Micro-extrusion printhead with offset orifices for generating gridlines on non-square substrates
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05C-011/00
B05B-007/06
B05C-003/02
B05D-005/12
B05D-005/00
A21C-003/00
B29C-045/00
출원번호
US-0371348
(2012-02-10)
등록번호
US-8875653
(2014-11-04)
발명자
/ 주소
Cobb, Corie Lynn
Solberg, Scott E.
출원인 / 주소
Palo Alto Research Center Incorporated
대리인 / 주소
Bever, Hoffman & Harms, LLP
인용정보
피인용 횟수 :
1인용 특허 :
76
초록▼
A solar cell extrusion printing system that uses a micro-extrusion printhead to print longer central gridlines and one or more pairs of shorter “side” gridlines such that end points of the gridline sets form step patterns on an octagonal (pseudo-square) substrate. The printhead includes a set of cen
A solar cell extrusion printing system that uses a micro-extrusion printhead to print longer central gridlines and one or more pairs of shorter “side” gridlines such that end points of the gridline sets form step patterns on an octagonal (pseudo-square) substrate. The printhead includes a set of central nozzles that receive ink from a first valve by way of a first flow channel to print the longer central gridlines, and additional sets of side nozzles that receive ink from additional valves by way of additional flow channels to print the shorter “side” gridlines. The central nozzles have outlet orifices that offset in the process direction from side outlet orifices of the side nozzles. A start signal is simultaneously sent to the valves such that ink is substantially simultaneously extruded through both the central and side orifices, whereby the extruded ink produces gridline endpoints having the desired step pattern.
대표청구항▼
1. A micro-extrusion system for printing parallel gridlines on a pseudo-square substrate such that the gridlines extend in a process direction, the system comprising: a gridline material feed system for supplying a gridline material along a supply flow path;a micro-extrusion printhead assembly inclu
1. A micro-extrusion system for printing parallel gridlines on a pseudo-square substrate such that the gridlines extend in a process direction, the system comprising: a gridline material feed system for supplying a gridline material along a supply flow path;a micro-extrusion printhead assembly including:a plurality of first nozzle channels, each said first nozzle channel having a first outlet orifice that is disposed in a central cross-process region of said printhead assembly,a first flow channel communicating between a first inlet port and each of said plurality of first nozzle channels,a first set of second nozzle channels, each said second nozzle channel of the first set having a second outlet orifice that is disposed in a first cross-process side region located outside of said central cross-process region;a second set of second nozzle channels, each said second nozzle channel of the second set having a second outlet orifice that is disposed in a second cross-process side region located outside of said central cross-process region, said central cross-process region being located between the first and second cross-process side regions; anda second flow channel communicating between a second inlet port and each said second outlet orifice of said first and second sets of second nozzle channels, wherein each of said first outlet orifices is offset in the process direction from each said second outlet orifice of said first and second sets of second nozzle channels by an offset distance;a first valve disposed in the supply flow path between the gridline material feed system and the first inlet port;a second valve disposed in the supply flow path between the gridline material feed system and the second inlet port; anda controller configured to control operation of the first valve and the second valve such that both the first and second valves open in response to a start signal, and such that both the first and second valves simultaneously initiate extrusion of portions of said gridline material into said printhead at a print start time, whereby front endpoints of gridlines formed by the extruded gridline material form a first step pattern, said controller further configured such that said second valve is closed in response to a first stop command at a second time after the print start time, and such that the first valve is closed in response to a second stop command at a third time after the second start time, whereby back endpoints of gridlines formed by the extruded gridline material form a second step pattern. 2. The micro-extrusion system according to claim 1, wherein said controller is further configured to transmit a second command to the second valve when the pseudo-square substrate is in a second position relative to the printhead, and configured to transmit a third command to the first valve when the pseudo-square substrate is in a third position relative to the printhead. 3. The micro-extrusion system according to claim 1, wherein said micro-extrusion printhead assembly further includes:a first set of third nozzle channels, each said third nozzle channel of the first set having a third outlet orifice that is disposed in a third cross-process side region located outside of said central cross-process region and said first cross-process side region,a second set of third nozzle channels, each said third nozzle channel of the second set having a third outlet orifice that is disposed in a fourth cross-process side region located outside of said central cross-process region and said second cross-process side region; anda third flow channel communicating between a third inlet port and each said third outlet orifice of said first and second sets of third nozzle channels, wherein each of said third outlet orifices is offset in the process direction from each said second outlet orifice of said first and second sets of second nozzle channels by a second offset distance; andwherein the system further includes a third valve disposed between in the supply flow path between the gridline material feed system and the third inlet port; andwherein said controller is further configured to control the third valve such that the first, second and third valves initiate extrusion simultaneously to pass portions of said gridline material into said printhead at said print start time. 4. The micro-extrusion system according to claim 3, wherein said controller is further configured to simultaneously transmit a first command to each of the first, second and third valves when the pseudo-square substrate is in a first position relative to the printhead such that first endpoints of gridlines subsequently formed on the pseudo-square substrate by gridline material extruded from the first, second and third orifices form said first step pattern. 5. The micro-extrusion system according to claim 3, wherein said controller is further configured to transmit a third stop command to the third valve before transmitting the first stop command such that said third valve is operably adjusted from the open operating state to the closed operating state in response to the third stop command to terminate the flow of a third gridline material portion through the third orifices. 6. The micro-extrusion system according to claim 1, wherein said gridline material feed system comprises a pressurized container disposed such that said gridline material is supplied in a first portion of said supply flow path at a first pressure; andwherein said controller is further configured to transmit a first command to said first and second valves, whereby each of said first and second valves is operably adjusted from a closed operating state to an associated open operating state such that a corresponding portion of the gridline material is passed by each of said first and second valves through said first and second inlet ports into said printhead at a corresponding inlet pressure. 7. The micro-extrusion system according to claim 6, wherein each of the first and second valves is individually calibrated to produce said corresponding inlet pressures such that an outlet flow rate of said gridline material extruded through said first outlet orifices is substantially equal to an outlet flow rate of said gridline material extruded through said second outlet orifices. 8. The micro-extrusion system according to claim 7, wherein each of the first and second valves comprises: an outer case defining an inner chamber, a valve inlet port and a valve outlet port;a fixed seal structure disposed inside the outer case between a first chamber portion and a second chamber portion, the fixed seal structure including a seal that defines a central opening;an actuator disposed outside of the outer case; anda piston including a shaft having a first end operably connected to the actuator and a second end extending into the first chamber portion, and a stopper fixedly attached to the second end of the shaft,wherein when each of said first and second valves is in the opened operating state, the actuator pushes the piston into the outer case such that the stopper is disposed in the second chamber portion, whereby gridline material entering the first chamber portion through the valve inlet port passes through the central opening into the second chamber portion and out of the outer case by way of the valve outlet port, andwherein when each of said first and second valves is in the closed operating state, the stopper is disposed in the central opening such that the flow of gridline material through said central opening is prevented. 9. The micro-extrusion system according to claim 1, a sacrificial material feed system for supplying a sacrificial material along a second supply flow path;a third valve disposed in the second supply flow path between the sacrificial material feed system and a third inlet port defined in said printhead;a fourth valve disposed in the second supply flow path between the sacrificial material feed system and a fourth inlet port defined in said printhead; andwherein said controller is further configured to control said third and fourth valves such that said sacrificial material is simultaneously supplied into said printhead at said print start time; andwherein said printhead is constructed such that such that said gridline material and said sacrificial material are simultaneously co-extruded through said first outlet orifices to form said first gridline structures, and through said second outlet orifices to form said second gridline structures, wherein each of said first and second gridline structures comprise a central high-aspect ratio gridline material structure disposed between two sacrificial material portions. 10. The micro-extrusion system according to claim 9, wherein said controller is further configured to transmit simultaneously a first command to an actuator of each of said first, second, third and fourth valves such that each said actuator positions a stopper away from a seal structure, whereby said first and second valves are operably adjusted into open operating states such that a first portion of the gridline material is passed by said first valve through said first inlet port and is extruded through said first outlet orifices, and such that a second portion of the gridline material is passed by said second valve through said second inlet port and is extruded through said second outlet orifices, and whereby said third and fourth valves are operably adjusted into open operating states such that a first portion of the sacrificial material is passed by said third valve through said third inlet port and is co-extruded with said first portion of the gridline material through said first outlet orifices, and such that a second portion of the sacrificial material is passed by said fourth valve through said fourth inlet port and is co-extruded with said second portion of the gridline material through said second outlet orifices. 11. The micro-extrusion system according to claim 9, wherein said controller is further configured to transmit a second command to said actuator to each of said second and fourth valves when the pseudo-square substrate is in a second position relative to the printhead, and configured to transmit a third command to each of the first and third valves when the pseudo-square substrate is in a third position relative to the printhead. 12. The micro-extrusion system according to claim 9, wherein said gridline material feed system comprises a first pressurized container disposed such that said gridline material is supplied in a first portion of said supply flow path at a first initial pressure;wherein said sacrificial material feed system comprises a second pressurized container disposed such that said sacrificial material is supplied in a first portion of said second supply flow path at a second initial pressure; andwherein said controller is further configured to transmit simultaneously a first command to each of said first, second, third and fourth valves, whereby each of said first and second valves is operably adjusted from a closed operating state to an associated open operating state such that a corresponding portion of the gridline material is passed by each of said first and second valves through said first and second inlet ports into said printhead at a corresponding inlet pressure, and such that a corresponding portion of the sacrificial material is passed by each of said third and fourth valves through said third and fourth inlet ports into said printhead at a corresponding inlet pressure. 13. The micro-extrusion system according to claim 12, wherein each of said first, second, third and fourth valves comprise: an outer case defining an inner chamber, a valve inlet port and a valve outlet port;a fixed seal structure disposed inside the outer case between a first chamber portion and a second chamber portion, the fixed seal structure including a seal that defines a central opening;an actuator disposed outside of the outer case; anda piston including a shaft having a first end operably connected to the actuator and a second end extending into the first chamber portion, and a stopper fixedly attached to the second end of the shaft,wherein when each of said first and second valves is in the opened operating state, the actuator pushes the piston into the outer case such that the stopper is disposed in the second chamber portion, whereby material entering the first chamber portion through the valve inlet port passes through the central opening into the second chamber portion and out of the outer case by way of the valve outlet port, andwherein when each of said first and second valves is in the closed operating state, the stopper is disposed in the central opening such that the flow of material through said central opening is prevented. 14. The micro-extrusion system according to claim 13, wherein the piston of each of said first, second, third and fourth valves is operably positioned inside said outer casing when said each of said first, second, third and fourth valves is in the opened operating position such that both the gridline material and the sacrificial material are co-extruded from the first and second outlet orifices at a common outlet flow rate.
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