WO2016098230A1 - スラスト軸受の排油装置、及びこれを備えるターボチャージャ - Google Patents
スラスト軸受の排油装置、及びこれを備えるターボチャージャ Download PDFInfo
- Publication number
- WO2016098230A1 WO2016098230A1 PCT/JP2014/083588 JP2014083588W WO2016098230A1 WO 2016098230 A1 WO2016098230 A1 WO 2016098230A1 JP 2014083588 W JP2014083588 W JP 2014083588W WO 2016098230 A1 WO2016098230 A1 WO 2016098230A1
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- WIPO (PCT)
- Prior art keywords
- oil
- thrust bearing
- outer peripheral
- drainage
- end surface
- Prior art date
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C17/00—Sliding-contact bearings for exclusively rotary movement
- F16C17/04—Sliding-contact bearings for exclusively rotary movement for axial load only
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H57/00—General details of gearing
- F16H57/04—Features relating to lubrication or cooling or heating
- F16H57/0409—Features relating to lubrication or cooling or heating characterised by the problem to increase efficiency, e.g. by reducing splash losses
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01D—NON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAM TURBINES
- F01D25/00—Component parts, details, or accessories, not provided for in, or of interest apart from, other groups
- F01D25/18—Lubricating arrangements
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/05—Shafts or bearings, or assemblies thereof, specially adapted for elastic fluid pumps
- F04D29/056—Bearings
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C33/00—Parts of bearings; Special methods for making bearings or parts thereof
- F16C33/02—Parts of sliding-contact bearings
- F16C33/04—Brasses; Bushes; Linings
- F16C33/06—Sliding surface mainly made of metal
- F16C33/10—Construction relative to lubrication
- F16C33/1025—Construction relative to lubrication with liquid, e.g. oil, as lubricant
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H57/00—General details of gearing
- F16H57/04—Features relating to lubrication or cooling or heating
- F16H57/042—Guidance of lubricant
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B39/00—Component parts, details, or accessories relating to, driven charging or scavenging pumps, not provided for in groups F02B33/00 - F02B37/00
- F02B39/14—Lubrication of pumps; Safety measures therefor
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05D—INDEXING SCHEME FOR ASPECTS RELATING TO NON-POSITIVE-DISPLACEMENT MACHINES OR ENGINES, GAS-TURBINES OR JET-PROPULSION PLANTS
- F05D2220/00—Application
- F05D2220/40—Application in turbochargers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C2360/00—Engines or pumps
- F16C2360/23—Gas turbine engines
- F16C2360/24—Turbochargers
Definitions
- This disclosure relates to an oil draining device for a thrust bearing and a turbocharger including the same.
- a method (supercharging) in which intake air is compressed by a turbocharger and the compressed intake air is supplied to the engine is known, and is widely used in automobile engines and the like.
- a turbocharger is provided with a rotating shaft, a turbine wheel provided on one end side of the rotating shaft, and a compressor wheel provided on the other end side of the rotating shaft.
- the exhaust energy of exhaust gas acts on a turbine wheel, and a rotating shaft rotates at high speed, and the compressor wheel provided in the other end side of the rotating shaft is comprised so that intake air may be compressed.
- the turbocharger is provided with a thrust bearing device for supporting the rotating shaft in the axial direction.
- a thrust bearing device for example, a thrust bearing device disclosed in Patent Document 1 can be cited.
- the thrust bearing device of Patent Document 1 is formed by a collar member (thrust bush 10) that is mounted on the outer periphery of the rotation shaft so as to be rotatable together with the rotation shaft, and the collar member. And a thrust bearing (thrust disk 11) whose inner peripheral edge engages with the annular groove.
- the outer peripheral edge of the thrust bearing is fixed to the housing, and is configured to receive a thrust force acting on the rotating shaft by slidingly contacting the collar member rotating together with the rotating shaft at the inner peripheral edge.
- Lubricating oil is supplied to the sliding contact portion of the thrust bearing that is in sliding contact with the collar member.
- An oil director (deflector 18) that defines an oil drain space (first chamber 20) between the thrust bearing and one end face of the thrust bearing is disposed on one end face side of the thrust bearing.
- the oil drainage space is formed so as to surround the periphery of the sliding contact portion of the thrust bearing. And the lubricating oil which splashes from a sliding contact part with rotation of a rotating shaft is collected, and the role which drains outside from the oil discharge port (oil discharge port 24) formed in the downward direction of oil discharge space is played.
- the area center of the oil discharge port is positioned on the upstream side in the rotation direction with respect to the vertical axis passing through the rotation center of the rotation shaft. It is configured to facilitate the discharge of lubricating oil.
- the lubricating oil may not be smoothly discharged from the oil discharging port, and the lubricating oil may be filled in the oil discharging space.
- At least one embodiment of the present invention is an invention based on such a state of the art, and the object is to smoothly discharge the lubricating oil supplied to the thrust bearing. It is an object of the present invention to provide a thrust bearing oil draining device and a turbocharger including the same.
- a thrust bearing oil draining device comprises: A rotation axis; A collar member mounted on an outer periphery of the rotary shaft so as to be rotatable together with the rotary shaft, and having a cylindrical color main body portion and a flange portion formed to have a larger diameter than the color main body portion; , A thrust having an insertion hole through which the rotation shaft is inserted, and supporting the rotation shaft in the axial direction rotating in a state of being inserted into the insertion hole by sliding contact with one end surface of the flange portion of the collar member A bearing, A supply oil path for supplying lubricating oil to the sliding contact portion of the thrust bearing that is in sliding contact with one end surface of the flange portion; An oil discharge space forming member that is provided on one end face side of the thrust bearing and delimits an oil discharge space through which the lubricating oil leaked from the sliding contact portion of the thrust bearing flows with the thrust bearing; The oil drainage space is An oil drainage passage that is defined between one end face of
- the thrust bearing is disposed between the thrust bearing that is in sliding contact with the collar member that rotates together with the rotary shaft, and the oil space forming member that is provided on one end surface side of the thrust bearing.
- An oil drain space through which the lubricating oil leaking from the sliding contact portion flows is defined.
- the oil drainage space is configured to pass the lubricant flowing in the oil drainage passage along the flow direction of the lubricant flowing in the oil drainage passage from the upstream side to the downstream side in the rotation direction of the rotary shaft. It is comprised so that it may guide outside the drainage space via.
- the oil drainage space forming member is a center through which the collar main body portion of the collar member attached to the rotation shaft is inserted.
- An intermediate formed with a gap between the hole, the inner peripheral edge that is in sliding contact with the other end face of the flange portion of the collar member on the outer peripheral side of the central hole, and the one end face of the thrust bearing on the outer peripheral side of the inner peripheral edge And at least a main body portion that is in contact with one end face of the thrust bearing on the outer peripheral side of the intermediate portion.
- the oil discharge port is formed by a portion where the outer peripheral edge at the lower end of the main body is not formed.
- the outer peripheral edge portion has a straight portion extending along a tangential direction at a predetermined position from a predetermined position on the upstream side in the rotation direction to the oil discharge port from the oil discharge port. And it is comprised by this straight part so that the lubricating oil which flows through an oil discharge flow path may be guide
- Lubricating oil that flows through the oil drainage channel flows mainly along the outer periphery of the oil drainage channel due to the centrifugal force associated with the rotation of the rotating shaft. Therefore, according to the embodiment described in (2) above, in the outer peripheral edge portion that forms the outer peripheral edge of the oil drainage channel, the predetermined distance from the predetermined position upstream of the oil drainage port to the oil drainage port is predetermined. By forming the straight portion extending along the tangential direction at the position, the lubricating oil flowing through the oil drainage passage can be smoothly guided to the oil discharge port along the straight portion.
- the oil drainage space forming member and the thrust bearing provided on the other end surface side of the oil drainage space forming member are arranged on the rotating shaft.
- the retainer is further provided to be held on the outer peripheral side.
- the retainer has an inclined surface extending obliquely downward toward the thrust bearing side below the oil discharge port.
- the lubricating oil discharged downward from the oil discharge port flows through the inclined surface of the retainer and is guided to the outside of the bearing housing. For this reason, it is not necessary to form a tongue or the like for guiding the lubricating oil discharged from the oil discharge port to the outside of the bearing housing, and the shapes of the oil discharge space forming member and the thrust bearing are simplified. Can be configured.
- the oil drainage space forming member is a collar of a collar member mounted on a rotary shaft.
- a gap is formed between the central hole through which the main body is inserted, the inner peripheral edge that is in sliding contact with the other end surface of the flange portion of the collar member on the outer peripheral side of the central hole, and the one end surface of the thrust bearing on the outer peripheral side of the inner peripheral edge.
- a main body portion formed on the outer peripheral side of the intermediate portion, and an outer peripheral edge portion that contacts the one end surface of the thrust bearing, and extends obliquely downward from the lower end of the main body portion toward the thrust bearing side.
- the oil discharge port is formed by a portion where the outer peripheral edge at the lower end of the main body is not formed.
- the tongue portion is formed to be inclined downward from the downstream edge side of the outer peripheral edge portion toward the upstream edge side in a front view. And it is comprised by this tongue part so that the lubricating oil which flows through a waste oil flow path may be guide
- the oil drainage space forming member in the embodiment includes a main body portion that defines an oil drainage space with the thrust bearing, and a tongue portion that extends obliquely downward from the lower end of the main body portion toward the thrust bearing side.
- the tongue portion is configured to guide the lubricating oil discharged from the oil discharge port to the outside of the bearing housing.
- the oil drainage space forming member includes the tongue portion, the lubricating oil that has flowed out of the oil discharge passage is not discharged from the oil discharge port, but flows again on the surface of the tongue portion due to the centrifugal force of the rotating shaft and is discharged again. There is a risk of returning to the oil passage.
- the tongue portion is formed so as to be inclined downward from the downstream edge side of the outer peripheral edge portion toward the upstream edge side in the front view. It is possible to reduce the amount of lubricating oil that returns to the oil discharge passage without being discharged from the oil.
- an intermediate portion of the oil drainage space forming member may be another intermediate portion. It has a recessed part comprised so that the clearance gap between the one end surfaces of a thrust bearing may become larger than a part.
- the oil drain passage includes an oil drain groove 54d extending in the circumferential direction formed by the recess 54a.
- the oil drainage channel is configured to include a drainage groove extending in the circumferential direction formed by the recess.
- the lubricating oil flowing in the oil drain groove flows through the oil drain passage without contacting the collar member, and is discharged from the oil drain port to the outside of the oil drain space.
- the gas-liquid boundary surface of the lubricating oil flowing through the oil discharge passage can be formed on the outer peripheral side as compared with the case where the oil discharge groove is not formed. At the same time, the possibility of agitation loss occurring with the rotating collar member is reduced.
- a plurality of oil drain space forming members are arranged at intervals in the circumferential direction in the oil drain passage. It further includes a guide plate for guiding the lubricating oil flowing through the oil passage to the oil drain groove.
- the lubricating oil flowing through the oil drainage channel is guided to the oil drainage groove by the guide plate.
- the amount of lubricating oil flowing through the oil drain groove is further increased, so that the possibility of agitation loss occurring with the collar member rotating together with the rotating shaft is reduced.
- the guide plate extends radially inward from the peripheral end portion of the oil drain space forming member.
- the front end edge of the guide plate is located closer to the thrust bearing than the rear end edge of the guide plate, and the intersection of the front end edge and the peripheral end is more in the flow direction than the intersection of the rear end edge and the peripheral end. It is comprised so that it may be located in the upstream.
- the oil drainage space forming member has a second fluid communication with the oil drainage channel. And the lubricating oil flowing through the oil discharge passage is discharged to the outside of the oil discharge space through the second oil discharge port.
- the lubricating oil flowing through the oil discharge passage is also discharged from the second oil discharge port.
- the amount of lubricating oil flowing through the oil discharge passage can be reduced, so that the oil is not filled in the oil discharge space, and a stirring loss occurs between the collar member that rotates together with the rotating shaft. The fear is reduced.
- the second oil drain port is a lubrication that flows through the oil drain passage in the upper portion of the oil drain space forming member. It opens so as to face the oil flow direction.
- the one end surface of the thrust bearing is located on the outer peripheral side of the outer peripheral end surface of the flange portion.
- a groove extending in the circumferential direction is formed at the position.
- the outer one end surface located in the outer peripheral side rather than a groove part among the one end surfaces of a thrust bearing protrudes in the oil drainage space formation member side rather than the inner one end surface located in an inner peripheral side rather than a groove part.
- the lubricating oil leaked to the outer peripheral side from the sliding contact portion of the thrust bearing is guided to the groove portion formed on one end surface of the thrust bearing.
- Lubricating oil flowing through the groove flows through the oil drainage channel without being in contact with the collar member, and is discharged from the oil drain port.
- the gas-liquid boundary surface of the lubricating oil which flows through a waste oil flow path can be formed in the outer peripheral side. . For this reason, a possibility that stirring loss may occur with the collar member is reduced.
- the oil drainage port passes through the center of rotation of the rotary shaft and extends vertically. It is formed in a region upstream of the extending center line in the rotational direction.
- the oil drainage space forming member includes the tongue portion
- the lubricating oil that has flowed out of the oil drainage passage does not drain from the oil drainage port, but flows on the surface of the tongue portion due to the centrifugal force of the rotating shaft. May return to the oil drainage channel. Therefore, according to the embodiment described in (11) above, the oil discharge port is formed only in the upstream region of the rotation direction with respect to the center line, so that the oil discharge channel is not discharged from the oil discharge port again. The amount of lubricant that returns can be reduced.
- the oil drainage space forming member is a collar of a collar member attached to a rotating shaft.
- a gap is formed between the central hole through which the main body is inserted, the inner peripheral edge that is in sliding contact with the other end surface of the flange portion of the collar member on the outer peripheral side of the central hole, and the one end surface of the thrust bearing on the outer peripheral side of the inner peripheral edge.
- a main body portion formed on the outer peripheral side of the intermediate portion, and an outer peripheral edge portion that contacts the one end surface of the thrust bearing, and extends obliquely downward from the lower end of the main body portion toward the thrust bearing side.
- the said oil drain opening is formed of the part in which the outer periphery part in the lower end of a main-body part is not formed.
- the tongue portion has a bent portion that is bent so as to close the oil drain port in the region downstream of the center line in the rotation direction.
- the tongue portion has a bent portion formed by bending the tongue portion so as to close the oil drain port in the downstream region in the rotational direction from the center line. For this reason, it is possible to reduce the amount of lubricating oil that returns to the oil discharge passage without being discharged from the oil discharge port.
- the oil drainage channel in the oil drainage device for a thrust bearing according to any one of the above (2) to (12), the oil drainage channel extends from the upstream edge to the downstream end of the outer peripheral edge.
- the cross section of the flow path is formed so as to increase in the rotation direction.
- the flow rate of the lubricating oil flowing through the oil drainage passage increases toward the downstream side in the rotation direction. For this reason, when the cross section of the flow path is small with respect to the amount of the lubricating oil, the gas-liquid boundary surface of the lubricating oil may be formed on the inner peripheral side and come into contact with the collar member. Therefore, according to the embodiment described in (13) above, since the flow passage cross section on the downstream side of the oil drainage passage where the amount of the lubricating oil increases is formed, the lubricating oil is formed on the downstream side of the oil drainage passage. It is possible to prevent the gas-liquid boundary surface from coming into contact with the collar member.
- the oil drainage space forming member is an oil deflector made of sheet metal.
- the oil drain space forming member is configured by the oil deflector made of sheet metal. For this reason, processing is easy compared with the case where a drainage space formation member is comprised, for example with a castable insert member.
- turbocharger according to at least one embodiment of the present invention is: A turbine impeller provided on one end side of the rotating shaft; A compressor impeller provided on the other end of the rotating shaft; A thrust bearing device according to any one of (1) to (14).
- turbocharger including a thrust bearing oil draining device capable of smoothly discharging the lubricating oil supplied to the thrust bearing.
- a thrust bearing oil discharger capable of smoothly discharging the lubricating oil supplied to the thrust bearing, and a turbocharger including the same.
- FIG. 2 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention.
- FIG. 3 is an exploded perspective view of the oil drainage device of the thrust bearing shown in FIG. 2.
- FIG. 3 is a schematic view showing an oil discharge space of the thrust bearing oil discharge device shown in FIG. 2.
- FIG. 2 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention.
- FIG. 6 is a sectional view showing an oil draining device for the thrust bearing shown in FIG. 5.
- FIG. 2 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention.
- FIG. 10 is a perspective view showing a guide plate in the oil drainage device of the thrust bearing shown in FIG. 9. It is the schematic which showed the oil drain space of the oil drain apparatus of the thrust bearing concerning one Embodiment of this invention.
- FIG. 2 is an enlarged view of the vicinity of a part in FIG.
- FIG. 1 is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention. It is the schematic which showed the oil drain space of the oil drain apparatus of the thrust bearing concerning one Embodiment of this invention. It is the schematic which showed the oil drain space of the oil drain apparatus of the thrust bearing concerning one Embodiment of this invention. It is the schematic which showed the oil drain space of the oil drain apparatus of the thrust bearing concerning one Embodiment of this invention.
- FIG. 2 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention.
- an expression indicating that things such as “identical”, “equal”, and “homogeneous” are in an equal state not only represents an exactly equal state, but also has a tolerance or a difference that can provide the same function. It also represents the existing state.
- expressions representing shapes such as quadrangular shapes and cylindrical shapes represent not only geometrically strict shapes such as quadrangular shapes and cylindrical shapes, but also irregularities and chamfers as long as the same effects can be obtained. A shape including a part or the like is also expressed.
- the expressions “comprising”, “comprising”, “comprising”, “including”, or “having” one constituent element are not exclusive expressions for excluding the existence of the other constituent elements. In the following description, the same components may be denoted by the same reference numerals and detailed description thereof may be omitted.
- FIG. 1 is a cross-sectional view showing a cross section along the axial direction of a rotation shaft in a turbocharger according to an embodiment of the present invention.
- the turbocharger according to one embodiment of the present invention is not particularly limited, but is a turbocharger mounted on, for example, an automobile engine.
- the turbocharger 100 of the present embodiment includes a turbine housing 102 that houses a turbine impeller 103 provided on one end side of the rotating shaft 2, and a compressor impeller provided on the other end side of the rotating shaft 2.
- Compressor housing 104 that accommodates 105, radial bearing 110 that rotatably supports rotating shaft 2, and bearing housing 106 that accommodates thrust bearing 4 that supports the thrust force of rotating shaft 2.
- a spiral turbine scroll passage 113 is formed on the outer periphery of the turbine housing 102.
- a turbine impeller 103 is disposed in the central portion of the turbine scroll passage 113.
- the turbine impeller 103 includes a frustoconical turbine hub 103a obtained by cutting a cone head in a plane parallel to the bottom surface, and a plurality of turbine blades 103b provided to project radially from the peripheral surface of the turbine hub 103a.
- the turbine hub 103a of the turbine impeller 103 is joined to one end of the rotating shaft 2 by welding, for example. Then, the exhaust gas that has flowed through the turbine scroll passage 113 and has acted on the turbine impeller 103 is discharged to the outside of the turbine housing 102 from the exhaust gas outlet 111 that opens in the axial direction of the rotary shaft 2.
- a spiral compressor scroll channel 117 is formed on the outer periphery of the compressor housing 104.
- a compressor impeller 105 is disposed in the central portion of the compressor scroll passage 117.
- the compressor impeller 105 includes a frustoconical compressor hub 105a obtained by cutting a cone head in a plane parallel to the bottom surface, and a plurality of compressor blades 105b provided to project radially from the peripheral surface of the compressor hub 105a. Become.
- An insertion hole (not shown) into which the other end side of the rotary shaft 2 is inserted is formed at the center of the compressor hub 105a of the compressor impeller 105.
- the compressor impeller 105 is fixed to the other end portion of the rotary shaft 2 by tightening a nut 116 from the tip of the compressor hub 105a after the one end side of the rotary shaft 2 is inserted into the fitting insertion hole. Then, the intake gas that flows through the intake inlet 115 that opens in the axial direction of the rotary shaft 2 and is compressed by the compressor impeller 105 flows through the compressor scroll passage 117 and is supplied to an engine (not shown).
- the bearing housing 106 is disposed between the turbine housing 102 and the compressor housing 104, one end side is connected to the turbine housing 102, and the other end side is connected to the compressor housing 104.
- Inside the bearing housing 106 is formed an internal space through which the rotary shaft 2 can be inserted in the axial direction, and the radial bearing 110 and the thrust bearing 4 described above are accommodated in this internal space.
- an inlet oil passage 112 for supplying lubricating oil to the radial bearing 110 and the thrust bearing 4 described above is formed in the upper portion of the bearing housing 106.
- the lubricating oil introduced into the bearing housing 106 from the inlet oil passage 112 lubricates the radial bearing 110 and the thrust bearing 4, and then from the outlet oil passage 114 formed in the lower portion of the bearing housing 106, It is discharged outside.
- a thrust bearing oil draining device 1 for discharging the lubricating oil supplied to the thrust bearing 4 to the outlet oil passage 114 is configured in a portion shown in FIG. 1.
- FIG. 2 is an enlarged view of the vicinity of the portion a in FIG. 1, and is a cross-sectional view showing an oil discharge device for a thrust bearing according to an embodiment of the present invention.
- FIG. 3 is an exploded perspective view of the oil drainage device of the thrust bearing shown in FIG.
- FIG. 4 is a schematic view showing an oil drain space of the thrust bearing oil drain device shown in FIG.
- FIG. 5 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil draining device for a thrust bearing according to an embodiment of the present invention.
- 6 is an exploded perspective view of the oil drainage device of the thrust bearing shown in FIG.
- FIG. 7 is a schematic view showing an oil drain space of the thrust bearing oil drain device shown in FIG. FIG.
- FIG. 8 is a cross-sectional view showing an oil draining device of the thrust bearing shown in FIG.
- FIG. 9 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil draining device for a thrust bearing according to an embodiment of the present invention.
- FIG. 10 is a perspective view showing a guide plate in the oil drainage device of the thrust bearing shown in FIG.
- FIG. 11 is a schematic view showing an oil drain space of a thrust bearing oil drain device according to an embodiment of the present invention.
- FIG. 12 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil draining device for a thrust bearing according to an embodiment of the present invention.
- FIG. 10 is a perspective view showing a guide plate in the oil drainage device of the thrust bearing shown in FIG.
- FIG. 11 is a schematic view showing an oil drain space of a thrust bearing oil drain device according to an embodiment of the present invention.
- FIG. 12 is an enlarged
- FIG. 13 is a schematic view showing an oil drain space of a thrust bearing oil drain device according to an embodiment of the present invention.
- FIG. 14 is a schematic view showing an oil drain space of a thrust bearing oil drain device according to an embodiment of the present invention.
- FIG. 15 is an enlarged view of the vicinity of a part in FIG. 1, and is a cross-sectional view showing an oil draining device for a thrust bearing according to an embodiment of the present invention.
- a thrust bearing oil draining device 1 includes a rotating shaft 2, a compressor side thrust collar (collar member) 3, a thrust bearing 4, The oil drainage space forming member 5 is provided.
- the compressor-side thrust collar 3 includes a cylindrical collar body 31 and a flange portion 32 that has a larger diameter than the collar body 31. Yes. And it mounts
- a turbine-side thrust collar 9 is mounted on the outer peripheral surface of the rotating shaft 2 on the turbine side relative to the compressor-side thrust collar 3.
- the turbine-side thrust collar 9 has a cylindrical collar body 91 and a flange portion 92 formed with a larger diameter than the collar body 91.
- the tip surface of the collar main body portion 91 of the turbine side thrust collar 9 is in contact with one end surface 32 a of the flange portion 32 of the compressor side thrust collar 3.
- the thrust bearing 4 is an annular plate-like member having an insertion hole 41 through which the rotary shaft 2 is inserted.
- the rotary shaft 2 is inserted into the insertion hole 41 by sliding contact with the one end surface 32a of the flange portion 32 of the compressor side thrust collar 3.
- the rotating shaft 2 rotating in a state is configured to be supported in the axial direction.
- the collar body 91 of the turbine-side thrust collar 9 described above is located on the inner peripheral side of the thrust bearing 4. That is, the rotation shaft 2 and the collar main body portion 91 of the turbine-side thrust collar 9 mounted on the outer periphery of the rotation shaft 2 are inserted through the insertion hole 41 of the thrust bearing 4.
- the outer peripheral end of the thrust bearing 4 is fixed to the bearing housing 106 as will be described later.
- the inner peripheral surface of the thrust bearing 4 and the outer peripheral surface of the collar main body 91 of the turbine side thrust collar 9 are configured to come into sliding contact with the rotation of the rotary shaft 2.
- a supply oil passage 43 for supplying lubricating oil to the sliding contact portion 42 of the thrust bearing 4 that is in sliding contact with the one end surface 32 a of the flange portion 32 of the compressor side thrust collar 3 is formed inside the thrust bearing 4.
- an inlet side opening is formed on the other end surface 4 b of the thrust bearing 4
- an outlet side opening is formed on the inner peripheral surface of the thrust bearing 4.
- the lubricating oil supplied from the outlet side opening is between the inner peripheral surface of the thrust bearing 4 and the outer peripheral surface of the collar main body 91 of the turbine side thrust collar 9, and between the sliding contact portion 42 of the thrust bearing 4 and the compressor side.
- the thrust collar 3 is configured to be supplied between one end surface 32 a of the flange portion 32.
- the oil drainage space forming member 5 is provided on the one end face 4a side of the thrust bearing 4 as shown in FIGS. Then, an oil drain space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows is defined between the thrust bearing 4 and the thrust bearing 4.
- the oil drain space 6 includes an oil drain passage 6A and a drain port 6B.
- the oil drain passage 6 ⁇ / b> A is defined between one end surface 4 a of the thrust bearing 4 and one end surface 5 a of the oil drain space forming member 5, and is formed so as to surround the flange portion 32 of the compressor side thrust collar 3.
- the oil discharge port 6B is formed below the oil discharge passage 6A and is configured to discharge the lubricating oil flowing through the oil discharge passage 6A to the outside of the oil discharge space 6.
- the lubricating oil discharged from the oil discharge space 6 is discharged to the outside of the bearing housing 106 through an outlet oil passage 114 formed in the lower part of the bearing housing 106 shown in FIG. As shown in FIGS.
- the oil drain space 6 extends along the flow direction f of the lubricating oil flowing through the oil drain passage 6 ⁇ / b> A from the upstream side to the downstream side in the rotation direction R of the rotating shaft 2.
- the lubricating oil flowing through the oil discharge passage 6A is configured to be guided to the outside of the oil discharge space 6 through the oil discharge port 6B.
- the lubricating oil supplied to the thrust bearing 4 is smoothly discharged from the oil draining space 6. 6 is not filled with lubricating oil. For this reason, it is possible to reduce the possibility that the gas-liquid boundary surface of the lubricating oil comes into contact with the compressor-side thrust collar 3 (color member) and a stirring loss occurs.
- the oil drainage space forming member 5 includes a central hole 51, an inner peripheral edge portion 52, an intermediate portion 54, and an outer peripheral edge portion 53.
- the annular body 5A is included, and the tongue 5B is not formed as in the embodiment described later.
- a color main body 31 of the compressor-side thrust collar 3 attached to the rotary shaft 2 is inserted into the central hole 51.
- the inner peripheral edge portion 52 is in sliding contact with the other end surface 32 b of the flange portion 32 of the compressor side thrust collar 3 on the outer peripheral side of the central hole 51.
- the intermediate part 54 is formed on the outer peripheral side of the inner peripheral edge part 52 with a gap between the one end face 4 a of the thrust bearing 4.
- the outer peripheral edge 53 contacts the one end surface 4 a of the thrust bearing 4 on the outer peripheral side of the intermediate portion 54.
- the oil drain port 6B is formed by a portion where the outer peripheral edge 53 is not formed at the lower end 57 of the main body 5A.
- the outer peripheral edge 53 has a linear portion 53a extending along a tangential direction at the predetermined position a from the predetermined position a (see FIG. 4) upstream of the oil discharge port 6B in the rotation direction R to the oil discharge port 6B.
- the straight line portion 53a is configured to guide the lubricating oil flowing through the oil discharge passage 6A to the outside of the oil discharge space 6 through the oil discharge port 6B along the flow direction f of the lubricating oil.
- the planar shape of the thrust bearing 4 has a simple shape in which a circular lower portion is cut into a straight line.
- a concave notch 44 is formed so as to define the oil drain port 6B with the tongue 5B.
- Lubricating oil flowing through the oil drainage channel 6A flows mainly along the outer peripheral edge 61 of the oil drainage channel 6A due to the centrifugal force accompanying the rotation of the rotary shaft 2. Therefore, according to such an embodiment, in the outer peripheral edge 53 that forms the outer peripheral edge 61 of the oil discharge passage 6A, the oil discharge port 6B from the predetermined position a upstream in the rotation direction R with respect to the oil discharge port 6B. As a result, the straight portion 53a extending along the tangential direction at the predetermined position a is formed, so that the lubricating oil flowing through the oil drain passage 6A can be smoothly guided to the oil outlet 6B along the straight portion 53a. I can do it.
- the oil drainage space forming member 5 and the thrust bearing 4 provided on the other end surface 5 b side of the oil drainage space forming member 5 are held on the outer peripheral side of the rotary shaft 2.
- a retainer 7 is further provided.
- the retainer 7 has an inclined surface 7a extending obliquely downward toward the thrust bearing 4 side below the oil discharge port 6B.
- the oil drainage space forming member 5 is composed of an oil deflector 5 that is an annular member made of sheet metal.
- the retainer 7 is also an annular member, and a projecting portion 71 projecting toward the thrust bearing 4 is formed on the outer periphery thereof.
- a tip end surface 71a is formed in a portion of the projecting portion 71 that is in contact with the thrust bearing 4 and the oil drainage space forming member 5 except for the portion where the inclined surface 7a is formed.
- the thrust bearing 4 and the oil drainage space forming member 5 are pressed by pressing the outer peripheral edge portion 53 of the oil deflector 5 and the outer peripheral end portion of the thrust bearing 4 against the one end surface 106a of the inner peripheral convex portion 106A of the bearing housing 106 by the front end surface 71a. Is held on the outer peripheral side of the rotary shaft 2. Further, the rear end surface 71 b of the projecting portion 71 is in contact with an annular movement restricting member 73 fitted in the inner peripheral groove of the bearing housing 106. The retainer 7 is pressed against the thrust bearing 4 by the movement restricting member 73.
- the lubricating oil discharged downward from the oil discharge port 6B flows through the inclined surface 7a of the retainer 7 and is guided to the outside of the bearing housing 106. For this reason, it is not necessary to form the tongue 5B for guiding the lubricating oil discharged from the oil discharge port 6B to the outside of the bearing housing 106 in the oil discharge space forming member 5, and the oil discharge space forming member 5 and the thrust bearing.
- the shape of 4 can be configured simply.
- the oil drainage space forming member 5 includes a central hole 51, an inner peripheral edge portion 52, an intermediate portion 54, and an outer peripheral edge portion 53.
- An annular main body 5A and a plate-like tongue 5B extending obliquely downward from the lower end 57 of the main body 5A toward the thrust bearing 4 are included.
- a color main body 31 of the compressor-side thrust collar 3 attached to the rotary shaft 2 is inserted into the central hole 51.
- the inner peripheral edge portion 52 is in sliding contact with the other end surface 32 b of the flange portion 32 of the compressor side thrust collar 3 on the outer peripheral side of the central hole 51.
- the intermediate part 54 is formed on the outer peripheral side of the inner peripheral edge part 52 with a gap between the one end face 4 a of the thrust bearing 4.
- the outer peripheral edge 53 contacts the one end surface 4 a of the thrust bearing 4 on the outer peripheral side of the intermediate portion 54.
- the oil drain port 6B is formed by a portion where the outer peripheral edge 53 is not formed at the lower end 57 of the main body 5A.
- the tongue portion 5B is formed to be inclined downward from the downstream edge 53b side of the outer peripheral edge portion 53 toward the upstream edge 53c side in a front view when the oil drainage space 6 is viewed from the axial direction. That is, as shown in FIG.
- the height H of the oil discharge port 6B defined as the vertical distance between the thrust bearing 4 and the tongue 5B is from the downstream edge 53b side to the upstream edge 53c side of the outer peripheral edge 53. (H3 ⁇ H2 ⁇ H1).
- the tongue 5B guides the lubricating oil flowing through the drain oil passage 6A to the outside of the drain oil space 6 through the oil drain port 6B along the flow direction f of the lubricating oil flowing through the drain oil passage 6A. It is configured as follows.
- a concave notch 44 is formed in the lower portion of the thrust bearing 4. And the oil drain port 6B is demarcated between this notch part 44 and the tongue part 5B located in the downward direction.
- the oil drainage space forming member 5 in such an embodiment has a main body portion 5A that defines the oil drainage space 6 with the thrust bearing 4, and a lower end of the main body portion 5A toward the thrust bearing 4 side. It includes a tongue 5B extending obliquely downward.
- the tongue 5B is configured to guide the lubricating oil discharged from the oil discharge port 6B to the outlet oil passage 114 of the bearing housing 106.
- the oil drain space forming member 5 includes the tongue portion 5B, the lubricating oil flowing out from the oil drain passage 6A is not discharged from the oil drain port 6B, and the tongue portion 5B is caused by the centrifugal force of the rotating shaft 2. There is a possibility that it will flow back to the oil drain passage 6A again.
- the tongue 5B is formed so as to be inclined downward from the downstream edge 53b side of the outer peripheral edge 53 toward the upstream edge 53c side in the front view. It is possible to reduce the amount of lubricating oil that returns to the oil discharge passage 6A without being discharged from the oil port 6B.
- the intermediate portion 54 of the oil drainage space forming member 5 is located between the one end surface 4 a of the thrust bearing 4 rather than the other portion of the intermediate portion 54.
- a recess 54a configured to increase the gap.
- the oil drainage channel 6A includes a drainage groove 54d (see FIG. 9B) extending in the circumferential direction formed by the above-described recess 54a.
- the concave portion 54 a is formed at a position on the inner peripheral side of the outer peripheral edge portion 53 so as to be continuous with the peripheral end portion 56 extending perpendicularly to the one end surface 4 a of the thrust bearing 4.
- the intermediate part 54 has the flat part 54b located in the inner peripheral side of the recessed part 54a other than the recessed part 54a, and the hollow part 54c located in the inner peripheral side of the flat part 54b.
- the clearance between the one end surface 4a of the thrust bearing 4 is the largest in the recess 54a.
- the oil drain passage 6A described above is configured to include a drain oil groove 54d extending in the circumferential direction formed by the recess 54a.
- the lubricating oil flowing through the oil drain groove 54d flows through the oil drain passage 6A without coming into contact with the flange portion 32 of the compressor side thrust collar 3, and is discharged from the oil drain port 6B to the outside of the oil drain space 6.
- the gas-liquid boundary surface of the lubricating oil flowing through the oil discharge passage 6A can be formed on the outer peripheral side as compared with the case where the oil discharge groove 54d is not formed. For this reason, a possibility that stirring loss may occur between the compressor side thrust collar 3 rotating together with the rotating shaft 2 is reduced.
- the oil drain space forming member 5 includes a plurality of oil drain channels 6 ⁇ / b> A that are arranged at intervals in the circumferential direction in the oil drain channel 6 ⁇ / b> A. It further includes a guide plate 55 for guiding the flowing lubricating oil to the oil drain groove 54d.
- the lubricating oil flowing through the oil drain passage 6A is guided by the guide plate 55 to the oil drain groove 54d.
- the amount of lubricating oil flowing through the oil drain groove 54d further increases, so that the possibility of agitation loss occurring with the compressor-side thrust collar 3 that rotates together with the rotary shaft 2 is reduced.
- the guide plate 55 extends radially inward from the peripheral end portion 56 of the oil drain space forming member 5.
- the front end edge 55a of the guide plate 55 is located closer to the thrust bearing 4 than the rear end edge 55b of the guide plate 55, and the intersection 55c1 between the front end edge 55a and the peripheral end portion 56 is the rear end edge 55b and the peripheral end portion. It is configured to be located on the upstream side in the flow direction f from the intersection point 55c2 with 56.
- the lubricating oil flowing through the oil discharge passage 6A can be smoothly guided to the oil discharge groove 54d along the flow direction f of the oil discharge passage 6A.
- the amount of lubricating oil flowing through the oil drain groove 54d further increases, so that the possibility of agitation loss occurring with the compressor-side thrust collar 3 that rotates together with the rotary shaft 2 is reduced.
- the oil discharge space forming member 5 has a second oil discharge port 6C that communicates with the oil discharge flow path 6A. That is, the outer peripheral edge portion 53 described above is not formed in the portion where the second oil discharge port 6C is formed. And it is comprised so that the lubricating oil which flows through the oil drain flow path 6A may be discharged
- the lubricating oil flowing through the drain oil passage 6A is also discharged from the second drain port 6C.
- the oil is not filled in the oil discharge space 6, and between the compressor side thrust collar 3 rotating together with the rotary shaft 2. This reduces the possibility of stirring loss.
- the second oil drain port 6 ⁇ / b> C faces the flow direction f of the lubricating oil flowing through the oil drain passage 6 ⁇ / b> A at the upper part of the oil drain space forming member 5. So that it opens.
- the upper side portion 53e of the second oil discharge port 6C extends from the point b which is the uppermost portion of the oil discharge passage 6A along the tangential direction at the point b.
- the lubricating oil flowing through the drain oil passage 6A is likely to gather at the second drain port 6C, the amount of lubricant discharged from the second drain port 6C increases. Thereby, the amount of lubricating oil flowing through the oil drain passage 6A can be further reduced. For this reason, the lubricating oil is not filled in the oil exhaust space 6, and the possibility of agitation loss occurring between the compressor side thrust collar 3 rotating together with the rotary shaft 2 is reduced.
- a groove portion 44 extending in the circumferential direction is formed on one end surface 4 a of the thrust bearing 4 at a position on the outer peripheral side of the outer peripheral end surface 32 c of the flange portion 32.
- the outer end surface 4 a 1 located on the outer peripheral side of the groove portion 44 in the one end surface 4 a of the thrust bearing 4 is more oil drainage space forming member 5 than the inner end surface 4 a 2 located on the inner peripheral side of the groove portion 44. Protrudes to the side.
- the sliding contact portion 42 of the thrust bearing 4 is a portion in sliding contact with the one end surface 32a of the flange portion 32 in the inner one end surface 4a2.
- the lubricating oil leaked to the outer peripheral side from the sliding contact portion 42 of the thrust bearing 4 is guided to the groove portion 44 formed on the one end surface 4 a of the thrust bearing 4.
- the lubricating oil flowing through the groove 44 flows through the oil discharge passage 6A and is discharged from the oil discharge port 6B without coming into contact with the compressor-side thrust collar 3.
- the gas-liquid boundary surface of the lubricating oil flowing through the oil drainage passage 6A is formed on the outer peripheral side. It can be made. For this reason, a possibility that a stirring loss may occur with the compressor-side thrust collar 3 is reduced.
- the oil drain port 6 ⁇ / b> B passes upstream of the rotation center O of the rotation shaft 2 and extends in the upstream direction in the rotation direction R from the center line CL extending in the vertical direction. Formed in the region.
- the “vertical direction” means that the outlet oil passage 114 of the bearing housing 106 is located on the lower side when the oil draining device 1 of the thrust bearing of the present embodiment is incorporated into the bearing housing 106.
- the vertical direction (vertical direction) when the bearing housing 106 is disposed is indicated.
- the oil drain space forming member 5 includes the tongue 5B
- the lubricating oil flowing out from the oil drain passage 6A is not discharged from the oil drain port 6B, but by the action of the centrifugal force of the rotary shaft 2,
- the oil discharge port 6B is formed only in the region upstream of the center line CL in the rotation direction R, and therefore, the oil discharge channel 6A is not discharged from the oil discharge port 6B. The amount of lubricant that returns can be reduced.
- the oil drainage space forming member 5 includes an annular main body portion 5A including a central hole 51, an inner peripheral edge portion 52, an intermediate portion 54, and an outer peripheral edge portion 53, and the main body portion 5A.
- a plate-like tongue portion 5B extending obliquely downward from the lower end 57 toward the thrust bearing 4 side.
- the oil drain port 6B is formed by a portion where the outer peripheral edge 53 is not formed at the lower end 57 of the main body 5A.
- the oil drain port 6B is formed in the area
- the tongue portion 5B has a bent portion 5B1 that is bent so as to close the oil drain port 6B in a region downstream in the rotation direction R from the center line CL.
- the tongue portion 5B has the bent portion 5B1 formed by bending the tongue portion 5B so as to close the oil drain port 6B in the region downstream in the rotation direction R from the center line CL. . For this reason, it is possible to reduce the amount of lubricating oil that returns to the oil discharge passage 6A without being discharged from the oil discharge port 6B.
- the oil drainage channel 6 ⁇ / b> A is a channel in the rotational direction R from the upstream edge 53 c of the outer peripheral edge 53 toward the downstream edge 53 b.
- the cross section is formed to be large.
- the flow passage width of the oil discharge passage 6A is formed so as to increase in the order of a ⁇ b ⁇ c from upstream to downstream.
- the flow rate of the lubricating oil flowing through the oil drain passage 6A increases toward the downstream side in the rotation direction R. For this reason, if the flow path cross-section is small with respect to the amount of lubricating oil, the gas-liquid boundary surface of the lubricating oil may be formed on the inner peripheral side and come into contact with the compressor-side thrust collar 3. Therefore, according to such an embodiment, since the flow passage cross section on the downstream side of the oil discharge passage 6A in which the amount of the lubricating oil increases is formed, the lubricating oil is formed on the downstream side of the oil discharge passage 6A. Can be prevented from contacting the compressor-side thrust collar 3.
- the oil drainage space forming member 5 is formed from a sheet metal oil deflector 5.
- the oil deflector 5 and the thrust bearing 4 are fixed to the bearing housing 106 by the retainer 7.
- the oil drainage space forming member 5 can be formed by the insert member 8 and the oil deflector 5 and the retainer 7 can be omitted.
- the insert member 8 is an annular integral member manufactured by casting or forging.
- the thrust bearing 4 is fixed to the bearing housing 106 by being pressed against the thrust bearing 4 side by the movement restricting member 73.
- the oil drainage device 1 of the thrust bearing is Rotating shaft 2;
- a collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- the oil drainage space forming member 5 includes an insert member 8 configured to hold the thrust bearing 4 on the outer peripheral side of the rotary shaft 2.
- Oil drain space 6 The flange portion 32 of the collar member 3 is defined between the groove portion 44 formed on the outer peripheral end surface 32c of the flange portion 32 on the one end surface 4a of the thrust bearing 4 and the one end surface 8a of the insert member 8.
- Outer end surface 4 a 1 located on the outer peripheral side of groove portion 44 in one end surface 4 a of thrust bearing 4 protrudes closer to insert member 8 than inner end surface 4 a 2 located on the inner peripheral side of groove portion 44.
- You may comprise as follows.
- the lubricating oil leaked to the outer peripheral side from the sliding contact portion 42 of the thrust bearing 4 is guided to the groove portion 44 formed on the one end face 4 a of the thrust bearing 4. .
- the lubricating oil flowing through the groove 44 is discharged from the oil discharge port 6 ⁇ / b> B without contacting the collar member 3.
- the gas-liquid boundary surface of the lubricating oil flowing through the oil discharge passage 6A can be formed on the outer peripheral side compared to the case where the groove portion 44 is not formed. The possibility of agitation loss occurring with the thrust collar 3 is reduced.
- the oil drainage space forming member 5 is composed of an insert member 8 configured to hold the thrust bearing 4 on the outer peripheral side of the rotary shaft 2. That is, in this embodiment, the oil deflector 5 and the retainer 7 can be omitted. Therefore, the number of parts can be omitted as compared with the oil draining device 1 of the thrust bearing having the two members of the oil deflector 5 and the retainer 7.
- the thrust bearing oil draining apparatus 1 according to the embodiment shown in FIGS. 9 and 10 is provided with the configuration shown in the embodiment shown in FIGS. 2 to 4 and the embodiment shown in FIGS. 5 to 8. It is not necessary to include all of the configurations. That is, the oil drainage device 1 of the thrust bearing according to at least one embodiment of the present invention is Rotating shaft 2; A collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- With Oil drain space 6 An oil drainage channel 6A surrounding the flange portion 32 of the collar member 3 defined between one end surface 4a of the thrust bearing 4 and one end surface 5a of the oil drainage space forming member 5;
- An oil discharge port 6B for discharging the lubricating oil flowing through the oil discharge passage 6A, which is formed below the oil discharge passage 6A, to the outside of the oil discharge space 6, and
- the oil drainage space forming member 5 is A central hole 51 through which the collar body 31 of the collar member 3 mounted on the rotary shaft 2 is inserted; An
- the intermediate portion 54 of the oil drainage space forming member 5 has a recess 54 a configured such that a gap between the end portion 4 a of the thrust bearing 4 is larger than the other portion of the intermediate portion 54,
- the channel 6A may be configured to include an oil drain groove 54d extending in the circumferential direction formed by the recess 54a.
- the thrust bearing oil draining device 1 includes all of the configurations of the embodiments shown in FIGS. 2 to 4 and the configurations of the embodiments shown in FIGS. 5 to 8. May not be included. That is, the oil drainage device 1 of the thrust bearing according to at least one embodiment of the present invention is Rotating shaft 2; A collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- With Oil drain space 6 An oil drainage channel 6A surrounding the flange portion 32 of the collar member 3 defined between one end surface 4a of the thrust bearing 4 and one end surface 5a of the oil drainage space forming member 5;
- An oil discharge port 6B for discharging the lubricating oil flowing through the oil discharge passage 6A, which is formed below the oil discharge passage 6A, to the outside of the oil discharge space 6, and
- the drainage space forming member 5 has a second drainage port 6C communicating with the drainage channel 6A, and the lubricating oil flowing through the drainage channel 6
- the thrust bearing oil draining device 1 includes all of the configurations of the embodiments shown in FIGS. 2 to 4 and the configurations of the embodiments shown in FIGS. 5 to 8. May not be included. That is, the oil drainage device 1 of the thrust bearing according to at least one embodiment of the present invention is Rotating shaft 2; A collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- With Oil drain space 6 An oil drainage channel 6A surrounding the flange portion 32 of the collar member 3 defined between one end surface 4a of the thrust bearing 4 and one end surface 5a of the oil drainage space forming member 5;
- An oil discharge port 6B for discharging the lubricating oil flowing through the oil discharge passage 6A, which is formed below the oil discharge passage 6A, to the outside of the oil discharge space 6, and
- the thrust bearing oil draining device 1 includes all of the configurations of the embodiments shown in FIGS. 2 to 4 and the configurations of the embodiments shown in FIGS. 5 to 8. May not be included. That is, the oil drainage device 1 of the thrust bearing according to at least one embodiment of the present invention is Rotating shaft 2; A collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- With Oil drain space 6 An oil drainage channel 6A surrounding the flange portion 32 of the collar member 3 defined between one end surface 4a of the thrust bearing 4 and one end surface 5a of the oil drainage space forming member 5;
- An oil discharge port 6B for discharging the lubricating oil flowing through the oil discharge passage 6A, which is formed below the oil discharge passage 6A, to the outside of the oil discharge space 6, and
- the oil drain port 6B is formed in a region on the upstream side in the rotation direction R with respect to the center line CL passing through the rotation center O of
- the thrust bearing oil draining device 1 has all of the configurations of the embodiments shown in FIGS. 2 to 4 and the configurations of the embodiments shown in FIGS. 5 to 8. May not be included. That is, the oil drainage device 1 of the thrust bearing according to at least one embodiment of the present invention is Rotating shaft 2; A collar member 3 (compressor-side thrust collar 3) that is mounted on the outer periphery of the rotary shaft 2 so as to be rotatable together with the rotary shaft 2, and is formed to have a larger diameter than the cylindrical color main body 31 and the color main body 31.
- a collar member 3 having a flange portion 32 formed; It has an insertion hole 41 through which the rotation shaft 2 is inserted, and supports the rotation shaft 2 that rotates in a state of being inserted through the insertion hole 41 in the axial direction by slidingly contacting the one end surface 32 a of the flange portion 32 of the collar member 3.
- An oil discharge space forming member 5 that is provided on one end surface 4a side of the thrust bearing 4 and that defines an oil discharge space 6 between the thrust bearing 4 and the oil discharge space 6 through which the lubricating oil leaked from the sliding contact portion 42 of the thrust bearing 4 flows;
- With Oil drain space 6 An oil drainage channel 6A surrounding the flange portion 32 of the collar member 3 defined between one end surface 4a of the thrust bearing 4 and one end surface 5a of the oil drainage space forming member 5;
- An oil discharge port 6B for discharging the lubricating oil flowing through the oil discharge passage 6A, which is formed below the oil discharge passage 6A, to the outside of the oil discharge space 6, and
- the oil drainage space forming member 5 is A central hole 51 through which the collar body 31 of the collar member 3 mounted on the rotary shaft 2 is inserted; An
- Thrust bearing oil drain device Rotating shaft 3 Compressor side thrust collar (color member) 31 Collar body portion 32 Flange portion 4 Thrust bearing 4a One end surface 4b Other end surface 41 Insertion hole 42 Sliding contact portion 43 Supply oil passage 44 Notch portion 44 Groove portion 5 Oil deflector (oil exhaust space forming member) 5a One end face 5b Other end face 5A Body part 5B Tongue part 51 Central hole 52 Peripheral part 52 Inner peripheral part 53 Outer peripheral part 53a Straight line part 53b Downstream edge 53c Upstream edge 54 Intermediate part 54a Recessed part 54b Flat part 54c Depressed part 54d Oil draining groove 55 Guide plate 55a Front end edge 55b Rear end edge 56 Peripheral end portion 57 Lower end 6 Oil drain space 6A Oil drain passage 6B Oil drain port 6C Second oil drain port 61 Outer peripheral edge 7 Retainer 7a Inclined surface 71 Projection portion 71a Tip end surface 71b Rear end surface 73 Movement restricting member 8 Insert member 9 Turbine side thrust collar 61
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Abstract
Description
回転軸と、
前記回転軸と共に回転可能なように前記回転軸の外周に装着されるカラー部材であって、円筒状のカラー本体部および前記カラー本体部よりも大径に形成されたフランジ部を有するカラー部材と、
前記回転軸が挿通される挿通孔を有し、前記カラー部材の前記フランジ部の一端面と摺接することで、前記挿通孔に挿通された状態で回転する前記回転軸を軸方向に支持するスラスト軸受と、
前記フランジ部の一端面と摺接する前記スラスト軸受の摺接部に対して潤滑油を供給するための供給油路と、
前記スラスト軸受の一端面側に設けられ、前記スラスト軸受の摺接部から漏れ出た前記潤滑油が流れる排油空間を前記スラスト軸受との間に画定する排油空間形成部材と、を備え、
前記排油空間は、
前記スラスト軸受の一端面と前記排油空間形成部材の一端面との間に画定される、前記カラー部材の前記フランジ部を取り囲む排油流路と、
前記排油流路の下方に形成される、前記排油流路を流れる前記潤滑油を前記排油空間の外部に排出するための排油口と、を含むとともに、
前記排油空間は、前記回転軸の回転方向の上流側から下流側に向かって前記排油流路を流れる前記潤滑油の流れ方向に沿って、前記排油流路を流れる前記潤滑油を、前記排油口を介して前記排油空間の外部に導くように構成される。
したがって、上記(4)に記載の実施形態によれば、舌部が、その正面視において、外周縁部の下流縁側から上流縁側に向かって下向きに傾斜して形成されているため、排油口から排出されないで排油流路に再び戻って来る潤滑油量を減少させることが出来る。
したがって、上記(11)に記載の実施形態によれば、排油口が中心線よりも回転方向の上流側の領域にのみ形成されるため、排油口から排出されないで排油流路に再び戻って来る潤滑油量を減少させることが出来る。
そして、上記排油口は、本体部の下端における外周縁部が形成されていない部分によって形成される。そして、舌部が中心線よりも回転方向の下流側の領域における排油口を閉塞するように折り曲げられてなる屈曲部分を有する。
したがって、上記(13)に記載の実施形態によれば、潤滑油量が増加する排油流路下流側の流路断面が大きくなるように形成されるため、排油流路下流側において潤滑油の気液境界面がカラー部材と接触するのを防ぐことが出来る。
回転軸の一端側に設けられるタービンインペラと、
回転軸の他端側に設けられるコンプレッサインペラと、
上記(1)から(14)の何れかに記載のスラスト軸受装置と、を備える。
例えば、「ある方向に」、「ある方向に沿って」、「平行」、「直交」、「中心」、「同心」或いは「同軸」等の相対的或いは絶対的な配置を表す表現は、厳密にそのような配置を表すのみならず、公差、若しくは、同じ機能が得られる程度の角度や距離をもって相対的に変位している状態も表すものとする。
例えば、「同一」、「等しい」及び「均質」等の物事が等しい状態であることを表す表現は、厳密に等しい状態を表すのみならず、公差、若しくは、同じ機能が得られる程度の差が存在している状態も表すものとする。
例えば、四角形状や円筒形状等の形状を表す表現は、幾何学的に厳密な意味での四角形状や円筒形状等の形状を表すのみならず、同じ効果が得られる範囲で、凹凸部や面取り部等を含む形状も表すものとする。
一方、一の構成要素を「備える」、「具える」、「具備する」、「含む」、又は、「有する」という表現は、他の構成要素の存在を除外する排他的な表現ではない。
また、以下の説明において、同じ構成には同じ符号を付してその詳細な説明を省略する場合がある。
本発明の一実施形態にかかるターボチャージャは、特に限定されないが、例えば自動車用エンジン等に搭載されるターボチャージャである。
本実施形態のターボチャージャ100は、図1に示したように、回転軸2の一端側に設けられたタービンインペラ103を収容するタービンハウジング102、回転軸2の他端側に設けられたコンプレッサインペラ105を収容するコンプレッサハウジング104、及び回転軸2を回転可能に支持するラジアル軸受110と、回転軸2のスラスト力を支持するスラスト軸受4とを収容する軸受ハウジング106、の3つのハウジングからなる。
このように、排油溝54dを中間部54における最も外周側に形成することで、回転軸2の遠心力の作用により排油流路6Aの外周縁61を沿って流れる潤滑油を排油溝54dに導き易くなる。
図示した実施形態では、第2の排油口6Cの上辺部53eが、排油流路6Aの最上部であるb点から、b点における接線方向に沿って延在している。
ここで、「上下方向」とは、本実施形態のスラスト軸受の排油装置1が軸受ハウジング106の内部に組み込まれた際において、軸受ハウジング106の出口油路114が下側に位置するように軸受ハウジング106を配置した時における上下方向(鉛直方向)を指すものとする。
したがって、このような実施形態によれば、排油口6Bが中心線CLよりも回転方向Rの上流側の領域にのみ形成されるため、排油口6Bから排出されないで排油流路6Aに再び戻って来る潤滑油量を減少させることが出来る。
図示した実施形態では、排油流路6Aの流路幅は、上流から下流に向かってa<b<cの順で大きくなるように形成されている。
したがって、このような実施形態によれば、潤滑油量が増加する排油流路6Aの下流側の流路断面が大きくなるように形成されるため、排油流路6Aの下流側において潤滑油の気液境界面がコンプレッサ側スラストカラー3と接触するのを防ぐことが出来る。
これに対して、図15に示したように、排油空間形成部材5をインサート部材8で形成し、オイルディフレクタ5及びリテーナ7を省略することも出来る。このインサート部材8は、鋳造または鍛造によって製造された環状の一体部材である。そして、移動規制部材73によってスラスト軸受4側に押し付けられることで、スラスト軸受4を軸受ハウジング106に固定している。
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間形成部材5は、スラスト軸受4を回転軸2の外周側に保持するように構成されたインサート部材8からなり、
排油空間6は、
スラスト軸受4の一端面4aにおいてフランジ部32の外周端面32cよりも外周側の位置に形成される溝部44とインサート部材8の一端面8aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
スラスト軸受4の一端面4aの内、溝部44よりも外周側に位置する外側一端面4a1が、溝部44よりも内周側に位置する内側一端面4a2よりも、インサート部材8側に突出している
ように構成してもよい。
すなわち、本発明の少なくとも一つの実施形態にかかるスラスト軸受の排油装置1を、
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間6は、
スラスト軸受4の一端面4aと排油空間形成部材5の一端面5aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
排油空間形成部材5は、
回転軸2に装着されたカラー部材3のカラー本体部31が挿通される中央孔51と、
中央孔51の外周側においてカラー部材3のフランジ部32の他端面32bと摺接する内周縁部52と、
内周縁部52の外周側においてスラスト軸受4の一端面4aとの間で隙間を存して形成される中間部54と、
中間部54の外周側においてスラスト軸受4の一端面4aと当接する外周縁部53と、からなる本体部5Aを少なくとも含み、
排油口6Bは、本体部5Aの下端57における外周縁部53が形成されていない部分によって形成され、
排油空間形成部材5の中間部54は、中間部54の他の部分よりも、スラスト軸受4の一端面4aとの間の隙間が大きくなるように構成される凹部54aを有し、排油流路6Aは、凹部54aによって形成される周方向に延在する排油溝54dを含む
ように構成してもよい。
すなわち、本発明の少なくとも一つの実施形態にかかるスラスト軸受の排油装置1を、
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間6は、
スラスト軸受4の一端面4aと排油空間形成部材5の一端面5aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
排油空間形成部材5には、排油流路6Aと連通する第2の排油口6Cが開口し、排油流路6Aを流れる潤滑油が、第2の排油口6Cを介して排油空間6の外部に排出される
ように構成してもよい。
すなわち、本発明の少なくとも一つの実施形態にかかるスラスト軸受の排油装置1を、
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間6は、
スラスト軸受4の一端面4aと排油空間形成部材5の一端面5aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
スラスト軸受4の一端面4aには、フランジ部32の外周端面32cよりも外周側の位置に、周方向に延在する溝部44が形成されているとともに、
スラスト軸受4の一端面4aの内、溝部44よりも外周側に位置する外側一端面4a1が、溝部44よりも内周側に位置する内側一端面4a2よりも、排油空間形成部材5側に突出している、
ように構成してもよい。
すなわち、本発明の少なくとも一つの実施形態にかかるスラスト軸受の排油装置1を、
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間6は、
スラスト軸受4の一端面4aと排油空間形成部材5の一端面5aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
排油口6Bが、回転軸の回転中心Oを通過して上下方向に延在する中心線CLよりも回転方向Rの上流側の領域に形成される、
ように構成してもよい。
すなわち、本発明の少なくとも一つの実施形態にかかるスラスト軸受の排油装置1を、
回転軸2と、
回転軸2と共に回転可能なように回転軸2の外周に装着されるカラー部材3(コンプレッサ側スラストカラー3)であって、円筒状のカラー本体部31およびカラー本体部31よりも大径に形成されたフランジ部32を有するカラー部材3と、
回転軸2が挿通される挿通孔41を有し、カラー部材3のフランジ部32の一端面32aと摺接することで、挿通孔41に挿通された状態で回転する回転軸2を軸方向に支持するスラスト軸受4と、
フランジ部32の一端面32aと摺接するスラスト軸受4の摺接部42に対して潤滑油を供給するための供給油路43と、
スラスト軸受4の一端面4a側に設けられ、スラスト軸受4の摺接部42から漏れ出た潤滑油が流れる排油空間6をスラスト軸受4との間に画定する排油空間形成部材5と、を備え、
排油空間6は、
スラスト軸受4の一端面4aと排油空間形成部材5の一端面5aとの間に画定される、カラー部材3のフランジ部32を取り囲む排油流路6Aと、
排油流路6Aの下方に形成される、排油流路6Aを流れる潤滑油を排油空間6の外部に排出するための排油口6Bと、を含むとともに、
排油空間形成部材5は、
回転軸2に装着されたカラー部材3のカラー本体部31が挿通される中央孔51と、
中央孔51の外周側においてカラー部材3のフランジ部32の他端面32bと摺接する内周縁部52と、
内周縁部52の外周側においてスラスト軸受4の一端面4aとの間で隙間を存して形成される中間部54と、
中間部54の外周側においてスラスト軸受4の一端面4aと当接する外周縁部53と、からなる本体部5Aと、
本体部5Aの下端57からスラスト軸受4側に向かって斜め下方に延在する舌部5Bと、を含み、
排油口6Bは、本体部5Aの下端57における外周縁部53が形成されていない部分によって形成され、
舌部5Bが、中心線CLよりも回転方向Rの下流側の領域における排油口6Bを閉塞するように折り曲げられてなる屈曲部分5B1を有する
ように構成してもよい。
2 回転軸
3 コンプレッサ側スラストカラー(カラー部材)
31 カラー本体部
32 フランジ部
4 スラスト軸受
4a 一端面
4b 他端面
41 挿通孔
42 摺接部
43 供給油路
44 切欠部
44 溝部
5 オイルディフレクタ(排油空間形成部材)
5a 一端面
5b 他端面
5A 本体部
5B 舌部
51 中央孔
52 周縁部
52 内周縁部
53 外周縁部
53a 直線部
53b 下流縁
53c 上流縁
54 中間部
54a 凹部
54b 平坦部
54c 窪み部
54d 排油溝
55 案内板
55a 前端縁
55b 後端縁
56 周端部
57 下端
6 排油空間
6A 排油流路
6B 排油口
6C 第2の排油口
61 外周縁
7 リテーナ
7a 傾斜面
71 突出部
71a 先端面
71b 後端面
73 移動規制部材
8 インサート部材
9 タービン側スラストカラー
91 カラー本体部
92 フランジ部
100 ターボチャージャ
102 タービンハウジング
103 タービンインペラ
103a タービンハブ
103b タービン翼
104 コンプレッサハウジング
105 コンプレッサインペラ
105a コンプレッサハブ
105b コンプレッサ翼
106 軸受ハウジング
106A 内周凸部
110 ラジアル軸受
111 排ガス流出口
112 入口油路
113 タービンスクロール流路
114 出口油路
115 吸気流入口
116 ナット
117 コンプレッサスクロール流路
Claims (15)
- 回転軸(2)と、
前記回転軸(2)と共に回転可能なように前記回転軸(2)の外周に装着されるカラー部材(3)であって、円筒状のカラー本体部(31)および前記カラー本体部(31)よりも大径に形成されたフランジ部(32)を有するカラー部材(3)と、
前記回転軸(2)が挿通される挿通孔(41)を有し、前記カラー部材(3)の前記フランジ部(32)の一端面(32a)と摺接することで、前記挿通孔(41)に挿通された状態で回転する前記回転軸(2)を軸方向に支持するスラスト軸受(4)と、
前記フランジ部(32)の一端面(32a)と摺接する前記スラスト軸受(4)の摺接部(42)に対して潤滑油を供給するための供給油路(43)と、
前記スラスト軸受(4)の一端面(4a)側に設けられ、前記スラスト軸受(4)の摺接部(42)から漏れ出た前記潤滑油が流れる排油空間(6)を前記スラスト軸受(4)との間に画定する排油空間形成部材(5)と、を備え、
前記排油空間(6)は、
前記スラスト軸受(4)の一端面(4a)と前記排油空間形成部材(5)の一端面(5a)との間に画定される、前記カラー部材(3)の前記フランジ部(32)を取り囲む排油流路(6A)と、
前記排油流路(6A)の下方に形成される、前記排油流路(6A)を流れる前記潤滑油を前記排油空間(6)の外部に排出するための排油口(6B)と、を含むとともに、
前記排油空間(6)は、前記回転軸(2)の回転方向(R)の上流側から下流側に向かって前記排油流路(6A)を流れる前記潤滑油の流れ方向(f)に沿って、前記排油流路(6A)を流れる前記潤滑油を、前記排油口(6B)を介して前記排油空間(6)の外部に導くように構成される
スラスト軸受の排油装置。 - 前記排油空間形成部材(5)は、
前記回転軸(2)に装着された前記カラー部材(3)の前記カラー本体部(31)が挿通される中央孔(51)と、
前記中央孔(51)の外周側において前記カラー部材(3)の前記フランジ部(32)の他端面(32b)と摺接する内周縁部(52)と、
前記内周縁部(52)の外周側において前記スラスト軸受(4)の一端面(4a)との間で隙間を存して形成される中間部(54)と、
前記中間部(54)の外周側において前記スラスト軸受(4)の一端面(4a)と当接する外周縁部(53)と、からなる本体部(5A)を少なくとも含み、
前記排油口(6B)は、前記本体部(5A)の下端(57)における前記外周縁部(53)が形成されていない部分によって形成され、
前記外周縁部(53)は、前記排油口(6B)よりも前記回転方向(R)の上流側の所定位置(a)から前記排油口(6B)にかけて、前記所定位置(a)における接線方向に沿って延在する直線部(53a)を有し、
前記直線部(53a)により、前記排油流路(6A)を流れる前記潤滑油を、前記流れ方向(f)に沿って前記排油口(6B)を介して前記排油空間(6)の外部に導くように構成されている
請求項1に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)の前記他端面(5b)側に設けられた、前記排油空間形成部材(5)及び前記スラスト軸受(4)を前記回転軸(2)の外周側に保持するように構成されたリテーナ(7)をさらに備え、
前記リテーナ(7)は、前記排油口(6B)の下方において前記スラスト軸受(4)側に向かって斜め下方に延在する傾斜面(7a)を有する
請求項2に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)は、
前記回転軸(2)に装着された前記カラー部材(3)の前記カラー本体部(31)が挿通される中央孔(51)と、
前記中央孔(51)の外周側において前記カラー部材(3)の前記フランジ部(32)の他端面(32b)と摺接する内周縁部(52)と、
前記内周縁部(52)の外周側において前記スラスト軸受(4)の一端面(4a)との間で隙間を存して形成される中間部(54)と、
前記中間部(54)の外周側において前記スラスト軸受(4)の一端面(4a)と当接する外周縁部(53)と、からなる本体部(5A)と、
前記本体部(5A)の下端(57)から前記スラスト軸受(4)側に向かって斜め下方に延在する舌部(5B)と、を含み、
前記排油口(6B)は、前記本体部(5A)の下端(57)における前記外周縁部(53)が形成されていない部分によって形成され、
前記舌部(5B)は、正面視において前記外周縁部(53)の下流縁(53b)側から上流縁(53c)側に向かって下向きに傾斜して形成されており、
前記舌部(5B)により、前記排油流路(6A)を流れる前記潤滑油を、前記流れ方向(f)に沿って前記排油口(6B)を介して前記排油空間(6)の外部に導くように構成されている
請求項1から3の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)の前記中間部(54)は、前記中間部(54)の他の部分よりも、前記スラスト軸受(4)の前記一端面(4a)との間の前記隙間が大きくなるように構成される凹部(54a)を有し、
前記排油流路(6A)は、前記凹部(54a)によって形成される周方向に延在する排油溝(54d)を含む
請求項2から4の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)は、前記排油流路(6A)において周方向に間隔を空けて複数配置される、前記排油流路(6A)を流れる前記潤滑油を前記排油溝(54d)に案内するための案内板(55)をさらに含む
請求項5に記載のスラスト軸受の排油装置。 - 前記案内板(55)は、前記排油空間形成部材(5)の周端部(56)から径方向内側に向かって延在し、
前記案内板(55)の前端縁(55a)は、前記案内板(55)の後端縁(55b)よりも前記スラスト軸受(4)側に位置し、
前記前端縁(55a)と前記周端部(56)との交点(55c1)は、前記後端縁(55b)と前記周端部(56)との交点(55c2)よりも、前記流れ方向(f)の上流側に位置する
請求項6に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)には、前記排油流路(6A)と連通する第2の排油口(6C)が開口し、前記排油流路(6A)を流れる前記潤滑油が、前記第2の排油口(6C)を介して排油空間(6)の外部に排出されるように構成される
請求項2から7の何れか一項に記載のスラスト軸受の排油装置。 - 前記第2の排油口(6C)は、前記排油空間形成部材(5)の上部において、前記排油流路(6A)を流れる前記潤滑油の流れ方向(f)に対向するように開口する
請求項8に記載のスラスト軸受の排油装置。 - 前記スラスト軸受(4)の一端面(4a)には、前記フランジ部(32)の外周端面(32c)よりも外周側の位置に、周方向に延在する溝部(44)が形成されているとともに、
前記スラスト軸受(4)の一端面(4a)の内、前記溝部(44)よりも外周側に位置する外側一端面(4a1)が、前記溝部(44)よりも内周側に位置する内側一端面(4a2)よりも、前記排油空間形成部材(5)側に突出している
請求項2から9の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油口(6B)が、前記回転軸の回転中心(O)を通過して上下方向に延在する中心線(CL)よりも前記回転方向(R)の上流側の領域に形成される
請求項2から10の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)は、
前記回転軸(2)に装着された前記カラー部材(3)の前記カラー本体部(31)が挿通される中央孔(51)と、
前記中央孔(51)の外周側において前記カラー部材(3)の前記フランジ部(32)の他端面(32b)と摺接する内周縁部(52)と、
前記内周縁部(52)の外周側において前記スラスト軸受(4)の一端面(4a)との間で隙間を存して形成される中間部(54)と、
前記中間部(54)の外周側において前記スラスト軸受(4)の一端面(4a)と当接する外周縁部(53)と、からなる本体部(5A)と、
前記本体部(5A)の下端(57)から前記スラスト軸受(4)側に向かって斜め下方に延在する舌部(5B)と、を含み、
前記排油口(6B)は、前記本体部(5A)の下端(57)における前記外周縁部(53)が形成されていない部分によって形成され、
前記舌部(5B)が、前記中心線(CL)よりも前記回転方向(R)の下流側の領域における前記排油口(6B)を閉塞するように折り曲げられてなる屈曲部分(5B1)を有する
請求項2から10の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油流路(6A)は、前記外周縁部(53)の上流縁(53c)から前記下流端(53b)に向かって、前記回転方向(R)に向かって流路断面が大きくなるように形成されている
請求項2から12の何れか一項に記載のスラスト軸受の排油装置。 - 前記排油空間形成部材(5)は、板金製のオイルディフレクタ(5)からなる
請求項1から13の何れか一項に記載のスラスト軸受の排油装置。 - 前記回転軸(2)の一端側に設けられるタービンインペラ(103)と、
前記回転軸(2)の他端側に設けられるコンプレッサインペラ(105)と、
請求項1から14の何れか一項に記載のスラスト軸受の排油装置と、を備える
ターボチャージャ。
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EP14908440.2A EP3184834B1 (en) | 2014-12-18 | 2014-12-18 | Oil draining device for thrust bearing and turbo charger provided with same |
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JP2013185443A (ja) * | 2012-03-06 | 2013-09-19 | Taiho Kogyo Co Ltd | 軸受装置 |
JP2014149058A (ja) * | 2013-02-04 | 2014-08-21 | Taiho Kogyo Co Ltd | スラスト軸受 |
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WO2020129234A1 (ja) | 2018-12-21 | 2020-06-25 | 三菱重工エンジン&ターボチャージャ株式会社 | ターボ機械 |
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Also Published As
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JPWO2016098230A1 (ja) | 2017-04-27 |
CN109973528A (zh) | 2019-07-05 |
EP3184834A4 (en) | 2017-11-01 |
CN109973528B (zh) | 2020-09-01 |
CN106715936A (zh) | 2017-05-24 |
US10473207B2 (en) | 2019-11-12 |
JP6347455B2 (ja) | 2018-06-27 |
EP3184834B1 (en) | 2019-04-03 |
CN106715936B (zh) | 2019-09-27 |
CN110081069B (zh) | 2021-04-20 |
US20170276233A1 (en) | 2017-09-28 |
CN110081069A (zh) | 2019-08-02 |
EP3184834A1 (en) | 2017-06-28 |
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