Decanter-type centrifugal separator equipped with continuous lubricant supply device including an oil collector configured to revolve in a predetermined direction causing the lubricant to flow into the lubricant supply path
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B04B-001/20
B04B-009/12
출원번호
US-0817403
(2010-08-17)
등록번호
US-8652021
(2014-02-18)
국제출원번호
PCT/JP2010/063882
(2010-08-17)
§371/§102 date
20130403
(20130403)
국제공개번호
WO2012/023181
(2012-02-23)
발명자
/ 주소
Yumoto, Takeo
Tagami, Toshio
출원인 / 주소
Tomoe Engineering Co., Ltd.
대리인 / 주소
Holtz, Holtz, Goodman & Chick
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
A decanter-type centrifugal separator equipped with a continuous lubricant supply device capable of preventing leakage of lubricating oil along supply pathways, and supplying and discharging lubricating oil. The continuous lubricant supply device has a lubricating oil supply channel formed inside a
A decanter-type centrifugal separator equipped with a continuous lubricant supply device capable of preventing leakage of lubricating oil along supply pathways, and supplying and discharging lubricating oil. The continuous lubricant supply device has a lubricating oil supply channel formed inside a bowl hub, an annular introduction channel that introduces lubricating oil into the lubricating oil supply channel, a lubricating oil infusion channel formed inside a holder, and an oil collector installed on an outer surface of an outer shaft. The annular introduction channel has a first annular groove formed inside the holder such that the groove is occluded on the inside by the outer surface of the outer shaft. The oil collector can orbitally revolve in a predetermined direction inside the annular introduction channel, thereby moving lubricating oil radially inward in the annular introduction channel so as to flow into the lubricating oil supply channel.
대표청구항▼
1. A decanter-type centrifugal separator comprising: a hollow bowl;a bowl hub supporting the hollow bowl, said bowl hub comprising a flange, an inner shaft, and an outer shaft;a holder supporting in a rotatable state the outer shaft of the bowl hub inserted inside the holder; anda conveyor hub beari
1. A decanter-type centrifugal separator comprising: a hollow bowl;a bowl hub supporting the hollow bowl, said bowl hub comprising a flange, an inner shaft, and an outer shaft;a holder supporting in a rotatable state the outer shaft of the bowl hub inserted inside the holder; anda conveyor hub bearing supporting a screw conveyor in a rotatable state at an outer circumferential side of the inner shaft of the bowl hub, the screw conveyer being configured such that a to-be-processed raw liquid, introduced into the hollow bowl, is separated by a centrifugal force into fractions, and the separated fractions are discharged separately due to high speed rotations of the outer shaft and the screw conveyor,wherein the decanter-type centrifugal separator further comprises a continuous lubricant supply device including: a lubricant supply path inside the bowl hub along which a lubricant is continuously supplied to the conveyor hub bearing;an annular introducing path along which the lubricant is introduced into the lubricant supply path;a lubricant injection path inside the holder along which the lubricant can be injected from outside the holder into the annular introducing path; andan oil collector attached to an outer circumferential surface of the outer shaft,the annular introducing path comprising a first annular groove inside the holder formed radially outward from an inner circumferential surface thereof, such that an outer circumferential surface of the outer shaft closes the first annular groove from an inner side, andthe oil collector is configured to revolve in a predetermined direction along a trajectory inside the annular introducing path, thereby collecting the lubricant located inside the annular introducing path, moving the lubricant to a region on a radially inner side of the annular introducing path, and causing the lubricant to flow into the lubricant supply path formed at a position on a radial inner side of the oil collector. 2. The decanter-type centrifugal separator according to claim 1, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference of the holder, are disposed at both sides of the first annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the outer shaft. 3. The decanter-type centrifugal separator according to claim 1, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference to the outer shaft, are disposed at both sides of the first annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the holder. 4. The decanter-type centrifugal separator according to claim 1, wherein the oil collector comprises a base section and a center flap, the base section is fixed to the outer circumferential surface of the outer shaft of the bowl hub, andthe center flap is fixed such that a distal end section thereof is tilted forward in a rotation direction of the outer shaft, and covers a top of an opening of the lubricant supply path on an outer shaft side from a rear side in the rotation direction. 5. The decanter-type centrifugal separator according to claim 4, wherein the oil collector further comprises two side flaps, the side flaps are attached to two respective sides of the center flap and fixed so as to surround the opening of the lubricant supply path on the outer shaft side from the sides. 6. The decanter-type centrifugal separator according to claim 5, wherein the two side flaps are configured such that a distance therebetween increases gradually forward in the rotation direction of the outer shaft. 7. The decanter-type centrifugal separator according to claim 1, wherein the continuous lubricant supply device comprises: a lubricant discharge path inside the bowl hub along which the lubricant supplied to the conveyor hub bearing is discharged;an annular collection section for collecting and discharging the lubricant released from the lubricant discharge path; anda lubricant outflow path inside the holder along which a discharge of the lubricant from the annular collection section to the outside of the holder is enabled,the annular collection section comprises a second annular groove inside the holder formed radially outward from the inner circumferential surface thereof, such that the outer circumferential surface of the outer shaft closes the second annular groove from the inner side. 8. The decanter-type centrifugal separator according to claim 7, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference of the holder, are disposed at both sides of the second annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the outer shaft. 9. The decanter-type centrifugal separator according to claim 7, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference to the outer shaft, are disposed at both sides of the second annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the holder. 10. The decanter-type centrifugal separator according to claim 7, wherein the lubricant discharge path comprises: a first vertical orifice formed in the outer shaft of the bowl hub;a second vertical orifice formed in the inner shaft of the bowl hub; anda transverse orifice connecting a bottom of the first vertical orifice with a bottom of the second vertical orifice, the transverse orifice formed such that a final end side is tilted radially outward with respect to a starting end side. 11. The decanter-type centrifugal separator according to claim 1, wherein the lubricant supply path comprises: a first vertical orifice formed in the outer shaft of the bowl hub;a second vertical orifice formed in the inner shaft of the bowl hub; anda transverse orifice connecting a bottom of the first vertical orifice with a bottom of the second vertical orifice, the transverse orifice formed such that a final end side is tilted radially outward with respect to a starting end side. 12. The decanter-type centrifugal separator according to claim 1, wherein a lubricant supply device and an air supply device are connected to the lubricant injection path, such that air can flow downward in the lubricant injection path and the annular introducing path. 13. A decanter-type centrifugal separator comprising: a hollow bowl;a bowl hub supporting the hollow bowl, said bowl hub comprising a flange, an inner shaft, and an outer shaft;a holder supporting in a rotatable state the outer shaft of the bowl hub inserted inside the holder; anda conveyor hub bearing supporting a screw conveyor in a rotatable state at an outer circumferential side of the inner shaft of the bowl hub, the screw conveyer being configured such that a to-be-processed raw liquid, introduced into the hollow bowl, is separated by a centrifugal force into fractions, and the separated fractions are discharged separately due to high speed rotations of the outer shaft and the screw conveyor,wherein the decanter-type centrifugal separator further comprises a continuous lubricant supply device including: a lubricant supply path inside the bowl hub along which a lubricant is continuously supplied to the conveyor hub bearing;an annular introducing path along which the lubricant is introduced into the lubricant supply path;a lubricant injection path inside the holder along which the lubricant can be injected from outside the holder into the annular introducing path; andan oil collector attached to the outer shaft,the annular introducing path comprising a first annular groove formed radially inward from an outer circumferential surface of the outer shaft such that an inner circumferential surface of the holder closes the first annular groove from an outer side, andthe oil collector is configured to revolve in a predetermined direction along a trajectory inside the annular introducing path, thereby collecting the lubricant located inside the annular introducing path, moving the lubricant to a region on a radially inner side of the annular introducing path, and causing the lubricant to flow into the lubricant supply path formed at a position on a radial inner side of the oil collector. 14. The decanter-type centrifugal separator according to claim 13, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference of the holder, are disposed at both sides of the first annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the outer shaft. 15. The decanter-type centrifugal separator according to claim 13, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference to the outer shaft, are disposed at both sides of the first annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the holder. 16. The decanter-type centrifugal separator according to claim 13, wherein the oil collector comprises a base section and a center flap, the base section is fixed to the outer circumferential surface of the outer shaft of the bowl hub, andthe center flap is fixed such that a distal end section thereof is tilted forward in a rotation direction of the outer shaft, and covers a top of an opening of the lubricant supply path on an outer shaft side from a rear side in the rotation direction. 17. The decanter-type centrifugal separator according to claim 16, wherein the oil collector further comprises two side flaps, the side flaps are attached to two respective sides of the center flap and fixed so as to surround the opening of the lubricant supply path on the outer shaft side from the sides. 18. The decanter-type centrifugal separator according to claim 17, wherein the two side flaps are configured such that a distance therebetween increases gradually forward in the rotation direction of the outer shaft. 19. The decanter-type centrifugal separator according to claim 13, wherein the continuous lubricant supply device comprises: a lubricant discharge path inside the bowl hub along which the lubricant supplied to the conveyor hub bearing is discharged;an annular collection section for collecting and discharging the lubricant released from the lubricant discharge path; anda lubricant outflow path inside the holder along which a discharge of the lubricant from the annular collection section to the outside of the holder is enabled,the annular collection section comprises a second annular groove formed radially inward from the outer circumferential surface of the outer shaft such that the inner circumferential surface of the holder closes the second annular groove from the outer side. 20. The decanter-type centrifugal separator according to claim 19, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference of the holder, are disposed at both sides of the second annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the outer shaft. 21. The decanter-type centrifugal separator according to claim 19, wherein contact-type heat-resistant oil seals, attached closely and fixed over an entire circumference to the outer shaft, are disposed at both sides of the second annular groove, such that any gap between an inner circumferential surface of the holder and the outer circumferential surface of the outer shaft of the bowl hub is closed, the contact-type heat-resistant oil seals comprising lip sections in contact over an entire circumference with the holder. 22. The decanter-type centrifugal separator according to claim 19, wherein the lubricant discharge path comprises: a first vertical orifice formed in the outer shaft of the bowl hub;a second vertical orifice formed in the inner shaft of the bowl hub; anda transverse orifice connecting a bottom of the first vertical orifice with a bottom of the second vertical orifice, the transverse orifice formed such that a final end side is tilted radially outward with respect to a starting end side. 23. The decanter-type centrifugal separator according to claim 13, wherein the lubricant supply path comprises: a first vertical orifice formed in the outer shaft of the bowl hub;a second vertical orifice formed in the inner shaft of the bowl hub; anda transverse orifice connecting a bottom of the first vertical orifice with a bottom of the second vertical orifice, the transverse orifice formed such that a final end side is tilted radially outward with respect to a starting end side. 24. The decanter-type centrifugal separator according to claim 13, wherein a lubricant supply device and an air supply device are connected to the lubricant injection path, such that air can flow downward in the lubricant injection path and the annular introducing path.
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