IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0984774
(2007-11-21)
|
등록번호 |
US-7655063
(2010-03-31)
|
우선권정보 |
TW-96120689 A(2007-06-08) |
발명자
/ 주소 |
- Wang, Shiow-Chen
- Yang, Wen-Feng
- Wu, Wen-Ching
|
출원인 / 주소 |
- Treatyou Medical Technology Corporation
|
대리인 / 주소 |
Birch, Stewart, Kolasch & Birch, LLP
|
인용정보 |
피인용 횟수 :
11 인용 특허 :
4 |
초록
▼
The invention is a can-filter structure of an oxygen concentrator, which includes: a first can-filter having filter material; a second can-filter having filter material; and an outlet cover. The first can-filter includes an air inlet provided at the entrance side of the first can-filter and a first
The invention is a can-filter structure of an oxygen concentrator, which includes: a first can-filter having filter material; a second can-filter having filter material; and an outlet cover. The first can-filter includes an air inlet provided at the entrance side of the first can-filter and a first conical joint formed at the exit side of the first can-filter, wherein the first conical joint is hollow and at least one recess is provided on the outer surface thereof. The second can-filter includes a second conical joint formed at the entrance side of the second can-filter, wherein the second conical joint is hollow, and at least one engaging hook corresponding to the recess is provided on the inner surface thereof for coupling to the first conical joint. The outlet cover is provided at the exit side of the second can-filter and is coupled thereto by ultrasonic fusion.
대표청구항
▼
What is claimed is: 1. A can-filter structure of oxygen concentrator, comprising: a first can-filter, which comprises: a hollow first filter can, filled therein with filter material for filtering air passing therethrough, and having an entrance side and an exit side; an air inlet provided at the en
What is claimed is: 1. A can-filter structure of oxygen concentrator, comprising: a first can-filter, which comprises: a hollow first filter can, filled therein with filter material for filtering air passing therethrough, and having an entrance side and an exit side; an air inlet provided at the entrance side of the first filter can; a hollow first conical joint formed at the exit side of the first filter can; at least one recess provided on the outer surface of the first conical joint; a first tubular portion integrally formed at the narrow end of the first conical joint; and an airtight sealing ring provided around the periphery of the first tubular portion; a second can-filter, which comprises: a hollow second filter can, filled therein with filter material for filtering air from the first can-filter, and having an entrance side and an exit side; a hollow second conical joint formed at the entrance side of the second filter can, for coupling over the outer surface of the first conical joint; at least one resilient engaging hook provided on the inner surface of the second conical joint and corresponding to the at least one recess; and a second tubular portion connecting the entrance side of the second filter can and the narrow end of the second conical joint; and an outlet cover provided at the exit side of the second filter can and coupled to the second filter can by ultrasonic fusion; wherein the first conical joint and the second conical joint may be rotated relative to each other to a position where the at least one resilient engaging hook snaps into the at least one recess so as to form an engagement that detachably fastens the first conical joint and the second conical joint; wherein as the first can-filter and the second can-filter are coupled, the second tubular portion is mounted around the periphery of the first tubular portion, and the airtight sealing ring is disposed between the two tubular portions to provide an airtight effect. 2. The can-filter structure as described in claim 1, wherein a lid is disposed at the air inlet of the first filter can so as to open/close the air inlet, and a wing-shaped grip is provided on the one side of the lid opposite the air inlet for rotating and manipulating the first filter can in a state when the air inlet is closed. 3. The can-filter structure as described in claim 1, wherein the outlet cover comprises a bend structure that is integrally formed therewith. 4. The can-filter structure as described in claim 3, wherein a thin plate is provided near the bend structure, and the thin plate has a mounting hole for securing the can-filter structure to a mounting. 5. The can-filter structure as described in claim 1, wherein the at least one recess and the at least one resilient engaging hook each corresponds to one another. 6. The can-filter structure as described in claim 5, wherein when there is more than one recess, the recesses are arranged at equally spaced positions in the circumferential direction of the first conical joint. 7. The can-filter structure as described in claim 5, wherein when there is more than one resilient engaging hook, the resilient engaging hooks are arranged at corresponding positions in the circumferential direction of the second conical joint. 8. The can-filter structure as described in claim 1, wherein the at least one recess is of a double-recess structure and the at least one resilient engaging hook is of a double-engagement hook structure. 9. A can-filter structure of oxygen concentrator, comprising: a first can-filter, which comprises: a hollow first filter can, filled therein with filter material for filtering air passing therethrough, and having an entrance side and an exit side; an air inlet provided at the entrance side of the first filter can; a hollow first conical joint formed at the exit side of the first filter can; at least one resilient engaging hook provided on the outer surface of the first conical joint; a first tubular portion integrally formed at the narrow end of the first conical joint; and an airtight sealing ring provided around the periphery of the first tubular portion; a second can-filter, which comprises: a hollow second filter can, filled therein with filter material for filtering air from the first can-filter, and having an entrance side and an exit side; a hollow second conical joint formed at the entrance side of the second filter can, for coupling over the outer surface of the first conical joint of the first can-filter; at least one recess provided on the inner surface of the second conical joint and corresponding to the at least one resilient engaging hook; and a second tubular portion con connecting the entrance side of the second filter can and the narrow end of the second conical joint; and an outlet cover provided at the exit side of the second filter can and coupled to the second filter can by ultrasonic fusion; wherein the first conical joint and the second conical joint may be rotated relative to each other to a position where the at least one resilient engaging hook snaps into the at least one recess to form an engagement that detachably fastens the first conical joint and the second conical joint; wherein as the first can-filter and the second can-filter are coupled, the second tubular portion is mounted around the periphery of the first tubular portion, and the airtight sealing ring is disposed between the two tubular portions to provide an airtight effect. 10. The can-filter structure as described in claim 9, wherein a lid is disposed at the air inlet of the first filter can so as to open/close the air inlet, and a wing-shaped grip is provided on the one side of the lid opposite the air inlet for rotating and manipulating the first filter can in a state when the air inlet is closed. 11. The can-filter structure as described in claim 9, wherein the outlet cover comprises a bend structure that is integrally formed therewith. 12. The can-filter structure as described in claim 11, wherein a thin plate is provided near the bend structure, and the thin plate has a mounting hole for securing the can-filter structure to a mounting. 13. The can-filter structure as described in claim 9, wherein the at least one resilient engaging hook and the at least one recess each corresponds to one another. 14. The can-filter structure as described in claim 13, wherein when there is more than one resilient engaging hook, the resilient engaging hooks are arranged at equally spaced positions in the circumferential direction of the first conical joint. 15. The can-filter structure as described in claim 13, wherein when there is more than one recess, the recesses are arranged at corresponding positions in the circumferential direction of the second conical joint. 16. The can-filter structure as described in claim 9, wherein the at least one resilient engaging hook is of a double-engagement hook structure and the at least one recess is of a double-recess structure.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.