Fluid transporting device of the peristaltic type with a push pin and push plate arrangement
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-043/12
F04B-043/08
출원번호
US-0412066
(2012-03-05)
등록번호
US-8834138
(2014-09-16)
우선권정보
JP-2005-017932 (2005-01-26)
발명자
/ 주소
Miyazaki, Hajime
Kawasumi, Kazuo
Ushikoshi, Kenichi
출원인 / 주소
Seiko Epson Corporation
대리인 / 주소
Harness, Dickey & Pierce, P.L.C.
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
A fluid transporting device includes an elastic tube, a tube frame that holds the elastic tube in an arc, a rotary push plate arranged in the arc for facilitating fluid flow inside the elastic tube, and a plurality of push pins disposed between the elastic tube and the center of the arc. Each push p
A fluid transporting device includes an elastic tube, a tube frame that holds the elastic tube in an arc, a rotary push plate arranged in the arc for facilitating fluid flow inside the elastic tube, and a plurality of push pins disposed between the elastic tube and the center of the arc. Each push pin includes a semispherical end portion that contacts the rotary push plate, a pushing end portion that places a bias on the elastic tube, and adjacent end portions of at least two push pins close the elastic tube when the semispherical end portions are pushed by an outer circumference arc of the rotary push plate.
대표청구항▼
1. A fluid transporting device, comprising: an elastic tube;a tube frame that holds the elastic tube in an arc;a rotary push plate; anda plurality of push pins disposed between the elastic tube and the center of the rotary push plate;wherein each push pin includes: a semispherical end portion that c
1. A fluid transporting device, comprising: an elastic tube;a tube frame that holds the elastic tube in an arc;a rotary push plate; anda plurality of push pins disposed between the elastic tube and the center of the rotary push plate;wherein each push pin includes: a semispherical end portion that contacts the rotary push plate; anda pushing end portion that places a bias on the elastic tube; andwherein the rotary push plate has a plurality of protrusions for facilitating fluid flow inside the elastic tube, each protrusion includes: an outer circumference arc surface;a first sloped portion extending inwardly from the outer circumference arc surface, the first sloped portion being located on a rotational leading side of the outer circumference arc surface;a first arc portion extending from the first sloped portion to a first recess located between a pair of the protrusions;a second sloped portion extending inwardly from the outer circumference arc surface, the second sloped portion being located on a rotational trailing side of the outer circumference arc surface; anda second arc portion extending from the second sloped portion to a second recess located between another pair of the protrusions;wherein push pins aligned with the first and second recess are in a not pushed state, push pins abutting the outer circumference arc surface are in a maximum pushed state, and push pins abutting the first and second sloped portions are in a transition state between the not pushed state and the maximum pushed state; andthe pushing end portions of at least two push pins, which are located side by side, push the elastic tube when the semispherical end portions of the two push pins are pushed by only a single protrusion of the plurality of protrusions of the rotary push plate. 2. The fluid transporting device as set forth in claim 1, further comprising: a fluid storing container coupled to the elastic tube. 3. A fluid transporting device, comprising: a tube;a tube frame that holds the tube;a rotary push plate;at least two push pins disposed between the tube and the rotary push plate; anda tube holder that is statically located between the at least two push pins and abuts the tube so as to prevent the tube from moving relative to the tube frame,wherein the rotary push plate has a plurality of protrusions that include outer circumference arc surfaces,each of the at least two push pins has a proximal end near the rotary push plate and a distal end near the tube, and the distal end is longitudinally spaced from the proximal end, andthe distal ends of the at least two push pins, which are located side by side relative to each other, are positioned to both push the tube into a closed state when the proximal ends both contact a single one of the outer circumference arc surfaces. 4. The fluid transporting device as set forth in claim 3, wherein the proximal ends are convex and sequentially contact the plurality of protrusions of the rotary push plate. 5. A fluid transporting device, comprising: a tube;a tube frame that holds the tubea rotary push plate;at least two push pins disposed between the tube and the rotary push plate; anda tube holder that is statically located between the at least two push pins and abuts the tube so as to prevent the tube from moving relative to the tube frame, whereinthe rotary push plate has a plurality of protrusions that include outer circumference arc surfaces,each of the at least two push pins has a proximal end near the rotary push plate and a distal end near the tube, and the distal end is longitudinally spaced from the proximal end, andthe distal ends of the at least two push pins, which are located side by side relative to each other, are positioned to both push the tube a first distance when the proximal ends of the at least two push pins are both pushed by a single one of the outer circumference arc surfaces the first distance. 6. The fluid transporting device as set forth in claim 5, wherein the proximal ends are convex and sequentially contact the plurality of protrusions of the rotary push plate. 7. A fluid transporting device, comprising: a tube;a tube frame that holds the tubea rotary push plate;at least two push pins disposed between the tube and the rotary push plate; anda tube holder that is statically located between the at least two push pins and abuts the tube so as to prevent the tube from moving relative to the tube frame, whereinthe rotary push plate has a plurality of protrusions,each of the at least two push pins has a proximal end near the rotary push plate and a distal end near the tube, and the distal end is longitudinally spaced from the proximal end, andthe distal ends of the at least two push pins, which are located side by side relative to each other, are positioned to both push the tube at the same time when the proximal ends of the at least two push pins are both pushed by a single one of the plurality of protrusions of the rotary push plate. 8. The fluid transporting device as set forth in claim 7, wherein the proximal ends are convex and sequentially contact the plurality of protrusions of the rotary push plate. 9. A fluid transporting device, comprising: a tube;a tube frame that holds the tube;a rotary push plate;at least two push pins disposed between the tube and the rotary push plate; anda tube holder that is statically located between the at least two push pins and abuts the tube so as to prevent the tube from moving relative to the tube frame, whereineach of the at least two push pins has a proximal end near the rotary push plate and a distal end near the tube, and the distal end is longitudinally spaced from the proximal end, andthe distal ends of the at least two push pins, which are located side by side relative to each other, are positioned to both push the tube into a closed state when the proximal ends of the at least two push pins are both pushed by the rotary push plate. 10. The fluid transporting device as set forth in claim 9, wherein the proximal ends are convex and sequentially contact a plurality of protrusions of the rotary push plate.
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