Liquid crystal dispensing apparatus having controlling function of dropping amount caused by controlling tension of spring
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-001/30
B67D-003/00
B65B-001/04
B65B-003/04
G02F-001/1341
출원번호
US-0183469
(2002-06-28)
우선권정보
KR-0009656 (2002-02-22)
발명자
/ 주소
Kweon, Hyug Jin
Son, Hae-Joon
출원인 / 주소
LG. Philips LCD Co., Ltd.
대리인 / 주소
McKenna Long & Aldridge LLP
인용정보
피인용 횟수 :
9인용 특허 :
32
초록▼
A liquid crystal dispensing apparatus for controlling the amount of liquid crystal dropped onto a substrate by controlling the tension of a spring. The spring applies a force to a needle that forces the needle toward an opening on the end of the container so as to close the opening. A tension contro
A liquid crystal dispensing apparatus for controlling the amount of liquid crystal dropped onto a substrate by controlling the tension of a spring. The spring applies a force to a needle that forces the needle toward an opening on the end of the container so as to close the opening. A tension controller controls that length of the spring, and thus its force. A solenoid moves the needle against the spring when an electric source is applied to the solenoid such that the opening is opened. The spring tension controls the time required to return the needle to a position that closes the opening. The spring tension also controls the amount of liquid crystal that is ejected when the opening is opened.
대표청구항▼
1. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening so as c
1. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening so as close the opening;a spring tensioner controlling the tension of the spring;a needle mover for moving the needle against the spring such that the opening is open; anda nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;wherein the spring tensioner can vary the tension of the spring, and wherein the spring tension controls the volume of liquid crystal that is discharged. 2. The apparatus of claim 1, further including a coupling tube for guiding liquid crystal from the needle sheet to the nozzle. 3. The apparatus of claim 1, wherein the needle mover includes:a solenoid for selectively producing a magnetic field in response to an applied electric power, and a bar magnet, wherein the solenoid and the bar magnet produce magnetic forces that move the needle. 4. The apparatus of claim 1, further comprising a supporting platform on the liquid crystal housing. 5. The apparatus of claim 4, wherein the spring tensioner comprises:a receiving case that holds the spring; anda tension controller inserted into the receiving case for controlling the tension of the spring by varying the spring length. 6. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening so as close the opening;a spring tensioner controlling the tension of the spring, wherein the spring tensioner includes a receiving case that holds the spring; and a tension controller inserted into the receiving case for controlling the tension of the spring by varying the spring length;a needle mover for moving the needle against the spring such that the opening is open; anda nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;a supporting platform on the liquid crystal housing;wherein the spring tensioner can vary the tension of the spring and wherein the spring tension controls the volume of liquid crystal that is discharged; andwherein the receiving case is on the supporting platform. 7. The apparatus of claim 5, further including a tension unit connected between the spring and the tension controller for adjusting the spring length. 8. The apparatus of claim 1, further including a spring connector for coupling the spring to the needle. 9. The apparatus of claim 8, wherein the spring is positioned between the spring connector and the tension controller. 10. A liquid crystal dispensing apparatus comprising:a housing;a liquid crystal container in the housing for holding liquid crystal;a needle sheet disposed near an end of the liquid crystal container and having an opening through which liquid crystal is discharged;a movable needle, inserted into the liquid crystal container, for selectively contacting the opening so as to open and close the opening;a spring in a receiving case that biases the needle toward the opening with a force that depends on the length of the spring; anda movable bar inserted into the receiving case and connected to the spring such that the length of the spring depends on the position of the movable bar;a spring-length controller for controlling the position of the movable bar;a solenoid coil disposed adjacent the needle for generating a magnetic force that moves the needle to open the opening; anda nozzle for ejecting liquid crystal that passes through the opening. 11. The apparatus of claim 10, further including a bar magnet bar that interacts with the solenoid coil and assists needle movement. 12. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening to close it;a spring tensioner for controlling the tension of the spring;a needle mover for moving the needle against the spring tension such that the opening is open; anda nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;wherein the spring tensioner can vary the tension of the spring, and wherein the spring tension controls the volume of liquid crystal that is discharged. 13. The apparatus of claim 12, wherein the needle mover includes a solenoid for selectively producing a magnetic field in response to an applied electric power, and a bar magnet, wherein the solenoid and the bar magnet produce magnetic forces that move the needle. 14. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening so as close the opening;a needle mover for moving the needle against the spring such that the opening is open;a nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;a spring tensioner controlling the tension of the spring, wherein the spring tensioner includes:a supporting platform on the liquid crystal housing;a receiving case on the supporting platform that holds the spring; anda tension controller inserted into the receiving case for controlling the tension of the spring by varying the spring length;wherein the spring tensioner can vary the tension of the spring and wherein the spring tension controls the volume of liquid crystal that is discharged. 15. The apparatus of claim 14, wherein the needle extends through the supporting platform. 16. The apparatus of claim 14, wherein the spring tensioner further includes a tensioning unit, connected between the spring and the tension controller, for adjusting the spring length. 17. The apparatus of claim 12, further including a spring coupler for coupling the spring to the needle. 18. The apparatus of claim 17, wherein the spring is positioned between the spring coupler and the tension controller. 19. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening to close it;a spring tensioner for controlling the tension of the spring;a needle mover for moving the needle against the spring such that the opening is open; anda nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;wherein the spring tensioner can vary the tension of the spring, and wherein the spring tension controls the time that the opening is open. 20. The apparatus of claim 19, wherein the needle mover includes a solenoid for selectively producing a magnetic field in response to an applied electric power, and a bar magnetic, wherein the solenoid and the bar magnet produce magnetic forces that move the needle. 21. A liquid crystal dispensing apparatus, comprising:a liquid crystal housing for holding liquid crystal;a needle sheet disposed near the end of the liquid crystal housing and having an opening for discharging liquid crystal;a movable needle;a spring that biases the needle toward the opening to close it;a needle mover for moving the needle against the spring such that the opening is open; anda nozzle adjacent the opening for dispensing liquid crystal that passes through the opening;a sprint tensioner for controlling the tension of the spring; wherein the spring tensioner includes:a supporting platform on the liquid crystal housing;a rece iving case on the supporting platform that holds the spring; anda tension controller inserted into the receiving case for controlling the tension of the spring by varying the spring length;wherein the spring tensioner can vary the tension of the spring and wherein the spring tension controls the time that the opening is open. 22. The apparatus of claim 21, wherein the needle extends through the supporting platform. 23. The apparatus of claim 21, wherein the spring tensioner further includes a tensioning unit, connected between the spring and the tension controller, for adjusting the spring length. 24. The apparatus of claim 19, further including a spring coupler for coupling the spring to the needle. 25. The apparatus of claim 24, wherein the spring is positioned between the spring coupler and the tension controller.
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