Method to detect and remove gas bubbles from molten substrate to prevent hollow fiber formation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C03B-037/02
C03B-037/07
B29C-047/92
B29C-047/00
B29C-047/08
C03B-037/012
C03B-005/225
C03B-005/24
C03B-037/085
C03B-005/26
C03B-007/00
C03B-007/02
B29L-031/00
출원번호
US-0803899
(2015-07-20)
등록번호
US-10081125
(2018-09-25)
발명자
/ 주소
Czaplewski, Sarah K.
Kuczynski, Joseph
Wertz, Jason T.
Zhang, Jing
출원인 / 주소
International Business Machines Corporation
대리인 / 주소
Patterson + Sheridan, LLP
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
Method and apparatus for removing bubbles from a molten substrate. The molten substrate from a furnace passes through a downtube to reach additional manufacturing tools, such as an extrusion bushing. One or more ultrasonic sensors are arranged along the downtube. The ultrasonic sensor(s) transmit ul
Method and apparatus for removing bubbles from a molten substrate. The molten substrate from a furnace passes through a downtube to reach additional manufacturing tools, such as an extrusion bushing. One or more ultrasonic sensors are arranged along the downtube. The ultrasonic sensor(s) transmit ultrasonic energy into the molten substrate and measure a characteristic of the ultrasonic energy, such as a propagation time for the ultrasonic energy to be reflected back to the ultrasonic sensor(s). A bubble is detected when a change in the characteristic of the ultrasonic energy is detected. When a bubble is detected, flow through the downtube is diverted to a duct to remove a slug of molten substrate that includes the bubble.
대표청구항▼
1. An apparatus for supplying a molten substrate, the apparatus comprising: a downtube adapted to receive the molten substrate at an upstream end of the downtube and to distribute the molten substrate at a downstream end of the downtube;an ultrasonic sensor arranged along the downtube, wherein the u
1. An apparatus for supplying a molten substrate, the apparatus comprising: a downtube adapted to receive the molten substrate at an upstream end of the downtube and to distribute the molten substrate at a downstream end of the downtube;an ultrasonic sensor arranged along the downtube, wherein the ultrasonic sensor is operable to detect bubbles in the molten substrate in the downtube; anda duct arranged along the downtube, wherein the duct is operable to remove a slug of the molten substrate from the downtube upon the ultrasonic sensor detecting a bubble in the molten substrate. 2. The apparatus of claim 1, wherein the slug of molten substrate removed from the downtube includes the detected bubble. 3. The apparatus of claim 1, further comprising: a valve arranged in the duct, wherein the valve is movable between an open position and a closed position, and wherein molten substrate can pass through the valve when the valve is in the open position;a vacuum arranged downstream of the valve, wherein the vacuum siphons the slug of molten substrate into the duct when the valve is in the open position; anda controller communicatively connected to the ultrasonic sensor and programmed to move the valve to the open position upon receiving a signal representing the ultrasonic sensor detecting the bubble in the slug of molten substrate. 4. The apparatus of claim 3, further comprising a second ultrasonic sensor arranged along the duct downstream of the valve, wherein the second ultrasonic sensor is operable to detect bubbles in molten substrate in the duct, and wherein the controller is communicatively connected to the second ultrasonic sensor and programmed to move the valve to the closed position upon receiving a signal representing the second ultrasonic detector detecting the bubble in the duct. 5. The apparatus of claim 1, further comprising: a diverting valve arranged along the downtube, wherein the diverting valve is movable between a stowed position and a diverting position, and wherein the diverting valve diverts molten substrate into the duct when the diverting valve is in the diverting position; anda controller operable to move the diverting valve to the diverting position upon the ultrasonic sensor detecting the bubble in the slug of molten substrate. 6. The apparatus of claim 5, further comprising a second ultrasonic sensor arranged along the duct downstream of the diverting valve, wherein the second ultrasonic sensor is operable to detect bubbles in molten substrate in the duct, and wherein the controller is operable to move the diverting valve to the stowed position upon the second ultrasonic detector detecting the bubble in the duct. 7. The apparatus of claim 1, further comprising a second ultrasonic sensor arranged along the downtube downstream of the duct. 8. The apparatus of claim 1, wherein the ultrasonic sensor comprises an array of ultrasonic sensors arranged around a perimeter of the downtube, and wherein the duct is operable to remove the slug of molten substrate from the downtube upon at least one of the ultrasonic sensors detecting the bubble in the slug of molten substrate. 9. The apparatus of claim 8, further comprising a controller operable to detect a position of the bubble in the downtube, and wherein the duct comprises a plurality of ducts arranged around a perimeter of the downtube, wherein the plurality of ducts include respective valves arranged in the ducts, and wherein the controller is operable to open at least one of the valves associated with at least one duct that is closest to the detected position of the bubble in the downtube. 10. The apparatus of claim 1, wherein the molten substrate comprises one of: molten glass, molten electronic grade glass, and molten plastic. 11. An apparatus for forming fibers from a molten substrate, the apparatus comprising: a furnace operable to melt a substrate supply into a molten substrate;a downtube that includes an upstream opening and a downstream opening, wherein the upstream opening is in fluid communication with an outlet of the furnace, the downtube including: an ultrasonic sensor arranged along the downtube, wherein the ultrasonic sensor is operable to detect bubbles in the molten substrate in the downtube; anda duct arranged along the downtube, wherein the duct is operable to remove a slug of molten substrate upon the ultrasonic sensor detecting a bubble in the slug of molten substrate;a bushing in fluid communication with the downstream end of the downtube, wherein the bushing includes a plurality of extrusion ports therethrough; anda winding apparatus operable to pull threads of molten substrate through the extrusion ports and form the threads into a winding of threads. 12. The apparatus of claim 11, wherein the slug of molten substrate removed from the downtube includes the detected bubble. 13. The apparatus of claim 11, further comprising a second downtube that includes an upstream end opening and a downstream opening, wherein the upstream opening of the downtube is in fluid communication with an outlet from the furnace, and wherein the downstream opening of the second downtube is in fluid communication with the bushing, the second downtube including: a second ultrasonic sensor arranged along the second downtube, wherein the second ultrasonic sensor is operable to detect bubbles in the molten substrate in the second downtube; anda second duct arranged along the second downtube, wherein the second duct is operable to remove a slug of molten substrate upon the second ultrasonic sensor detecting a bubble in the slug of molten substrate in the second downtube. 14. The apparatus of claim 11, wherein the winding apparatus pulls the threads of molten substrate at a reduced rate while the duct removes the slug of molten substrate. 15. The apparatus of claim 11, further comprising a second ultrasonic sensor arranged along the downtube at a downstream location relative to the duct, wherein the second ultrasonic sensor is operable to detect bubbles in the molten substrate at the downstream location, and wherein the winding apparatus is operable to mark a length of the formed threads after the second ultrasonic sensor detects a bubble in the molten substrate at the downstream location.
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이 특허에 인용된 특허 (12)
Bondybey Vladimir Edmund (Fanwood NJ) Brus Louis Eugene (Madison NJ) Payne Irene Dion (Chatham NJ) Rentzepis Peter Michael (Millington NJ), Detecting optical fiber defects.
Bailey Wilbur M. (Tucson AZ) Hulderman George H. (Tucson AZ) Jones Vincent L. (Simi Valley CA) Pikulski Joseph L. (Westlake CA) Standlee Arlie G. (Thousand Oaks CA) Tangonan Gregory L. (Oxnard CA) Vi, Optic fiber buffer defect detection system.
DeGreve Stanley C. (Allison Park PA) Lovelace Joe B. (Salisbury NC) Watkins E. Charles (Lexington NC) Mathis Timothy G. (Kings Mountain NC) Makitka Harry (Clemmons NC) Bour Thomas C. (Glenshaw PA) Co, Production of glass fibers from scrap glass fibers.
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