In one aspect, an input device includes a housing, an element on at least a portion of the housing for providing input to a touch-enabled display, a battery compartment in the housing in which a battery may be positioned, and a vent through the housing which permits gas from the battery to pass to e
In one aspect, an input device includes a housing, an element on at least a portion of the housing for providing input to a touch-enabled display, a battery compartment in the housing in which a battery may be positioned, and a vent through the housing which permits gas from the battery to pass to exterior to the housing.
대표청구항▼
1. A stylus, comprising: a first at least partially cylindrical element at least in part establishing a body of the stylus; anda second at least partially cylindrical element which telescopes with the first at least partially cylindrical element to permit gas to pass out of the stylus;wherein at lea
1. A stylus, comprising: a first at least partially cylindrical element at least in part establishing a body of the stylus; anda second at least partially cylindrical element which telescopes with the first at least partially cylindrical element to permit gas to pass out of the stylus;wherein at least a portion of the second at least partially cylindrical element telescopes at least partially inside the first at least partially cylindrical element, and wherein at least a portion of the second at least partially cylindrical element telescopes at least partially away from the first at least partially cylindrical element under pressure of gas from at least one battery positioned in the stylus to permit gas to pass through a vent out of the stylus. 2. The stylus of claim 1, comprising: a battery chamber for housing the at least one battery; anda path which fluidly connects the battery chamber to the vent, wherein the vent permits gas to pass out of the stylus at least while the second at least partially cylindrical element is telescoped at least partially away from the first at least partially cylindrical element. 3. The stylus of claim 2, wherein the path is blockable at least in part based on positioning of at least a portion of the first at least partially cylindrical element against at least a portion of the second at least partially cylindrical element. 4. The stylus of claim 3, wherein at least a portion of the first at least partially cylindrical element is positionable against at least a portion of the second at least partially cylindrical element to block the path at least in part based on user-applied force of one of the first and second at least partially cylindrical element toward the other of the first and second at least partially cylindrical element. 5. The stylus of claim 3, wherein at least a portion of the first at least partially cylindrical element is positionable against at least a portion of the second at least partially cylindrical element to block the path at least in part based on spring bias of a spring in the stylus which pushes at least a portion of at least one of the first and second at least partially cylindrical elements toward at least a portion of the other of the first and second at least partially cylindrical elements. 6. The stylus of claim 2, wherein the battery chamber houses at least one at least partially cylindrical battery. 7. The stylus of claim 2, wherein at least a portion of the path is parallel to a longitudinal axis defined by the stylus. 8. The stylus of claim 2, wherein at least a portion of the first at least partially cylindrical element that is orthogonal to a longitudinal axis defined by the stylus abuts at least a portion of the second at least partially cylindrical element to block the path. 9. The stylus of claim 1, wherein the second at least partially cylindrical element at least in part houses the at least one battery. 10. The stylus of claim 9, wherein the second at least partially cylindrical element which houses the at least one battery narrows at least at a portion thereof, and wherein the narrowed portion of the second at least partially cylindrical element exerts a force on the at least one battery during the telescoping of the second at least partially cylindrical element at least partially away from the first at least partially cylindrical element to move the at least one battery with the second at least partially cylindrical element as the second at least partially cylindrical element telescopes at least partially away from the first at least partially cylindrical element. 11. The stylus of claim 1, wherein the vent is established between the first at least partially cylindrical element and the second at least partially cylindrical element. 12. The stylus of claim 1, wherein the vent is a first vent established between the first at least partially cylindrical element and the second at least partially cylindrical element, and wherein the stylus comprises at least a second vent in the first at least partially cylindrical element through which gas may also pass to out the stylus. 13. The stylus of claim 1, wherein the vent is in the second at least partially cylindrical element. 14. The stylus of claim 1, wherein the vent is a first vent established between the first at least partially cylindrical element and the second at least partially cylindrical element, and wherein the stylus comprises at least a second vent in the second at least partially cylindrical element which fluidly connects to the first vent for gas to pass out the stylus. 15. A method, comprising: providing a battery housing in a stylus, wherein the battery housing positions at least one battery in the battery housing; andproviding a vent on the stylus through which gas emitted from the at least one battery may pass;wherein the stylus comprises a first at least partially cylindrical element at least in part establishing a body of the stylus and comprises a second at least partially cylindrical element, wherein at least a portion of the second at least partially cylindrical element telescopes at least partially inside the first at least partially cylindrical element, and wherein at least a portion of the second at least partially cylindrical element telescopes at least partially away from the first at least partially cylindrical element under pressure of gas from the at least one battery to permit gas to pass through the vent out of the stylus. 16. The method of claim 15, comprising: providing at least one path from the battery housing to the vent through which gas emitted from the at least one battery may pass from the battery housing to the vent. 17. The method of claim 15, wherein at least a portion of the first at least partially cylindrical element is positionable against at least a portion of the second at least partially cylindrical element to block a path for gas to pass to the vent at least in part based on spring bias of a spring in the stylus which pushes at least a portion of at least one of the first and second at least partially cylindrical elements toward at least a portion of the other of the first and second at least partially cylindrical elements. 18. The method of claim 15, wherein the second at least partially cylindrical element comprises the battery housing and the at least one battery is positionable in the second at least partially cylindrical element, and wherein the second at least partially cylindrical element exerts a force on the at least one battery during the telescoping of at least the portion of the second at least partially cylindrical element at least partially away from the first at least partially cylindrical element to move the at least one battery with the second at least partially cylindrical element as at least the portion of the second at least partially cylindrical element telescopes at least partially away from the first at least partially cylindrical element. 19. An input device, comprising: a housing;a processor in the housing;storage which is accessible to the processor, wherein the storage is in the housing;a contact element on the housing which provides input to a touch-enabled display;a battery compartment in the housing in which a battery may be positioned; anda vent through at least a portion of the housing which permits gas from the battery to pass to exterior to the housing;wherein the housing comprises at least a first portion and a second portion, wherein at least part of the second portion telescopes at least partially inside the first portion, and wherein at least part of the second portion is slideably engaged with the first portion for the second portion to slide at least partially away from the first portion under pressure of gas generated by the battery to at least in part permit gas generated by the battery to travel to the vent and to pass through the vent to exterior to the housing. 20. The input device of claim 19, wherein the input device comprises opposing ends relative to a longitudinal axis established by the input device, wherein the vent is a first vent disposed at a first end of the opposing ends, and wherein the input device comprises a second vent disposed at a second end of the opposing ends different from the first end.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (17)
Alhamad Shaikh G. M. Y. (P.O. Box 31590 Riyadh ; 11418 SAX), Anti-explosion pads and their method of use.
Carlson, Jeremy Robert; Estes, Larry Glenn; Holung, Joseph Anthony; Humphrey, Timothy; Wong, Tin-Lup; Yebka, Bouziane, Establishing space between end of center gas pipe in battery and bottom of battery can.
Carlson, Jeremy Robert; Estes, Larry Glenn; Holung, Joseph Anthony; Humphrey, Timothy; Wong, Tin-Lup; Yebka, Bouziane, Mitigating rupture and thermal cascading of battery cells by judicious arrangement of cells inside a pack.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.