of being fully charged and a second threshold of being fully depleted. 24. The distribution, collection and charging machine of claim 21 wherein the at least one controller identifies for accelerated charging at least one portable electrical energy storage device which is more fully charged than at least another portable electrical energy storage device. 25. The distribution, collection and charging machine of claim 24 wherein the charging subsystem charges at least one more fully charged portable electrical energy storage devices using energy from at least one less fully charged portable electrical energy storage device. 26. The distribution, collection and charging machine of claim 21 wherein the at least one controller further identifies for accelerated charging at least one portable electrical energy storage device based on a respective charge state being less than halfway to fully charged, and identifies as part of the second number of portable electrical energy storage devices at least another portable electrical energy storage device based on a respective charge state being more than halfway to fully charged. 27. The distribution, collection and charging machine of claim 21 wherein the at least one controller identifies as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is more than halfway to being fully charged. 28. The distribution, collection and charging machine of claim 27 wherein the at least one controller further identifies as part of the second number of portable electrical energy storage devices any portable electrical energy storage devices which are more than approximately 80-85 percent fully charged. 29. The distribution, collection and charging machine of claim 21 wherein the at least one controller identifies for accelerated charging at least one portable electrical energy storage device which is less fully charged than at least another portable electrical energy storage device. 30. The distribution, collection and charging machine of claim 29 wherein the charging subsystem charges at least one more fully charged portable electrical energy storage devices using energy from at least one less fully charged portable electrical energy storage device. 31. The distribution, collection and charging machine of claim 21 wherein the at least one controller further identifies as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is to sacrifice charge. 32. The distribution, collection and charging machine of claim 21 wherein the at least one controller identifies the first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate is performed in response to detection of receipt of an at least partially discharged portable electrical energy storage device at a first one of the receivers of the distribution, collection and charging machine at the first time. 33. The distribution, collection and charging machine of claim 21 wherein at least partially discharged portable electrical energy storage device removably received at the first one of the receivers of the first distribution, collection and charging machine is a battery sized to power a personal vehicle. 34. The distribution, collection and charging machine of claim 21 further comprising: a first number sensors positioned and operable to detect a presence or absence of a portable electrical energy storage device at any of the receivers of the distribution, collection and charging machine; anda second number of sensors positioned and operable to detect a charge state of any portable electrical energy storage device received in a respective one of the receivers of the distribution, collection and charging machine. 35. The distribution, collection and charging machine of claim 21 wherein the at least one controller repeatedly updates the portable electrical energy storage devices identified for charging at an accelerated rate. 36. The distribution, collection and charging machine of claim 35 wherein the at least one controller repeatedly updates the portable electrical energy storage devices identified for charging at an accelerated rate based at least in part on a current charge condition of the portable electrical energy storage devices currently removably located in respective receivers of the distribution, collection and charging machine. 37. The distribution, collection and charging machine of claim 35 wherein the at least one controller repeatedly updates the portable electrical energy storage devices identified for charging at an accelerated rate based at least in part on a presence or absence of the portable electrical energy storage devices in the receivers of the distribution, collection and charging machine. 38. The distribution, collection and charging machine of claim 35 wherein the at least one controller repeatedly updates the portable electrical energy storage devices identified for charging at an accelerated rate based at least in part on a total number of portable electrical energy storage devices currently removably received by respective receivers of the distribution, collection and charging machine and a respective charge state of each of the portable electrical energy storage devices currently removably received by respective receivers of the distribution, collection and charging machine. 39. The distribution, collection and charging machine of claim 35 wherein the at least one controller repeatedly updates the portable electrical energy storage devices identified for charging at an accelerated rate based at least in part on a total cumulative charge available from a number of portable electrical energy storage devices identified as available to sacrifice charge for charging the portable electrical energy storage devices to be charged at the accelerated rate. 40. The distribution, collection and charging machine of claim 21 wherein the charging subsystem is electrically coupled to receive electrical power from the electrical service via mains of an electrical service panel supplied via a metered electrical service from an external electrical grid, and wherein the charging subsystem includes a power converter operable to convert at least one of a voltage, a phase or a current of electrical power received from the metered electrical service to a form suitable for charging a portable battery sized for use in a two wheeled personal transportation vehicle. 41. The distribution, collection and charging machine of claim 21 and further comprising: a number of electrical contacts positioned in respective ones of the receivers to electrically couple with any of the portable electrical energy storage devices removably received by the receiver;a first plurality of switches operable in response to the controller to selectively electrically couple respective ones of the electrical contacts to the power converter; anda second plurality of switches operable in response to the controller to selectively electrically couple respective ones of the electrical contacts to other ones of the electrical contacts. 42. A nontransitory computer-readable medium that stores instructions executable by a processor to operate a distribution, collection and charging machine for distribution, collection and charging of portable electrical energy storage devices, by: identifying by the processor a first number of portable electrical energy storage devices currently removably located at a first distribution, collection and charging machine to be charged at an accelerated rate relative to at least a second number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine, wherein identifying by the processor includes identifying for accelerated charging at least one portable electrical energy storage device which is over halfway to being fully charged;causing a charging subsystem to charge the first number of portable electrical energy storage devices via an electrical service, where the electrical service has an associated limiting rating; andcausing the charging system to charge the charging subsystem the first number of portable electrical energy storage devices via energy supplied from at least the second number of portable electrical energy storage devices concurrently with the charging of the first number of portable electrical energy storage devices via the electrical service. 43. The nontransitory computer-readable medium of claim 42 wherein the instructions further cause the controller to identify the second number of portable electrical energy storage devices as including any portable electrical energy storage device which is below a first threshold of being fully charged and which is also above a second threshold of being fully depleted. 44. The nontransitory computer-readable medium of claim 42 wherein the processor identifies the first number of portable electrical energy storage devices to be charged at an accelerated rate by identifying for accelerated charging at least one portable electrical energy storage device which is more fully charged than at least another portable electrical energy storage device. 45. The nontransitory computer-readable medium of claim 44 wherein the instructions cause the charging circuit to charge the at least one more fully charged portable electrical energy storage device using energy from the at least one less fully charged portable electrical energy storage device. 46. The nontransitory computer-readable medium of claim 42 wherein the controller identifies the first number of portable electrical energy storage devices to be charged at an accelerated rate by identifying for accelerated charging at least one portable electrical energy storage device which is less fully charged than at least another portable electrical energy storage device. 47. The nontransitory computer-readable medium of claim 46 wherein the instructions cause the processor to cause the charging circuit to charge at least one more fully charged portable electrical energy storage devices using energy from at least one less fully charged portable electrical energy storage device. 48. The nontransitory computer-readable medium of claim 42 wherein the instructions further cause the processor to identify as part of the second number of portable electrical energy storage devices at least one portable electrical energy storage device which is to sacrifice charge. 49. The nontransitory computer-readable medium of claim 42 further comprising: repeatedly detecting insertion of any portable electrical energy storage device at any of a plurality of receivers of the first distribution, collection and charging machine;determining a charge state of the inserted portable electrical energy storage device; andrepeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate over time. 50. The nontransitory computer-readable medium of claim 49 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate is based at least in part on a current charge condition of the portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine. 51. The nontransitory computer-readable medium of claim 49 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate is based at least in part on a presence or absence of the portable electrical energy storage devices at the first distribution, collection and charging machine. 52. The nontransitory computer-readable medium of claim 49 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate is based at least in part on a total number of portable electrical energy storage devices currently removably located at the first distribution, collection and charging machine and a respective charge state of each of the portable electrical energy storage devices. 53. The nontransitory computer-readable medium of claim 49 wherein the repeatedly updating the portable electrical energy storage devices identified for charging at an accelerated rate is based at least in part on a total cumulative charge available from a number of portable electrical energy storage devices identified as available to sacrifice charge for charging the portable electrical energy storage devices to be charged at the accelerated rate.
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