IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0898261
(2004-07-26)
|
우선권정보 |
TW-92128425 U(2003-10-14) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Lite On Technology Corporation
|
대리인 / 주소 |
Birch, Stewart, Kolasch &
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
3 |
초록
▼
An optical fiber connector for mating with an optical fiber coupling has a housing and a U-shaped portion assembled to the housing. The housing has two clamping grooves respectively formed on upper and lower edges of each opposite lateral outer surface thereof. The U-shaped portion includes a socke
An optical fiber connector for mating with an optical fiber coupling has a housing and a U-shaped portion assembled to the housing. The housing has two clamping grooves respectively formed on upper and lower edges of each opposite lateral outer surface thereof. The U-shaped portion includes a socket frame and two side plates extending from the socket frame. The socket frame includes a shutter downwardly extending from an upper front edge thereof and made integrally in one piece. Each of the side plates has two engaging faces respectively retained in the clamping grooves and arranged on upper and lower edges thereof.
대표청구항
▼
What is claimed is: 1. An optical fiber connector for mating with an optical fiber coupling, comprising: a housing; and a U-shaped portion connecting with the housing; wherein the housing has two clamping grooves respectively arranged on upper and lower edges of each opposite lateral outer surface
What is claimed is: 1. An optical fiber connector for mating with an optical fiber coupling, comprising: a housing; and a U-shaped portion connecting with the housing; wherein the housing has two clamping grooves respectively arranged on upper and lower edges of each opposite lateral outer surface thereof; wherein the U-shaped portion includes a socket frame and two side plates extending from two sides of the socket frame; the socket frame includes a shutter downwardly extending from an upper front edge thereof, and each side plates has two engaging faces respectively retained in a respective one of the clamping grooves and arranged on upper and lower edges thereof. 2. The optical fiber connector claimed as claim 1, wherein the U-shaped portion is integrally made in one piece via a resilient material. 3. The optical fiber connector claimed as claim 1, wherein the socket frame has a cutout formed from the upper front edge to communicate with a recess that is concaved on the shutter, and the cutout defines a predetermined recessed depth same as that of the recess, the optical fiber connector defines a predetermined length that extends from the cutout of the socket frame to the recess of the shutter. 4. The optical fiber connector claimed as claim 1, wherein the socket frame has a sliding recess formed from a lower front edge thereof inwardly to extend with a predetermined distance, the sliding recess relates to a bottom tenon of the optical fiber coupling. 5. The optical fiber connector claimed as claim 4, wherein the socket frame has a guiding inclined face formed on a rear portion thereof. 6. The optical fiber connector claimed as claim 1, wherein the U-shaped portion has an indentation arranged on a rear surface of the shutter, the indentation is adjacent to a joint between the socket frame and the shutter for the shutter rotating backwards. 7. The optical fiber connector claimed as claim 1, wherein the U-shaped portion has a cambered protrusion arranged on a front surface of the shutter, the cambered protrusion is adjacent to a joint between the socket frame and the shutter for adjusting a resilient force thereof, the resilient force is determined in proportion to size and location of the cambered protrusion. 8. The optical fiber connector claimed as claim 1, wherein the base includes two embosses respectively disposed on rear portions of the two outer surfaces, and the U-shaped portion includes two inverted T-shaped tails respectively connecting rear portions of the two side plates to correspondingly engage with the two embosses of the base. 9. The optical fiber connector claimed as claim 8, wherein each of the inverted T-shaped tails includes a horizontal slender head, two lateral guiding inclined surfaces formed on two opposite lateral sides of the horizontal slender head, and a head inclined surface arranged on t a heading edge of the horizontal slender head, whereby the inverted T-shaped tails slidably inserts into the clamping grooves-respectively, so that the U-shaped portion assembles to the housing. 10. The optical fiber connector claimed as claim 8, wherein each of the embosses has a wedge cross-sectional profile of a narrow front and a wide rear relatively, so as to allow the each of the two inverted T-shaped tails slide from the narrow front towards and to clamp with the wide rear. 11. An optical fiber connector for mating with an optical fiber coupling, the optical fiber coupling includes a plug, two semi-circular strips protruding from two opposite lateral sides of the plug, top and bottom tenons respectively protruding from top and bottom surfaces of the plug, and an insertion head arranged on a front end of the plug; and the optical fiber connector comprising: a housing having a base, two rear furrows formed on two opposite lateral inner surfaces of the base semi-circular, and two clamping grooves respectively formed on upper and lower edges of each outer surface of the base; and a U-shaped portion connecting with the housing, and the U-shaped portion including a socket frame and two side plates extending from two sides of the socket frame; wherein the socket frame includes two front furrows formed on two opposite lateral inner surfaces thereof, and a shutter downwardly extending from an upper front edge thereof; wherein each of the two side plates has two engaging faces respectively retained in a respective one of the clamping grooves and formed on upper and lower edges thereof, and the two front furrows respectively communicate with the two rear furrows, respectively. 12. The optical fiber connector claimed as claim 11, wherein the U-shaped portion is integrally made in one piece via a resilient material. 13. The optical fiber connector claimed as claim 11, wherein the socket frame has a cutout formed from the upper front edge to communicate with a recess that is concaved on the shutter, the cutout defines a predetermined recessed depth same as that of the recess, the optical fiber connector defines a predetermined length that extends from the cutout of the socket frame to the recess of the shutter. 14. The optical fiber connector claimed as claim 11, wherein the socket frame has a sliding recess formed from a lower front edge thereof inwardly to extend with a predetermined distance, the sliding recess relates to the bottom tenon of the plug. 15. The optical fiber connector claimed as claim 14, wherein the socket frame has a guiding inclined face formed on a rear portion thereof. 16. The optical fiber connector claimed as claim 11, wherein the U-shaped portion has an indentation arranged on a rear surface of the shutter, the indentation is adjacent to a joint between the socket frame and the shutter to allow the shutter rotate backwards. 17. The optical fiber connector claimed as claim 11, wherein the U-shaped portion has a cambered protrusion arranged on a front surface of the shutter, the cambered protrusion is adjacent to a joint between the socket frame and the shutter for adjusting a resilient force thereof, and the resilient force is determined in proportion to size and location of the cambered protrusion. 18. The optical fiber connector claimed as claim 11, wherein the base includes two embosses respectively disposed on rear portions of the two outer surfaces, and the U-shaped portion includes two inverted T-shaped tails respectively connecting to rear portions of the two side plates to correspondingly engage with the two embosses of the base. 19. The optical fiber connector claimed as claim 18, wherein each of the two inverted T-shaped tails includes a horizontal slender head, two lateral guiding inclined surfaces formed on two opposite lateral sides of the horizontal slender head, and a head inclined surface arranged on a heading edge of the horizontal slender head, whereby the inverted T-shaped tails slidably inserts into the clamping grooves respectively, so that the U-shaped portion assembles to the housing. 20. The optical fiber connector claimed as claim 18, wherein each of the embosses has a wedge cross-sectional profile of a narrow front and a wide rear relatively, so as to allow each of the two inverted T-shaped tails slide from the narrow front towards and to clamp with the wide rear.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.