Rotary vacuum pump with circumferential groove for a lubricating and sealing fluid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04C-029/02
F04C-025/02
F04C-018/344
F04C-027/00
출원번호
US-0351002
(2012-10-10)
등록번호
US-9388810
(2016-07-12)
우선권정보
IT-TO2011A0912 (2011-10-13)
국제출원번호
PCT/IB2012/055467
(2012-10-10)
국제공개번호
WO2013/054263
(2013-04-18)
발명자
/ 주소
Crotti, Antonio
Marchetti, Luciano
Martello, Fabio
Muellers, Johannes
출원인 / 주소
VHIT S.P.A.
대리인 / 주소
Sughrue Mion, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A rotary vacuum pump, for instance a vane pump, has at least one circumferential groove (6) between facing side surfaces of the rotor (2) and of the rotor guide (3) for receiving a lubricating and sealing fluid. The circumferential groove (6) is a partial annular groove, which has an angular extensi
A rotary vacuum pump, for instance a vane pump, has at least one circumferential groove (6) between facing side surfaces of the rotor (2) and of the rotor guide (3) for receiving a lubricating and sealing fluid. The circumferential groove (6) is a partial annular groove, which has an angular extension of less than 360° and has at least one interruption enabling creating a hydrodynamic fluid bearing in a region opposite a discharge region of the pump (1; 101; 121; 201), over the whole axial extension of the facing surfaces. A method of lubricating a rotary vacuum pump is also provided.
대표청구항▼
1. A pump, which comprises a rotor where radial forces are applied, that is mounted for concentric rotation in a rotor guide and in which a circumferential groove is provided between facing side surfaces of the rotor and the rotor guide, said circumferential groove including an arc having an angular
1. A pump, which comprises a rotor where radial forces are applied, that is mounted for concentric rotation in a rotor guide and in which a circumferential groove is provided between facing side surfaces of the rotor and the rotor guide, said circumferential groove including an arc having an angular extension of less than 360° so as to form an interruption, whereinsaid pump is a rotary vacuum pump having only one discharge region,said circumferential groove: comprises, in use, fluid received from a fluid supply duct, said fluid in said circumferential groove lubricates the rotor guide and creates a circumferential barrier sealing against air leaks between external and internal pump sides;is formed in the side surface of the rotor guide or is defined by steps in side surfaces of the rotor guide; and whereinthe circumferential groove and the interruption are arranged so that the interruption has an angular extension ranging from 60° to 180° and extends over a region of said side surface of the rotor guide which is opposite said only one discharge region of the pump and against which said radial forces push the rotor during a discharge phase, said interruption being arranged to create a hydrodynamic fluid bearing between said facing side surfaces of the rotor and the rotor guide at said region of said side surface of the rotor guide opposite said only one discharge region of the pump, over a whole axial extension of said facing side surfaces of the rotor and the rotor guide. 2. The pump as claimed in claim 1, wherein the circumferential groove has an angular extension ranging from about 150° to about 300°. 3. The pump as claimed in claim 2, wherein the circumferential groove is in communication with an axial groove for conveying the lubricating and sealing fluid towards the inner side of the pump. 4. The pump as claimed in claim 2, wherein the circumferential groove has an angular extension ranging from about 180° to about 220°. 5. The pump as claimed in claim 1, wherein the circumferential groove is in communication with an axial groove for conveying the lubricating and sealing fluid towards the inner side of the pump. 6. The pump as claimed in claim 5, wherein the circumferential groove lies on a plane perpendicular to a rotation axis of the rotor or on a plane inclined with respect to said rotation axis. 7. The pump as claimed in claim 6, wherein the circumferential groove branches at a fluid supply zone and forms a substantially V-shaped end section. 8. The pump as claimed in claim 6, wherein the circumferential groove comprises a plurality of circumferential grooves, which are distributed along an axial direction of the rotor and the rotor guide. 9. The pump as claimed in claim 5, wherein the circumferential groove branches at a fluid supply zone and forms a substantially V-shaped end section. 10. The pump as claimed in claim 5, wherein the circumferential groove comprises a plurality of circumferential grooves, which are distributed along an axial direction of the rotor and the rotor guide. 11. The pump as claimed in claim 1, wherein the circumferential groove lies on a plane perpendicular to a rotation axis of the rotor or on a plane inclined with respect to said rotation axis. 12. The pump as claimed in claim 11, wherein the circumferential groove branches at a fluid supply zone and forms a substantially V-shaped end section. 13. The pump as claimed in claim 11, wherein the circumferential groove comprises a plurality of circumferential grooves, which are distributed along an axial direction of the rotor and the rotor guide. 14. The pump as claimed in claim 1, wherein the circumferential groove branches at a fluid supply zone and forms a substantially V-shaped end section. 15. The pump as claimed in claim 1, wherein the circumferential groove comprises a plurality of circumferential grooves, which are distributed along an axial direction of the rotor and the rotor guide. 16. The pump as claimed in claim 1, wherein the circumferential barrier sealing is along an entire axial length of said side surface of the rotor guide where the interruption is arranged. 17. A method of lubricating a rotary vacuum pump, comprising a pump rotor, a rotor guide, a discharge region and a circumferential groove provided between facing side surfaces of the pump rotor and side surfaces of the rotor guide in which the same pump rotor concentrically rotates, said circumferential groove having an angular extension of less than 360° so as to form an interruption, said circumferential groove and said interruption being so arranged that the interruption has an angular extension ranging from 60° to 180° and extends over a region of said side surface of the rotor guide which is opposite said discharge region of the pump, wherein said method comprises the steps of: introducing a lubricating and sealing fluid in said circumferential groove;forming with the lubricating and sealing fluid introduced in said circumferential groove, a circumferential barrier sealing against air leaks between external and internal pump sides:creating, by said interruption, a hydrodynamic fluid bearing between facing side surfaces of the rotor and the rotor guide at said region of said side surface of the rotor guide opposite and discharge region of the pump, over a whole axial extension of said facing side surfaces of the pump rotor and the rotor guide;opposing, by said hydrodynamic fluid bearing, radial forces which push, during a discharge phase of the pump, the pump rotor against said region of said side surface of the rotor guide opposite said discharge region of the pump. 18. A pump, which comprises a rotor where radial forces are applied, that is mounted for concentric rotation in a rotor guide and in which at least two circumferential grooves are provided between facing side surfaces of the rotor and the rotor guide, said at least two circumferential grooves having an angular extension of less than 360° so as to form at least two interruptions, whereinsaid pump is a rotary vacuum pump having only one discharge region,said at least two circumferential grooves: comprise, in use, fluid received from a fluid supply duct, said fluid in said at least two circumferential grooves lubricates the rotor guide and creates a circumferential barrier sealing against air leaks between external and internal pump sides;are formed in the side surface of the rotor; and wherein said at least two circumferential grooves and said at least two interruptions are arranged so that each of said at least two interruptions alternately faces, at each discharge phase of the pump, a region of said side surface of the rotor guide which is opposite said only one discharge region of the pump and against which said radial forces push the rotor during said discharge phase, said interruption being arranged to create, at each discharge phase of the pump, a hydrodynamic fluid bearing between said facing side surfaces of the rotor and the rotor guide at said region opposite said only one discharge region of the pump, over a whole axial extension of said side surfaces of the rotor and the rotor guide. 19. The pump as claimed in claim 18, wherein the circumferential groove branches at a fluid supply zone and forms a substantially V-shaped end section.
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이 특허에 인용된 특허 (7)
Yoshimura, Shoji, Bearing and liquid cooling type screw compressor.
Sundberg Jack G. (Meriden CT) Bisson Bernard J. (Winsted CT) Desai Mihir C. (West Hartford CT) Books Martin T. (New Britain CT), Variable displacement vane pump, component parts and method.
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