Piston stroke sensor arrangement for a brake unit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-017/22
F16D-065/28
F16D-066/00
B60T-013/66
출원번호
US-0483329
(2014-09-11)
등록번호
US-9616875
(2017-04-11)
발명자
/ 주소
Finch, Jr., Glyn A.
Koon, Maria
Mathern, Peter D.
출원인 / 주소
Westinghouse Air Brake Technologies Corporation
대리인 / 주소
The Webb Law Firm
인용정보
피인용 횟수 :
0인용 특허 :
64
초록▼
A piston stroke sensor arrangement for a brake unit includes a brake unit including a piston and a piston tube, and a proximity sensor supported on the brake unit. The proximity sensor may determine the location of the piston within the brake unit based on the position of the piston tube relative to
A piston stroke sensor arrangement for a brake unit includes a brake unit including a piston and a piston tube, and a proximity sensor supported on the brake unit. The proximity sensor may determine the location of the piston within the brake unit based on the position of the piston tube relative to the proximity sensor. The proximity sensor may be an inductive proximity sensor. A groove may be defined in an outer circumferential surface of the piston tube. When the brake unit is in a non-applied position, the proximity sensor may detect metal of the piston tube. When the brake unit is in an applied position, the proximity sensor may not detect the metal of the piston tube.
대표청구항▼
1. A piston stroke sensor arrangement for a brake unit, comprising: the brake unit comprising a piston, a piston tube, a spindle provided within the piston tube, and a collet provided on the spindle, the spindle extending within the piston tube from a first end of the piston tube to an opposing seco
1. A piston stroke sensor arrangement for a brake unit, comprising: the brake unit comprising a piston, a piston tube, a spindle provided within the piston tube, and a collet provided on the spindle, the spindle extending within the piston tube from a first end of the piston tube to an opposing second end of the piston tube; anda proximity sensor supported on the brake unit,wherein the proximity sensor determines the location of the piston within the brake unit based on the position of the piston tube relative to the proximity sensor,wherein a groove is defined in an outer circumferential surface of the piston tube, andwherein, when the brake unit is in an applied position, the proximity sensor is directed towards the groove on the piston tube and does not detect metal of the piston tube,wherein, when the brake unit is in a non-applied position, the proximity sensor is directed towards a portion of the piston tube that does not include the groove and detects the metal of the piston tube, andwherein the piston tube is in direct contact with the piston so that, as the piston is moved within the brake unit, the piston tube and the spindle are also moved within the brake unit. 2. The piston stroke sensor arrangement as claimed in claim 1, the proximity sensor further comprising an inductive proximity sensor. 3. The piston stroke sensor arrangement as claimed in claim 1, wherein a protrusion is provided on an outer circumferential surface of the piston tube, and wherein, when the brake unit is applied, the proximity sensor is directed towards the protrusion on the piston tube, andwherein, when the brake unit is not applied, the proximity sensor is not directed towards the protrusion on the piston tube. 4. The piston stroke sensor arrangement as claimed in claim 1, further comprising an air pressure indicator in fluid communication between a fluid source and the brake unit, and a notification device connected to the proximity sensor and the air pressure indicator,wherein the air pressure indicator is configured to send information to the notification device identifying the amount of air pressure being supplied to the brake unit, andwherein information from the proximity sensor is directed to the notification device to identify a position of the piston in the brake unit. 5. The piston stroke sensor arrangement as claimed in claim 1, the brake unit further comprising a disc brake unit. 6. The piston stroke sensor arrangement as claimed in claim 1, wherein the proximity sensor is configured to detect when the piston of the brake unit is positioned in an over-stroke position. 7. The piston stroke sensor arrangement as claimed in claim 1, the brake unit further comprising an anchor flange that supports the piston and the piston tube, wherein the proximity sensor is positioned in the anchor flange adjacent the piston tube. 8. A railway vehicle with a piston stroke sensor arrangement, comprising: the railway vehicle comprising a brake unit, the brake unit comprising a piston, a piston tube, a spindle provided within the piston tube, and a collet provided on the spindle the spindle extending within the piston tube from a first end of the piston tube to an opposing second end of the piston tube; anda proximity sensor positioned on the brake unit,wherein the proximity sensor determines the location of the piston within the brake unit based on the position of the piston tube relative to the proximity sensor,wherein a groove is defined in an outer circumferential surface of the piston tube, andwherein, when the brake unit is applied, the proximity sensor is directed towards the groove on the piston tube and does not detect metal on the piston tube,wherein, when the brake unit is not applied, the proximity sensor is directed towards a portion of the piston tube that does not include the groove and detects the metal on the piston tube, andwherein the piston tube is in direct contact with the piston so that, as the piston is moved within the brake unit, the piston tube and the spindle are also moved within the brake unit. 9. The railway vehicle as claimed in claim 8, the proximity sensor further comprising an inductive proximity sensor. 10. The railway vehicle as claimed in claim 8, wherein a protrusion is provided on an outer circumferential surface of the piston tube, and wherein, when the brake unit is applied, the proximity sensor is directed towards the protrusion on the piston tube, andwherein, when the brake unit is not applied, the proximity sensor is not directed towards the protrusion on the piston tube. 11. The railway vehicle as claimed in claim 8, further comprising an air pressure indicator positioned in fluid communication between a fluid source and the brake unit, and a notification device connected to the proximity sensor and the air pressure indicator,wherein the air pressure indicator is configured to send information to the notification device identifying the amount of air pressure being supplied to the brake unit, andwherein information from the proximity sensor is directed to the notification device to identify a position of the piston in the brake unit. 12. The railway vehicle as claimed in claim 8, the brake unit further comprising a disc brake unit. 13. The railway vehicle as claimed in claim 8, wherein the proximity sensor is configured to detect when the piston of the brake unit is positioned in an over-stroke position. 14. The railway vehicle as claimed in claim 8, the brake unit further comprising an anchor flange that supports the piston and piston tube, wherein the proximity sensor is positioned in the anchor flange adjacent the piston tube. 15. A method of determining a piston stroke position for a brake unit, comprising the steps of: a) providing the brake unit comprising: a piston, a piston tube, a spindle provided within the piston tube, and a collet provided on the spindle, the spindle extending within the piston tube from a first end of the piston tube to an opposing second end of the piston tube; anda proximity sensor positioned on the brake unit;b) emitting a detection signal from the proximity sensor to the piston tube; andc) determining the position of the piston within the brake unit based on the position of the piston tube relative to the detection signal emitted from the proximity sensor,wherein a groove is defined in an outer circumferential surface of the piston tube,wherein, when the brake unit is applied, the detection signal emitted from the proximity sensor is directed towards the groove on the piston tube and does not detect metal on the piston tube,wherein, when the brake unit is not applied, the detection signal emitted from the proximity sensor is directed towards a portion of the piston tube that does not include the groove and detects the metal on the piston tube, andwherein the piston tube is in direct contact with the piston so that, as the piston is moved within the brake unit, the piston tube and the spindle are also moved within the brake unit.
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