WO2014123192A1 - ブラシシール装置 - Google Patents
ブラシシール装置 Download PDFInfo
- Publication number
- WO2014123192A1 WO2014123192A1 PCT/JP2014/052779 JP2014052779W WO2014123192A1 WO 2014123192 A1 WO2014123192 A1 WO 2014123192A1 JP 2014052779 W JP2014052779 W JP 2014052779W WO 2014123192 A1 WO2014123192 A1 WO 2014123192A1
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- WO
- WIPO (PCT)
- Prior art keywords
- brush seal
- outer peripheral
- brush
- inner peripheral
- bristles
- Prior art date
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Classifications
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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
- F01D11/00—Preventing or minimising internal leakage of working-fluid, e.g. between stages
- F01D11/001—Preventing or minimising internal leakage of working-fluid, e.g. between stages for sealing space between stator blade and rotor
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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
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/16—Sealings between relatively-moving surfaces
- F16J15/32—Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings
- F16J15/3284—Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings characterised by their structure; Selection of materials
- F16J15/3288—Filamentary structures, e.g. brush seals
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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
- F01D11/00—Preventing or minimising internal leakage of working-fluid, e.g. between stages
-
- 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
- F01D11/00—Preventing or minimising internal leakage of working-fluid, e.g. between stages
- F01D11/003—Preventing or minimising internal leakage of working-fluid, e.g. between stages by packing rings; Mechanical seals
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C7/00—Features, components parts, details or accessories, not provided for in, or of interest apart form groups F02C1/00 - F02C6/00; Air intakes for jet-propulsion plants
- F02C7/28—Arrangement of seals
-
- 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
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/16—Sealings between relatively-moving surfaces
- F16J15/18—Sealings between relatively-moving surfaces with stuffing-boxes for elastic or plastic packings
- F16J15/20—Packing materials therefor
- F16J15/22—Packing materials therefor shaped as strands, ropes, threads, ribbons, or the like
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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
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/16—Sealings between relatively-moving surfaces
- F16J15/32—Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings
- F16J15/3268—Mounting of sealing rings
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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
- F05D2240/00—Components
- F05D2240/55—Seals
- F05D2240/56—Brush seals
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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
- F05D2250/00—Geometry
- F05D2250/30—Arrangement of components
- F05D2250/31—Arrangement of components according to the direction of their main axis or their axis of rotation
- F05D2250/314—Arrangement of components according to the direction of their main axis or their axis of rotation the axes being inclined in relation to each other
Definitions
- the present invention is, for example, a brush seal device that seals between a rotating shaft such as a gas turbine and a counterpart component such as a housing that moves relative to the rotating shaft, and has a brush portion in which a plurality of bristles are arranged.
- the present invention relates to a sealing device.
- This type of brush seal device having a brush portion formed of a large number of bristles is free from the tip of the bristles because the brush portion is deformed with the movement of the rotation shaft even when the rotation shaft is slightly moved in the radial direction. Since the end portion can be made to follow the peripheral surface of the rotating shaft, it is effective.
- the frictional force acting on the bristles affects not only the spring constant for the elastic deformation of the bristles, but also the complex frictional force caused by the bristle mounting structure, etc. It is very difficult to set this to the optimum state.
- the brush seal body is a floating type that is relatively movable in the radial direction. It has been. Also known is a structure in which a leaf spring is provided on the outer periphery so that eccentricity can be prevented even if there is a gap between the brush seal and the rotor (for example, Japanese Patent Application Publication No. 2011-169319). (See Patent Document 1).
- the present invention has been made to solve such disadvantages, and its purpose is not to cause excessive pressure with respect to radial movement such as vibration of the rotation shaft and eccentricity. As a result, it is possible to appropriately follow with an appropriate pressure. As a result, it is possible to prevent a sealed fluid from leaking due to a gap between the rotating shaft and the wear of the brush seal, rotating shaft or housing. In addition, the leakage of sealed fluid from the outer periphery can be prevented and suppressed appropriately without the need for a high performance secondary seal. It is an object of the present invention to provide a brush seal device that can be maintained.
- a brush seal device of the present invention is a brush seal device having a brush portion in which a plurality of bristles are arranged and sealing between a housing and a rotating shaft in an axial direction, An inner peripheral brush seal portion having an inner peripheral brush seal and an outer peripheral brush seal portion having an outer peripheral brush seal.
- the inner peripheral brush seal has a plurality of outer peripheral mounting portions and a plurality of inner peripheral directions from the mounting portion in the inner peripheral direction.
- the outer peripheral brush seal is an outer peripheral mounting portion, a brush portion in which a plurality of bristles are arranged in the inner peripheral direction from the mounting portion, and an inner peripheral end of the brush portion, and the inner peripheral brush Opposite to the outer peripheral surface of the seal part on the outer peripheral surface And having a free end portion disposed touching or close to a state.
- the present invention having such a configuration, it is possible to appropriately follow with an appropriate pressure that does not become an excessive pressure with respect to radial movement such as vibration and eccentricity of the rotating shaft, and as a result, It is possible to prevent the sealed fluid from leaking due to a gap between the rotating shaft and the wear of the brush seal, the rotating shaft or the housing, and to prevent the sealed fluid from the outer peripheral side. Can be appropriately prevented and suppressed without requiring a high-performance secondary seal, and further, a brush seal device that can appropriately maintain these functions and operations over a long period of time can be provided. .
- At least one of the inner peripheral brush seal and the outer peripheral brush seal is a bundle of a plurality of linear members arranged in a wall shape along the circumference, and the outer periphery of the linear member A brush seal in which the plurality of linear members are connected to each other by welding the end portions on the side to form a ring shape, and the seal portion and the free end portion are formed from the outer peripheral side to the inner peripheral side. It is characterized by that.
- At least one of the inner peripheral brush seal and the outer peripheral brush seal includes the attachment portion and the fine beam as the bristles extending from the attachment portion and inclined toward the inner peripheral side with respect to the circumferential direction.
- It is a brush seal formed by integrally laminating a plurality of plate brush seal single plates each having a brush portion and the free end portion in the axial direction.
- the brush part of the inner peripheral brush seal and the brush part of the outer peripheral brush seal are made of bristles of the same material.
- the brush portion of the inner peripheral brush seal and the brush portion of the outer peripheral brush seal are made of bristles of different materials.
- the plurality of bristles are arranged in the inner circumferential direction inclined with respect to the radial direction,
- the outer peripheral brush portion of the outer peripheral brush seal, the plurality of bristles are inclined in the radial direction and arranged in the inner peripheral direction,
- the inclination of the bristles of the inner peripheral brush seal and the inclination of the bristles of the outer peripheral brush seal are opposite to the radial direction.
- the outer peripheral brush seal portion is disposed on the outer peripheral surface, the free end portion of the outer peripheral brush seal is arranged in contact with or close to the outer peripheral brush seal portion, and the free end portion of the outer peripheral brush seal is arranged in the axial direction. It further has a brush receiving portion for preventing the spread.
- the outer peripheral brush seal is formed in an inclined state with respect to the axial direction of the rotating shaft.
- FIG. 1 is a cross-sectional view showing the configuration of the brush seal device according to the first embodiment of the present invention.
- 2A is a plan view of an inner peripheral brush seal constituting an inner peripheral brush seal portion of the brush seal apparatus shown in FIG.
- FIG. 2B is a plan view of the outer peripheral brush seal constituting the outer peripheral brush seal portion of the brush seal device shown in FIG. 1.
- FIG. 3 is a perspective view showing the form of the free end portion of the inner peripheral brush seal of the inner peripheral brush seal portion of the brush seal device shown in FIG. 1.
- 4 is a radial cross-sectional view of the inner peripheral brush seal portion and the outer peripheral brush seal portion configured in two stages of the brush seal device shown in FIG. 1 at the locations of the inner peripheral brush seal and the outer peripheral brush seal.
- FIG. 1 is a cross-sectional view showing the configuration of the brush seal device according to the first embodiment of the present invention.
- FIG. 5 is a cross-sectional view showing the configuration of the brush seal device according to the second embodiment of the present invention.
- FIG. 6A is a first view showing a single plate brush seal single plate constituting the brush seal of the brush seal portion of the brush seal device shown in FIG. 5, and constitutes the inner peripheral brush seal of the inner peripheral brush seal portion. It is a top view of a plate brush seal single plate.
- 6B is a second view showing a single plate brush seal single plate constituting the brush seal of the brush seal portion of the brush seal device shown in FIG. 5, and is a plate brush constituting the outer peripheral brush seal of the outer peripheral brush seal portion. It is a top view of a seal single board.
- FIG. 7 is a radial cross-sectional view of the inner peripheral brush seal portion and the outer peripheral brush seal portion configured in two stages of the brush seal device shown in FIG. 5 at the locations of the inner peripheral brush seal and the outer peripheral brush seal.
- FIG. 8A is a first diagram for explaining a method of superimposing thin beams in the inner brush seal shown in FIG. 6A, and is a diagram showing a pattern of the first thin beams.
- FIG. 8B is a second diagram for explaining a method of superimposing thin beams on the inner brush seal shown in FIG. 6A, and is a diagram showing a pattern of second thin beams.
- FIG. 8C is a third diagram for explaining a method of superimposing the thin beams in the inner peripheral brush seal shown in FIG.
- FIG. 9A is a first diagram showing a first example of superposition of thin beams in an outer peripheral brush seal as a brush seal device according to a third embodiment of the present invention, and shows a pattern of the first thin beams.
- FIG. 9B is a second diagram illustrating a first example of superimposing thin beams in the outer peripheral brush seal as the brush seal device according to the third embodiment of the present invention, and is a diagram illustrating a pattern of the second thin beams. It is.
- FIG. 9A is a first diagram showing a first example of superposition of thin beams in an outer peripheral brush seal as a brush seal device according to a third embodiment of the present invention, and shows a pattern of the first thin beams.
- FIG. 9B is a second diagram illustrating a first example of superimposing thin beams in the outer peripheral brush seal as the brush seal device according to the third embodiment of the present invention, and is a diagram illustrating a pattern of the second thin beams. It is.
- FIG. 9A is a first diagram showing
- FIG. 9C is a third diagram illustrating a first example of superimposing thin beams in the outer peripheral brush seal as the brush seal device according to the third embodiment of the present invention, and illustrates the first thin beam illustrated in FIG. 9A. It is a figure which shows the state which laminated
- FIG. 10A is a first diagram showing a second example of superposition of thin beams in the outer peripheral brush seal as the brush seal device of the third embodiment of the present invention, and shows a pattern of the first thin beams.
- FIG. 10B is a second diagram showing a second example of superposition of thin beams in the outer peripheral brush seal as the brush seal device of the third embodiment of the present invention, and shows a pattern of the second thin beams.
- FIG. 10C is a third diagram illustrating a second example of superimposing thin beams in the outer peripheral brush seal as the brush seal device according to the third embodiment of the present invention, and illustrates the first thin beam illustrated in FIG. 10A. It is a figure which shows the state which laminated
- FIG. 11A is a first diagram showing a third example of superposition of thin beams in an outer peripheral brush seal as a brush seal device according to a third embodiment of the present invention, and shows a pattern of first thin beams. It is.
- FIG. 11A is a first diagram showing a third example of superposition of thin beams in an outer peripheral brush seal as a brush seal device according to a third embodiment of the present invention, and shows a pattern of first thin beams. It is.
- FIG. 11A is a first diagram showing a third example of superposition of thin beams in an outer peripheral brush seal as a brush seal device according to a third embodiment of the present invention, and shows a pattern
- FIG. 11B is a second diagram showing a third example of superposition of thin beams in the outer peripheral brush seal as the brush seal device of the third embodiment of the present invention, and shows a pattern of the second thin beams. It is.
- FIG. 11C is a third diagram showing a third example of superposition of thin beams in the outer peripheral brush seal as the brush seal device of the third embodiment of the present invention, and shows the first thin beam shown in FIG. 11A. It is a figure which shows the state which laminated
- FIG. 12 is a cross-sectional view showing the configuration of the brush seal device according to the fourth embodiment of the present invention.
- FIG. 12 is a cross-sectional view showing the configuration of the brush seal device according to the fourth embodiment of the present invention.
- FIG. 13A is a first diagram illustrating a configuration of a brush seal device according to a fifth embodiment of the present invention, and is a diagram illustrating an inner peripheral brush seal of an inner peripheral brush seal portion.
- FIG. 13B is a second view illustrating the configuration of the brush seal device according to the fifth embodiment of the present invention, and is a view illustrating the outer peripheral brush seal of the outer peripheral brush seal portion.
- FIG. 1 is a cross-sectional view illustrating the configuration of the brush seal device 100 according to the first embodiment of the present invention
- FIG. 2A is a plan view of the inner peripheral brush seal 120 of the inner peripheral brush seal portion 101 of the brush seal device 100
- 2B is a plan view of the outer peripheral brush seal 140 of the outer peripheral brush seal portion 102 of the brush seal device 100
- FIG. 3 is a perspective view showing the form of the free end 125 of the inner peripheral brush seal 120.
- FIG. 4 is a radial cross-sectional view of the inner peripheral brush seal 120 and the outer peripheral brush seal 140 in the brush seal device 100.
- the brush seal device 100 is, for example, a brush seal device installed in a gas turbine or the like. As shown in FIG. 1, the brush seal device 100 is installed in a gap between the housing 810 and the rotating shaft 830, and the gap is placed on the high pressure P1 side. And a low pressure P2 side. The brush seal device 100 is attached to a step portion 812 provided on the inner peripheral surface 811 of the housing 810.
- the brush seal device 100 includes an inner peripheral brush seal portion 101 and an outer peripheral brush seal portion 102.
- the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 have brush portions 123 and 143 on the inner peripheral side, respectively, and tip portions (inner peripheral end portions) are formed at the free end portions 125 and 145, respectively. Yes.
- the inner peripheral brush seal portion 101 is installed such that the free end portion 125 faces the outer peripheral surface 831 of the rotating shaft 830 and is in contact with or close to the outer peripheral surface 831.
- the outer peripheral brush seal portion 102 is installed on the outer peripheral side of the inner peripheral brush seal portion 101 such that the free end portion 145 faces the outer peripheral surface 111 of the inner peripheral brush seal portion 101 and is in contact with or close to the outer peripheral surface 111. . Further, the outer peripheral surface 112 of the outer peripheral brush seal portion 102 is closely fitted to the inner peripheral surface 811 of the housing 810.
- the brush seal device 100 uses the two-stage brush seal of the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 as described above to seal the sealed fluid on the high pressure P1 side in the space between the housing 810 and the rotating shaft 830. Seal in the axial direction.
- the inner peripheral brush seal portion 101 includes an inner peripheral brush seal 120, a back plate portion 130, and a holding portion 135.
- the inner peripheral brush seal 120 is formed by bundling a large number of linear bristles 121, arranging the bristled bristles 121 in a wall shape along the circumference, and welding the outer peripheral side. To form a ring shape.
- a ring-shaped welded portion on the outer peripheral side is formed as a mounting portion 122, an inner peripheral side thereof is formed as a brush portion 123, and an end portion on the inner peripheral side is in contact with or close to the outer peripheral surface 831 of the rotating shaft 830. Formed as.
- the bristles 121 are arranged in a posture that forms a predetermined angle with respect to the radial direction of the rotating shaft 830 so as to be inclined in the rotating direction of the rotating shaft 830.
- the rotating shaft 830 is fitted in the annular space 127 that is inside the free end portion 125 of the inner brush seal 120 arranged in this way. Therefore, the inner peripheral brush seal 120 is formed so that the inner diameter of the annular space 127 is substantially the same as the outer diameter of the outer peripheral surface 831 of the rotating shaft 830.
- the free ends 125 of the bristles 121 of the inner peripheral brush seal 120 forming a fitting surface (fitting portion) with the rotating shaft 830 are arranged orderly and densely so as not to generate a gap as much as possible. And finished with precision.
- the bristles 121 are linear members having a circular cross section made of a material such as steel, a nickel-based alloy, or a ceramic material, and have a diameter of 0.5 to 0.005 mm, preferably 0.20 to 0.02 mm.
- those having an arbitrary shape may be used on the assumption that the functions, operations, effects, and the like described in this specification can be exhibited.
- a member having an arbitrary cross-sectional shape other than a circular shape such as a linear member having a rectangular cross section, or a member having a diameter other than the above range may be used.
- bristles whose cross-sectional shape, cross-sectional size (diameter) and the like change may be used, or bristles having different shapes and forms may be mixed in a large number of bristles.
- the back plate portion 130 is an annular plate-like member installed on the low pressure P 2 side of the inner peripheral brush seal 120.
- the back plate portion 130 is disposed in a state where the side surface 131 is in contact with the bristles 121 of the inner brush seal 120, and supports the bristles 121 that receive the pressure of the sealed fluid from the low pressure P2 side.
- An opening 132 through which the rotation shaft 830 passes is formed in the center of the back plate part 130.
- the opening 132 has a diameter large enough that it does not come into contact with the rotating shaft 830 when it moves in the radial direction due to vibration or eccentricity.
- the opening 132 has a smaller diameter than the inner inner peripheral surface 813 of the step portion 812 of the housing 810 or the opening 137 of the holding portion 135 described later from the viewpoint of appropriate support of the bristles 121 and prevention of leakage of the sealed fluid. It is formed.
- a secondary seal between the brush seal device 100 and the housing 810 may be formed on the side surface 133 on the low pressure P2 side of the back plate part 130.
- the side surface 133 is a secondary seal surface. Configured as
- the holding part 135 is an annular plate-like member installed on the high pressure P1 side of the inner brush seal 120.
- the holding part 135 is arranged such that the side surface 136 is in contact with the bristles 121 of the inner brush seal 120, and an opening 137 through which the rotation shaft 830 passes is formed at the center.
- the opening 137 is an opening of the back plate portion 130 so that it can cope with deformation of the bristles 121 when the rotating shaft 830 comes into contact with the inner brush seal 120 due to vibration or eccentricity or the contact state changes.
- the diameter is sufficiently larger than 132.
- the back plate portion 130 and the holding portion 135 are integrally formed with the inner peripheral brush seal 120 in such a form that the inner peripheral brush seal 120 is sandwiched between them. That is, the back plate part 130, the attachment part 122 of the inner peripheral brush seal 120, and the holding part 135 are welded around the attachment part 122 of the inner peripheral brush seal 120, and these are joined together as a whole.
- An inner brush seal portion 101 is configured.
- a brush receiving portion 190 described later is installed on the outer peripheral surface 111 of the inner peripheral brush seal portion 101 in which the back plate portion 130, the inner peripheral brush seal 120, and the holding portion 135 are integrated.
- the inner peripheral brush seal portion 101 is fitted into an annular space 147 inside the free end portion 145 of the outer peripheral brush seal 140 of the outer peripheral brush seal portion 102 with a brush receiving portion 190 interposed. . Therefore, the outer diameter of the inner peripheral brush seal portion 101, that is, the outer diameter of the inner peripheral brush seal 120, the back plate portion 130, and the holding portion 135 is substantially the same as the inner diameter of the annular space 147 of the outer peripheral brush seal portion 102 described later. Formed.
- the back plate part 130 and the holding part 135 are made of, for example, an arbitrary material such as a nickel-based alloy, iron, steel, or other non-ferrous metal.
- the back plate part 130 and the holding part 135 are appropriately selected according to the type, temperature, and other conditions of the fluid to be sealed, or the material and structure of the bristles 121 or the mounting part 122 of the inner brush seal 120. Is done.
- the outer peripheral brush seal portion 102 includes an outer peripheral brush seal 140, a first holding portion 150, a second holding portion 155, and a brush receiving portion 190.
- the configuration of the outer peripheral brush seal portion 102 is basically the same as the inner peripheral brush seal portion 101 described above. In addition to the dimensions of each portion, the inclination direction of the bristles 141, the configurations and functions of the holding portions 150 and 155, and The presence or absence of the brush receiving portion 190 is different from the inner peripheral brush seal portion 101.
- the outer peripheral brush seal 140 is formed by bundling a number of linear bristles 141 like the inner peripheral brush seal 120, and bundling the bristles 141 into a wall shape along the circumference. And the outer peripheral sides are joined together by welding to form a ring shape.
- a ring-shaped welded portion on the outer peripheral side is formed as a mounting portion 142, an inner peripheral side thereof is formed as a brush portion 143, and an end portion on the inner peripheral side is installed on the outer peripheral surface 111 of the inner peripheral brush seal portion 101. Formed as a free end 145 in contact with or in close proximity to portion 190.
- the inner peripheral brush seal portion 101 is fitted in an annular space 147 inside the free end portion 145. Accordingly, the inner diameter of the annular space 147 inside the free end portion 145 of the outer peripheral brush seal 140 is formed to be substantially the same as the outer diameter of the outer peripheral surface 111 of the inner peripheral brush seal portion 101.
- the material, cross-sectional shape, cross-sectional size, arrangement density, and arrangement form of the bristles 141 are substantially the same as the bristles 121 of the inner brush seal 120 described above.
- the bristles 141 are inclined such that the bristles 121 of the inner peripheral brush seal 120 are inclined with respect to the radial direction of the rotation shaft 830, that is, the radial direction of the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102. It is set as the structure inclined in the opposite direction to the inclination along the circumferential direction.
- action and effect of having such a structure are mentioned later.
- 1st holding part 150 is an annular member installed in the low voltage
- the second holding portion 155 is an annular member installed on the high pressure P1 side of the mounting portion 142 of the outer peripheral brush seal 140.
- the first holding part 150 and the second holding part 155 are formed integrally with the outer peripheral brush seal 140 in such a form that the outer peripheral brush seal 140 is sandwiched between them. That is, the first holding portion 150, the mounting portion 142 of the outer peripheral brush seal 140, and the second holding portion 155 are welded around the mounting portion 142 of the outer peripheral brush seal 140, and these are integrally coupled. As a whole, the main portion of the outer peripheral brush seal portion 102 is constituted.
- the outer diameter of the outer peripheral brush seal portion 102 that is, the outer diameter of the outer peripheral brush seal 140, the first holding portion 150, and the second holding portion 155 is substantially the same as the inner diameter of the inner peripheral surface 811 of the housing 810. Formed.
- the brush receiving portion 190 is a tubular member fitted and installed on the outer peripheral surface of the inner brush seal portion 101, and is a spread preventing member that prevents the free end portion 145 of the bristles 141 of the outer brush seal 140 from spreading.
- the brush receiving portion 190 has a recess 191 formed in the outer diameter direction, that is, on the outer peripheral surface thereof.
- the recess 191 is a passage of the bristles 141 of the outer peripheral brush seal portion 102 that is arranged so that the free end portion 145 of the outer peripheral brush seal 140 comes close to, abuts, or slides.
- Both ends of the recess 191 in the axial direction project in an annular shape in the outer diameter direction, and the free end 145 of the outer peripheral brush seal 140 moves so that the free end 145 of the outer peripheral brush seal 140 does not protrude outside the recess 191.
- the first holding unit 150, the second holding unit 155, and the brush receiving unit 190 are also similar to the back plate unit 130 and the holding unit 135 of the inner peripheral brush seal unit 101, for example, a nickel-based alloy, iron, steel, It is made of any material such as non-ferrous metal.
- a suitable material is appropriately selected depending on the type, temperature, and other conditions of the fluid to be sealed, or the material and structure of the bristles 141 or the mounting portion 142 of the outer peripheral brush seal 140.
- the brush seal device 100 having the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 having each configuration as described above is a brush seal device having two stages of inner and outer peripheral brush seals. It is installed between the rotating shaft 830 of the peripheral surface 811.
- an inner peripheral brush seal portion 101 and an outer peripheral brush seal portion 102 are integrally formed in advance, and the integrally formed brush seal device 100 is installed between the housing 810 and the rotating shaft 830. It can be. In that case, until the brush seal device 100 is installed on the inner peripheral surface 811 of the housing 810, the brush seal device 100 is mounted between the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 so as to integrally hold them. You may make it use a member as needed. The setting member is removed after the brush seal device 100 is installed on the inner peripheral surface 811 of the housing 810 or at the subsequent actual operation stage, so that the inner brush seal portion 101 and the outer brush seal portion 102 move relative to each other. enable.
- the brush seal device 100 is prepared in a state where the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 are separated before installation (the brush receiving portion 190 is provided on the outer peripheral surface 111 of the inner peripheral brush seal portion 101). It is preferable that the brush seal device 100 be installed between the housing 810 and the rotating shaft 830 when the brush seal device 100 is assembled.
- the outer peripheral brush seal portion 102 is first installed on the inner peripheral surface 811 of the housing 810, and then the inner peripheral surface 831 of the rotary shaft 830, which is the annular space 127 of the outer peripheral brush seal portion 102, which is the inner periphery thereof. You may make it install the brush seal
- the inner brush seal portion 101 is first installed on the outer peripheral surface 831 of the rotating shaft 830, and then the outer brush seal portion 102 is installed outside the inner peripheral surface 811 of the housing 810. Also good.
- the brush seal device 100 of the present embodiment having such a configuration, since the outer peripheral brush seal 140 is further provided on the outer peripheral side of the inner peripheral brush seal 120, the sealed fluid is sealed on the outer peripheral side of the brush seal device 100. Therefore, leakage of the sealed fluid from the outer peripheral side of the brush seal device 100 can be appropriately prevented.
- the secondary seal provided for preventing leakage of the sealed fluid on the outer peripheral side of the brush seal device 100 can be eliminated.
- the leakage of the fluid to be sealed from the secondary seal surface can be prevented appropriately, the burden on the secondary seal can be reduced, and the life can be extended. Further, it is possible to prevent the performance required for the secondary seal from being increased, and to obtain effects such as cost reduction of the apparatus.
- the brush seal device 100 of the present embodiment has two-stage brush seals of the inner brush seal 120 and the outer brush seal 140, the elastic characteristics (spring property) of the entire brush seal device 100 are improved. Can do. As a result, there is a risk that a gap may be formed between the rotary shaft 830 and the free end portion 125 of the inner brush seal 120 due to eccentricity of the rotary shaft 830 or wear of the brush seal (inner brush seal 120). Even in this case, the inner peripheral brush seal 120 can appropriately continue to follow the outer peripheral surface 831 of the rotating shaft 830. As a result, it is possible to prevent such a gap from occurring and appropriately prevent leakage of the sealed fluid.
- the bristles 141 of the outer peripheral brush seal 140 are also formed to be inclined with respect to the radial direction of the inner peripheral surface 811 of the housing 810 and the rotating shaft 830.
- the brush portion 143 also has an eccentricity preventing function based on elastic deformation. As a result, the function of preventing eccentricity with respect to the rotating shaft 830 can be exhibited more suitably as the entire brush seal device 100. That is, it is possible to reduce the risk that a gap is generated between the rotary shaft 830 and the free end 125 of the inner peripheral brush seal 120, and the brush seal device 100 as a whole can more appropriately align the rotary shaft 830. Can do.
- the lengths and angles of the bristles 121 and 141 can be adjusted to arbitrary states in each of the inner peripheral brush seal 120 and the outer peripheral brush seal 140. Accordingly, it is possible to adjust the eccentricity preventing action acting on the inner peripheral brush seal 120 and the outer peripheral brush seal 140 to appropriate operating states, respectively.
- the brush seal device 100 as a whole is more suitably rotated. 830 can exhibit an eccentricity prevention function, and the rotation shaft 830 can be properly aligned.
- the inclination direction of the bristles 141 of the outer peripheral brush seal 140 is different from the inclination direction of the bristles 121 of the inner peripheral brush seal 120 with respect to the radial direction of the rotating shaft 830. Yes.
- a force can be applied to the outer brush seal 140 in a direction opposite to the direction of the force acting on the inner brush seal 120 due to the rotation of the rotating shaft 830.
- the inner brush seal 120 and the outer brush seal 140 can be made difficult to rotate.
- the bristles 121 and the bristles 141 are formed on the inner peripheral brush seal 120 and the outer peripheral brush seal 140 by joining the outer peripheral sides by welding, respectively.
- the bristles 121 and 141 are formed on the inner peripheral brush seal 120 and the outer peripheral brush seal 140 by joining the outer peripheral sides by welding, respectively.
- the inner brush seal 120 of the inner brush seal portion 101 and the outer brush seal 140 of the outer brush seal portion 102 have the same brush portions 123 and 143.
- the inner brush seal 120 and the outer brush seal 140 may have different brush portions 123 and 143. That is, for the inner brush seal 120 and outer brush seal 140, the brush portions 123 and 143 are configured using bristles 121 and 141 having different materials, wire diameters, shapes (cross-sectional shapes), characteristics, arrangement density, or arrangement form. May be.
- the brush portions 123 and 143 having various operating conditions and operating characteristics can be configured as the inner peripheral brush seal 120 and the outer peripheral brush seal 140, and brushes each having optimum conditions. Portions 123 and 143 can be formed. As a result, it is possible to provide a brush seal device that can be applied to a wider range of technical fields and has higher performance.
- an annular member having a concave cross section is used as the brush receiving portion 190, but a member that simply defines the range of the free end portion 145 of the outer peripheral brush seal 140 is used as the outer peripheral surface 111 of the inner peripheral brush seal portion 101.
- it may be configured to be installed on both sides of the range in the axial direction.
- an arbitrary configuration may be used as long as it can prevent the free end portion 145 of the outer peripheral brush seal 140 from spreading.
- the sealed fluid from around the rotating shaft and from the outer peripheral side can be prevented from leaking, and wear of the brush seal, the rotating shaft or the housing can be prevented.
- the brush seal device 100 capable of appropriately maintaining these functions and operations over a long period of time is provided.
- FIG. 5 is a cross-sectional view illustrating a configuration of the brush seal device 200 according to the second embodiment of the present invention
- FIG. 6A illustrates a plate constituting the inner peripheral brush seal 220 of the inner peripheral brush seal portion 201 of the brush seal device 200
- FIG. 6B is a plan view of the plate brush seal single plate 321 constituting the outer peripheral brush seal 240 of the outer peripheral brush seal portion 202 of the brush seal device 200
- FIG. 8A and 8B are radial cross-sectional views of the inner peripheral brush seal 220 and the outer peripheral brush seal 240 of the sealing device 200.
- FIGS. 8A and 8B are a first pattern and a second pattern of the thin beam 221 of the inner peripheral brush seal 220, respectively.
- FIG. 8C is a diagram showing a state in which these layers are stacked.
- FIG. 8C is a diagram showing a state in which these layers are stacked.
- the brush seal device 200 of the second embodiment has basically the same configuration as the brush seal device 100 of the first embodiment. That is, the brush seal device 100 is installed in a gap between the housing 810 and the rotating shaft 830, and divides the gap into the high pressure P1 side and the low pressure P2 side.
- the brush seal device 200 includes an inner peripheral brush seal portion 201 and an outer peripheral brush seal portion 202, the inner peripheral brush seal portion 201 includes an inner peripheral brush seal 220, and the outer peripheral brush seal portion 202 includes an outer peripheral brush seal 240.
- Each of the inner peripheral brush seal 220 and the outer peripheral brush seal 240 has brush portions 223 and 243 on the inner peripheral side, and tip portions (inner peripheral side end portions) are formed at free end portions 225 and 245, respectively.
- the inner peripheral brush seal portion 201 is installed in a state in which the free end portion 225 is in contact with or close to the outer peripheral surface 831 while facing the outer peripheral surface 831 of the rotation shaft 830.
- the outer peripheral brush seal portion 202 is installed on the outer peripheral side of the inner peripheral brush seal portion 201 so that the free end portion 245 faces the outer peripheral surface 211 of the inner peripheral brush seal portion 201 and is in contact with or close to the outer peripheral surface 211. . Further, the outer peripheral surface 212 of the outer peripheral brush seal portion 202 is closely fitted to the inner peripheral surface 811 of the housing 810.
- the brush seal device 200 uses the two-stage brush seal of the inner peripheral brush seal portion 201 and the outer peripheral brush seal portion 202 as described above to seal the fluid to be sealed on the high pressure P1 side in the space between the housing 810 and the rotating shaft 830. Seal in the axial direction.
- the brush seal device 200 of the second embodiment is different from the brush seal device 100 of the first embodiment in the configuration of the inner peripheral brush seal 220 and the outer peripheral brush seal 240.
- the brush seals 120 and 140 of the inner peripheral brush seal portion 101 and the outer peripheral brush seal portion 102 of the brush seal device 100 according to the first embodiment described above are formed by bundling a large number of linear bristles 121 and 141.
- the bristles were arranged in a wall shape along the circumference, and the outer peripheral side, the inner peripheral side, or the middle part was joined by welding to form a ring shape.
- the inner peripheral brush seal portion 201 and the inner peripheral brush seal portion 220 and the outer peripheral brush seal 240 of the outer peripheral brush seal portion 202 of the brush seal device 200 of the second embodiment are thin plates as shown in FIGS. 6A and 6B.
- An annular plate brush seal single plate 311, 321 is laminated and formed.
- the plate brush seal single plates 311 and 321 each form an annular body, are processed into thin beams 221 and 241 whose inner peripheral side is inclined in the circumferential direction, and slits 312 and 322 are formed therebetween.
- the thin beams 221 and 241 and the slits 312 and 322 are formed in the brush portions 313 and 323 at a predetermined interval.
- the inclination direction with respect to the circumferential direction of the slits 312 and 322 and the thin beams 221 and 241 is a direction that is the rotational direction of the rotary shaft 830 in the plate brush seal single plate 311 of the inner brush seal 220.
- the radial direction of the rotating shaft 830 that is, the radial direction of the inner peripheral brush seal portion 201 and the outer peripheral brush seal portion 202.
- it is the direction opposite to the inclination direction of the thin beam 221 of the brush part 313 of the plate brush seal single plate 311.
- the thin beams 221 and 241 of the plate brush seal single plates 311 and 321 have, for example, lengths of vertical and horizontal sides of 0.2 to 0.005 ⁇ 0.3 to 0.008 mm, preferably 0.15 to 0.008.
- a rod-shaped (linear or hairy) member having a rectangular or square cross-sectional shape of ⁇ 0.2 to 0.01 mm.
- cross sections of the thin beams 221, 241 various shapes such as a triangle, a trapezoid, an ellipse, etc. are used in addition to a rectangle.
- the thin beams 221 and 241 may be called bristles.
- the outer peripheral sides of the brush portions 313, 323 are formed in annular plate-like base portions 316, 326 in which the slits 312, 322 and the thin beams 221, 241 are not formed. 221 and 241 are connected to the bases 316 and 326.
- the plate brush seal single plates 311 and 321 are stacked to form the inner peripheral brush seal 220 and the outer peripheral brush seal 240, a large number of stacked plate brush seal single plates 311 and 321 are welded at the base portions 316 and 317. , Integrated.
- the plate brush seal single plate 311 and the plate brush seal single plate 321 that is, the inner peripheral brush seal 220 and the outer peripheral brush seal 240 are used. Different forms are illustrated.
- the base portion 316 is formed relatively wide, and the base portion 316 has a circular shape.
- a positioning hole 317 is formed along the circumference.
- the pitch of the positioning holes 317 does not correspond to the pitch of the thin beams 221 of the brush portion 313 (the pitch of the slits 312) (the pitch of the positioning holes 317 is an integral multiple of the pitch of the thin beams 221). It is formed so as to be slightly different. Alternatively, the pitch (interval) of each positioning hole 317 is formed to be slightly different.
- the difference in the pitch of the positioning holes 317 is that when the plurality of plate brush seal single plates 311 are stacked, the positioning holes 317 are shifted and aligned so that the position of the thin beam 221 of the brush portion 313 is changed to the plate brush seal single plate. 311 is formed so as to be shifted little by little. Specifically, the position of the thin beam 221 is shifted by a fraction of the pitch of the thin beam 221 by appropriately changing the positioning hole 317 to be matched between the plate brush seal single plates 311.
- the inner brush seal 220 is formed by stacking a plurality of plate brush seal single plates 311, if the positioning hole 317 is shifted and aligned, another plate brush seal single plate 311 is placed at the position of the slit 312.
- the thin beams 221 of the plate brush seal single plate 311 can be overlapped.
- adjacent plate brush seal single plates 311 are laminated as thin beams 221a and 221b in a state shifted by 1 ⁇ 2 of the pitch as shown in FIGS. 8A and 8B,
- a slit (gap) penetrating the inner brush seal 220 in the axial direction can be substantially eliminated.
- the base portion 316 is formed to be relatively narrow, and a positioning hole is formed in the base portion 316. Etc. are not formed.
- the outer peripheral brush seal 240 is formed by stacking a plurality of single plate brush seal single plates 321, the plate of each inner peripheral slit 312 is determined using the positioning holes as in the single plate brush seal single plate 311. It is not possible. However, in other words, in the inner circumferential side slit 312, the respective plates can be shifted and stacked by an arbitrary position. Then, by laminating the layers, the slits (gap) penetrating the outer peripheral brush seal 240 in the axial direction can be substantially eliminated as the entire outer peripheral brush seal 240, and the leakage of the sealed fluid is effectively prevented. Can be prevented.
- the configuration of the base 316 that is, the configuration of the plate brush seal single plate 321 itself can be made simpler than the plate brush seal single plate 311.
- the width of the base 326 can be reduced, and the size of the outer peripheral brush seal 240 can be reduced.
- the plate brush seal single plate 321 can be stacked by an arbitrary shifting method, and the degree of freedom is improved as compared with the plate brush seal single plate 311 with respect to the shifting method of the plate brush seal single plate.
- the inner peripheral brush seal 220 is configured using a plate brush seal single plate 311 having a positioning hole 317
- the outer peripheral brush seal 240 is configured using a plate brush seal single plate 321 that does not include the positioning hole 317.
- the inner peripheral brush seal 220 may be composed of a single plate brush seal single plate not having a positioning hole
- the outer peripheral brush seal 240 may be composed of a single plate brush seal single plate having a positioning hole, or the inner peripheral brush seal.
- Both 220 and the outer peripheral brush seal 240 may be constituted by a single plate brush seal single plate having a positioning hole, or both may be constituted by a single plate brush seal single plate having no positioning hole.
- the plate brush seal single plates 311 and 321 to be stacked may be stacked while being shifted as described above, or may be stacked without being shifted. Such a configuration may be used when the leakage amount of the sealed fluid can be sufficiently suppressed even if there is a gap penetrating the inner peripheral brush seal 220 or the outer peripheral brush seal 240 in the axial direction.
- the material of the plate brush seal single plates 311 and 321 is steel, stainless steel, nickel-based alloy, ceramic material, or the like. Further, the slits 312 and 322 or the positioning hole 317 for the plate brush seal single plates 311 and 321 are processed by fine processing such as wire discharge processing, etching processing, laser processing, electron beam processing, etc., which are conventionally known. The method can be applied.
- the inner peripheral brush seal 220 and the outer peripheral brush seal 240 of the brush seal device 200 of the second embodiment are respectively provided with the plate brush seal single plates 311 and 321 having such a structure according to the required sealing capacity. Alternatively, it is formed by laminating as many as necessary. That is, the plurality of plate brush seal single plates 311 and 321 are aligned as described above, and the plurality of plate brush seal single plates 311 and 321 are integrated by welding the base portions 316 and 326 or the like.
- the bonding of the plurality of plate brush seal single plates 311 is, for example, FIG.
- the alignment pin 318 can be inserted into the positioning hole 317 in which the positions of the plurality of plate brush seal single plates 311 are aligned. At that time, when welding the plurality of plate brush seal single plates 311, the alignment pins 318 may also be welded together. It is effective for preventing omission.
- the alignment pins 318 are erected in advance on the back plate portion 130, for example, and when the plate brush seal single plate 311 is laminated, each plate is aligned with the alignment pins 318 installed on the back plate portion 330. It is good also as a form which matches the position of the brush seal single plate 311.
- FIG. The step of laminating a plurality of plate brush seal single plates 311 and the step of installing a back plate portion 130 and a holding portion 135 described later are performed simultaneously in substantially the same step. It becomes easy to handle, and there is a possibility that both the step of laminating the plate brush seal single plate 311 and the step of installing the back plate portion 130 and the holding portion 135 can be simplified.
- the brush seal device 200 may be implemented by such a structure and method.
- the plurality of plate brush seal single plates 321 are in a desired alignment state. In the maintained state, these are joined by simply welding the base 326 of each plate brush seal veneer 321.
- the welded portions of the base portions 316 and 326 may be hereinafter referred to as attachment portions 222 and 242, respectively.
- the brush seal device 200 has the inner peripheral brush seal portion 201 and the outer peripheral brush seal portion 202.
- the inner peripheral brush seal portion 201 is configured by the plate brush seal single plate 311 as described above.
- a back plate part 130 and a holding part 135 are provided in addition to the peripheral brush seal 220.
- the outer peripheral brush seal portion 202 includes a back plate portion 250 and a holding portion 255 in addition to the outer peripheral brush seal 240 configured as described above by the inner peripheral slit 312.
- the configurations of the back plate portion 130 and the holding portion 135 are the same as those of the brush seal device 100 of the first embodiment. That is, the back plate portion 230, the inner peripheral brush seal 220, and the holding portion 135 are welded around the attachment portion 222 of the inner peripheral brush seal 220, and these are joined together to form the inner peripheral brush seal portion 201. It is said.
- the configuration, function, action, and the like of the back plate portion 250 and the holding portion 255 are the same as those of the back plate portion 130 and the holding portion 135 of the inner peripheral brush seal portion 201 (the brush seal device of the first embodiment).
- 100 is the same as the back plate portion 130 and the holding portion 135) of the inner peripheral brush seal portion 101.
- the back plate portion 250, the outer peripheral brush seal 240, and the holding portion 255 are welded around the attachment portion 242 of the outer peripheral brush seal 240, and these are joined together to form the outer peripheral brush seal portion 202.
- the functions, operations and actions of the free end portions 225 and 245 of the brush portions 223 and 243 of the inner peripheral brush seal portion 201 and the outer peripheral brush seal portion 202 of the brush seal device 200 and the outer peripheral brush seal 240 are as follows:
- the functions, operations, and functions of the free end portions 125 and 145 of the brush portions 123 and 143 of the brush seal portions 120 and 140 of the brush seal portions 101 and 102 of the brush seal device 100 of the first embodiment described above are the same.
- the brush part 223 of the inner peripheral brush seal 220 of the inner peripheral brush seal part 201 and the brush part 243 of the outer peripheral brush seal 240 of the outer peripheral brush seal part 202 are the same brush part. That is, the thin beam 221 constituting the inner brush seal 220 and the thin beam 241 constituting the outer brush seal 240 have the same material, sectional shape, size, characteristics such as elastic properties, arrangement density, arrangement form, and the like. It is assumed that
- the brush receiving portion 190 is installed on the outer peripheral surface 111 of the inner peripheral brush seal portion 101, and the free end portion of the bristles 141 of the outer peripheral brush seal 140 of the outer peripheral brush seal portion 102. 145 spread was prevented.
- the brush receiving portion 190 is not provided, and the free end portion 245 of the brush portion 243 of the outer peripheral brush seal 240 is the outer peripheral surface of the inner peripheral brush seal portion 201. 211 is in direct contact with 211.
- the back plate portion 250 and the holding portion 255 are outer peripheral brushes.
- the seal 240 is sandwiched and the side surface of the thin beam 241 of the outer peripheral brush seal 240 is supported. That is, in the brush seal device 200, as described above, the root portion on the mounting portion 242 side of the outer peripheral brush seal 240 is centered on the mounting portion (base) 242 between the back plate portion 250 and the holding portion 255. The range is included.
- the back plate portion 250 and the holding portion 255 prevent the narrow beam 241 of the outer peripheral brush seal 240 from spreading. Therefore, it is not necessary to provide a configuration like the brush receiving portion 190 at the position of the free end portion 245 of the outer peripheral brush seal 240.
- FIG. 7 shows a radial cross-sectional view of the inner peripheral brush seal 220 and the outer peripheral brush seal 240 in the brush seal device 200.
- the thin beam 241 of the outer peripheral brush seal 240 corresponds to the radial direction of the rotation shaft 830.
- the thin beam 221 is inclined in the opposite direction to the inclination.
- the inclination angle and length of the thin beam 221 and the thin beam 241 are determined by the spring effect of the thin beam 241 of the outer peripheral brush seal 240 and the thin beam 221 of the inner peripheral brush seal 220. Adjustment is made so that only the direction component F remains.
- the stress (vibration stress) applied to the vibration or the like received by the brush seal device 200 from the rotating shaft 830 is only a radial force, and the brush seal device 200 behaves such as unstable vibration. This can be prevented, and the operation of the brush seal device 200 can be stabilized.
- the characteristics of the inclination angle and the length of the thin beam 221 and the thin beam 241 are as described above.
- the brush seal device 200 of the second embodiment has such a configuration. Therefore, also in the second embodiment, the sealed fluid from around the rotating shaft and from the outer peripheral side can be prevented from leaking, and the wear of the brush seal, the rotating shaft or the housing can be prevented. It is possible to provide a brush seal device that can appropriately maintain the action over a long period of time.
- the brush portion 223 of the inner brush seal 220 of the inner brush seal portion 201 and the brush portion 243 of the outer brush seal 240 of the outer brush seal portion 202 are the same brush portion.
- these can also be configured as different brush portions.
- the thin beam 221 constituting the inner peripheral brush seal 220 and the thin beam 241 constituting the outer peripheral brush seal 240 are divided into cross-sectional shape, cross-sectional size, characteristics such as elastic characteristics, arrangement density, arrangement form, etc. By processing into different ones, these become different brush portions. As a result, it is possible to provide a brush seal device that can be applied to a wider range of technical fields and has higher performance.
- the inner brush seal portion 201 and the outer brush seal portion 202 may be configured to be integrated in advance before the brush seal device 200 is installed in the housing 810.
- a configuration may be adopted in which the apparatus 200 is kept separated as a separate unit until the apparatus 200 is installed in the housing 810, and is integrated when the apparatus 200 is installed in the housing 810 (during assembly).
- a brush seal device according to a third embodiment of the present invention will be described with reference to FIGS.
- the brush seal device of 3rd Embodiment is demonstrated as a modification of the brush seal device 200 of 2nd Embodiment.
- the same plate brush seal single plates 311 and 321 are stacked to constitute the brush seals 220 and 240 (the inner brush seal 220 and the outer brush seal 240).
- the brush seals 220 and 240 may be configured by stacking different types of plate brush seal single plates.
- the outer peripheral brush seal 240 by laminating a plurality of types of plate brush seal single plates 321 having different thin beam 241 configurations, the gap in the axial direction of the brush portion 243 of the outer peripheral brush seal 240 is reduced. Can do.
- the brush portion 243 of the outer peripheral brush seal 240 is laminated.
- 9C has a form as shown in FIG. 9C, and the gap in the axial direction is reduced.
- FIGS. 11A and 11B by laminating two kinds of plate brush seal single plates 321g and 321h having thin beams 241g and 241h having different inclination angles, the brush portion 243 of the outer peripheral brush seal 240 is laminated.
- 11C has a form as shown in FIG. 11C, and the axial gap is reduced even in this configuration.
- the gap in the axial direction of the thin beam 241 of the outer peripheral brush seal 240 is reduced, so that leakage of the sealed fluid around the outer periphery of the brush seal device 200 can be reduced or prevented.
- the brush seal device of the third embodiment has such a configuration.
- the actions, effects, modifications, and the like related to the brush seal device of each embodiment described above can also be applied to the brush seal device described as the third embodiment. Therefore, also in the third embodiment, the sealed fluid from the periphery of the rotating shaft and from the outer peripheral side can be prevented from leaking, and wear of the brush seal, the rotating shaft or the housing can be prevented. It is possible to provide a brush seal device that can appropriately maintain the action over a long period of time.
- the present invention can also be applied to a configuration in which the outer peripheral brush seal is formed by the bristles described as the first embodiment.
- a similar method can also be applied to the inner brush seal 220. Such a configuration is preferable because leakage of the sealed fluid in the brush portion 223 of the inner peripheral brush seal 220 can be reduced or prevented.
- the inner brush seals 120 and 220 and the outer brush seals 140 and 240 are in the direction in which the direction of the bristles 121 and 141 or the thin beams 221 and 241 is along the radial direction of the rotation shaft 830. It was arranged to become.
- the outer peripheral brush seal 540 is disposed so as to be inclined in the axial direction.
- the brush seal device 500 of the present embodiment is also a brush seal device that partitions a gap between a housing 810 such as a gas turbine and the rotation shaft 830 into a high pressure P1 side and a low pressure P2 side.
- the sealing device 500 is attached to an inclined surface 815 provided on the inner peripheral surface 811 of the housing 810.
- the inclined surface 815 is a surface inclined by approximately 45 ° with respect to the inner peripheral surface 811.
- the brush seal device 500 includes an inner peripheral brush seal portion 101, an outer peripheral brush seal portion 502, and a connecting portion 503.
- the inner peripheral brush seal portion 101 includes an inner peripheral brush seal 120, a back plate portion 130, and a holding portion 135, and has the same configuration as the inner peripheral brush seal portion 101 of the first embodiment described above.
- the outer peripheral brush seal portion 502 includes an outer peripheral brush seal 540, a back plate portion 580, and a holding portion 585.
- the outer peripheral brush seal 540 of the outer peripheral brush seal portion 502 has substantially the same configuration as the outer peripheral brush seal 140 of the brush seal device 100 of the first embodiment, but the overall shape is similar to the outer peripheral brush seal 140 of the first embodiment. Instead of a flat planar ring shape, it is formed in a truncated cone (conical frustum) shape as shown in a sectional shape in FIG.
- the outer peripheral brush seal 540 has a large number of linear bristles 541 bundled, the bristled bristles 541 are arranged in a wall shape along the frustoconical peripheral surface shape, and the outer peripheral side end 542 is welded. They are combined to form a truncated cone. And the inner peripheral side of the welding part 542 is formed in the brush part 543, and the free end part 545 is formed in the front-end
- the outer peripheral brush seal 540 is sandwiched between the back plate portion 580 and the holding portion 585, thereby being integrated with the outer peripheral brush seal portion 502.
- the back plate portion 580 is a truncated cone (conical frustum) -shaped member that is installed on the low pressure P2 side of the outer peripheral brush seal 540, and has the bristles 541 of the outer peripheral brush seal 540 at the low pressure P2. Support from the side.
- the holding portion 585 is a truncated cone-shaped member similar to the outer peripheral brush seal 540, which is installed on the high pressure P1 side of the outer peripheral brush seal 540, and has an outer periphery with the back plate portion 580. This is a member for sandwiching the brush seal 540.
- the back plate portion 580 and the holding portion 585 are arranged in such a manner that the outer peripheral brush seal 540 is sandwiched between them, and are welded around the outer peripheral side welded portion 542 of the outer peripheral brush seal 540, and these three are integrated.
- the outer peripheral brush seal portion 502 is formed.
- the materials of the back plate portion 580 and the holding portion 585 are the same as those of the back plate portion 130 and the holding portion 135 of the first embodiment.
- the outer peripheral surface 512 is placed on each plate surface of the outer peripheral brush seal 520, the back plate portion 580, and the holding portion 585, as shown in a cross section in FIG.
- the outer peripheral brush seal portion 502 is formed in a truncated cone shape as a whole, the outer peripheral surface 512 of the outer peripheral brush seal portion 502 is the outer peripheral surface of the rotary shaft 830. 831 or a surface inclined with respect to the inner peripheral surface 811 of the housing 810.
- the inclination angle of the outer peripheral surface 512 with respect to the inner peripheral surface 811 of the housing 810 is the same as the inclination angle of the inclined surface 815 of the housing 810, and the outer peripheral surface is the same as the inclined surface 815 of the housing 810. It is formed so as to face each other in parallel.
- the connecting portion 503 is an annular member having a triangular cross section.
- the connecting portion 503 has an inner peripheral surface 504 and an inclined surface 505 parallel to the inclined surface 815 formed on the inner peripheral surface 811 of the housing 810.
- the inner diameter of the connecting portion 503 is formed substantially the same as the outer diameter of the inner peripheral brush seal portion 101, and the axial length (thickness) of the connecting portion 503 is the axial length of the inner peripheral brush seal portion 101. It is substantially the same as the thickness (thickness).
- the inner peripheral brush seal portion 101 is fitted and joined to the inner peripheral surface 504 of the connecting portion 503 as shown in the figure, and the connecting portion 503 is integrated with the inner peripheral brush seal portion 101.
- the brush seal device 500 having such a configuration fixes and installs the outer peripheral surface 512 of the outer peripheral brush seal portion 502 on the inclined surface 815 of the inner peripheral surface 811 of the housing 810.
- An inclined surface 505 of the connecting portion 503 installed on the outer peripheral surface 111 of the inner peripheral brush seal portion 101 fitted and installed on the rotation shaft 830 is brought into contact with the free end portion 545 of the bristles 541 of the outer peripheral brush seal 540 substantially perpendicularly.
- it is installed between the housing 810 and the rotating shaft 830.
- the free ends 125 of the bristles 121 of the inner brush seal 120 of the inner brush seal portion 101 are arranged in a state of being close to the outer peripheral surface 831 of the rotating shaft 830, and the high pressure P1 side of the gap with the rotating shaft 830 The low pressure P2 side is sealed. Further, the free end portion 525 of the bristles 521 of the outer peripheral brush seal portion 540 of the outer peripheral brush seal portion 502 is disposed in the state of being close to the inclined surface 505 of the connecting portion 503, and the high pressure P1 side between the connecting portion 503 and the low pressure P2 Seal the sides.
- the brush seal device 500 of the fourth embodiment has such a configuration. All of the operations, effects, modifications, and the like of the brush seal device of each embodiment described above can also be applied to the brush seal device 500 of the fourth embodiment. Therefore, also in the fourth embodiment, the sealed fluid from the periphery of the rotating shaft and from the outer peripheral side can be prevented from leaking, and wear of the brush seal, the rotating shaft or the housing can be prevented. It is possible to provide a brush seal device that can appropriately maintain the action over a long period of time.
- the outer peripheral brush seal portion 540 follows the axial displacement of the rotating shaft 830.
- the inclination angle of the outer peripheral brush seal 540 is 45 ° in this embodiment, but it depends on the application target, the pressure of the fluid to be sealed, the strength of the load in each direction, the vibration, the form and size of the displacement, etc. Any angle may be used.
- the brush seal of each embodiment described above has a configuration in which bristles are bundled and welded as an inner peripheral brush seal of the inner peripheral brush seal portion and an outer peripheral brush seal of the outer peripheral brush seal portion, or a configuration in which a single plate brush seal single plate is laminated. It was a configuration using either one in common. However, the inner peripheral brush seal and the outer peripheral brush seal may have different forms.
- a brush seal device 600 using a brush seal in which a single plate brush seal single plate is laminated as an inner peripheral brush seal and using a brush seal using bristles as an outer peripheral brush seal will be described.
- the brush seal device 600 of this embodiment has an inner peripheral brush seal portion and an outer peripheral brush seal portion as in the above-described embodiments, but as shown in FIG.
- the outer peripheral brush seal 220 of the second embodiment described above is provided, and as the outer peripheral brush seal of the outer peripheral brush seal portion, the inner peripheral brush seal 140 of the first embodiment described above is provided.
- the detailed configuration is exactly the same as the inner brush seal 220 and the outer brush seal 140 described above.
- only the brush seal is illustrated, and the configuration of the back plate portion and the holding portion is omitted.
- the inner peripheral brush seal portion having the inner peripheral brush seal 220 is installed on the outer peripheral surface 831 of the rotating shaft 830, and the outer peripheral brush seal portion having the outer peripheral brush seal 140 is installed on the inner peripheral surface 811 of the housing 810.
- the free end portion 145 of the bristles 143 of the seal 140 is disposed close to the outer peripheral surface of the inner peripheral brush seal portion having the inner peripheral brush seal 220, whereby the brush seal device 600 is configured.
- the brush seal device 600 of the fifth embodiment has such a configuration.
- the operations, effects, modifications, and the like of the brush seal device of each embodiment described above can also be applied to the brush seal device 600 of the fifth embodiment. Therefore, also in the fifth embodiment, the sealed fluid from around the rotating shaft and from the outer peripheral side can be prevented from leaking, and wear of the brush seal, the rotating shaft or the housing can be prevented. It is possible to provide a brush seal device that can appropriately maintain the action over a long period of time.
- the brush seal 220 formed by laminating a single plate brush seal is used as the inner peripheral brush seal
- the brush seal 140 formed using bristles is used as the outer peripheral brush seal.
- the brush seal according to the present invention can be suitably used for any device having a rotating shaft such as an aircraft or a gas turbine.
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Abstract
Description
しかし、回転軸が移動してブラシシールの剛毛を圧接した場合、これに作用する摩擦力は、剛毛の弾性変形に対するバネ定数はもとより、剛毛の取付構造等に起因する複雑な摩擦力等の影響も受け、これを最適な状態に設定するのは非常に難しい。
回転軸の変動に対する剛毛の追従性が適切でない場合には、剛毛と回転軸との間に隙間が生じて被密封流体が漏洩したり、剛毛の自由端部あるいは回転軸の周面を早期に摩耗させることとなる。
前記外周ブラシシールの前記外周側ブラシ部は、前記複数の剛毛が径方向に対して傾斜して内周方向に配列されており、
前記内周ブラシシールの前記剛毛の傾斜と前記外周ブラシシールの前記剛毛の傾斜とは、前記径方向に対して反対方向であることを特徴とする。
本発明の第1実施形態のブラシシール装置について図1~図4を参照して説明する。
図1は、本発明の第1実施形態のブラシシール装置100の構成を示す断面図であり、図2Aは、ブラシシール装置100の内周ブラシシール部101の内周ブラシシール120の平面図であり、図2Bは、ブラシシール装置100の外周ブラシシール部102の外周ブラシシール140の平面図であり、図3は、内周ブラシシール120の自由端部125の形態を示す斜視図であり、図4は、ブラシシール装置100の内周ブラシシール120及び外周ブラシシール140の箇所における径方向断面図である。
ただし、剛毛121としては、本願明細書に記載の作用、動作あるいは効果等が発揮できることを前提に、任意の形状のものを用いてよい。例えば、断面が矩形の線状部材等、円形以外の任意の断面形状を有する部材を用いてよいし、上記の範囲以外の直径を有する部材を用いてもよい。また、断面形状や断面サイズ(直径)等が変化するような剛毛を用いてもよいし、多数の剛毛の中に、そのような形状、形態の異なる剛毛を混在させて使用してもよい。
ただし、外周ブラシシール140においては、剛毛141の傾斜が、回転軸830の径方向すなわち内周ブラシシール部101や外周ブラシシール部102の径方向に対して、内周ブラシシール120の剛毛121の周方向に沿った傾斜とは反対方向に傾斜した構成とされる。なお、このような構成とすることの作用、効果は後述する。
また、二次シールを併用する形態においても、二次シール面からの被密封流体の漏洩を適切に防止することができ、二次シールの負担を軽減し寿命を長期化することができる。また、二次シールに要求される性能が高くなることを防ぎ、装置のコスト低減等の効果を得ることもできる。
本発明の第2実施形態のブラシシール装置について、図5~図8を参照して説明する。
図5は、本発明の第2実施形態のブラシシール装置200の構成を示す断面図であり、図6Aは、ブラシシール装置200の内周ブラシシール部201の内周ブラシシール220を構成する板ブラシシール単板311の平面図であり、図6Bは、ブラシシール装置200の外周ブラシシール部202の外周ブラシシール240を構成する板ブラシシール単板321の平面図であり、図7は、ブラシシール装置200の内周ブラシシール220及び外周ブラシシール240の箇所における径方向断面図であり、図8A及び図8Bは、内周ブラシシール220の細梁221の第1のパターン及び第2のパターンを示す図であり、図8Cはこれらを積層した状態を示す図である。
図である。
すなわち、ブラシシール装置100は、ハウジング810と回転軸830との間隙に設置されて、当該間隙を高圧P1側と低圧P2側とに仕切る。
ブラシシール装置200は、内周ブラシシール部201及び外周ブラシシール部202を有し、内周ブラシシール部201は内周ブラシシール220を有し、外周ブラシシール部202は外周ブラシシール240を有する。内周ブラシシール220及び外周ブラシシール240は、各々、内周側にブラシ部223、243を有し、その先端部(内周側端部)が自由端部225、245に形成されている。
ブラシシール装置200は、このような内周ブラシシール部201と外周ブラシシール部202の2段のブラシシールにより、ハウジング810と回転軸830との間の空間において、高圧P1側の被密封流体を軸方向にシールする。
前述した第1実施形態のブラシシール装置100の内周ブラシシール部101及び外周ブラシシール部102の各ブラシシール120、140は、多数の線形の剛毛121、141を束状にし、束状にした剛毛を円周に沿って壁状に配列し、外周側、内周側あるいは中間部分を溶接により結合してリング状に形成したものであった。
なお、一般的にこの細梁221及び241を剛毛と称する場合もある。
なお、このように形成された内周ブラシシール220及び外周ブラシシール240においては、以下、基部316、326の溶接された部分を取付部222、242と称する場合もある。
これに対して第2実施形態のブラシシール装置200においては、ブラシ受部190を設けておらず、外周ブラシシール240のブラシ部243の自由端部245は、内周ブラシシール部201の外周面211に直接接する構成となっている。
従って、第2実施形態においても、回転軸周囲から及び外周側からの被密封流体が漏洩を防止することができ、ブラシシール、回転軸あるいはハウジング等の摩耗を防止することができ、これらの機能、作用を長期にわたり適切に維持することのできるブラシシール装置を提供することができる。
本発明の第3実施形態のブラシシール装置について図9~図12を参照して説明する。
第3実施形態のブラシシール装置は、第2実施形態のブラシシール装置200の変形例として説明する。
そして、前述した各実施形態のブラシシール装置に係る作用、効果、変形例等は、第3実施形態として説明したブラシシール装置に対しても適用可能である。従って、第3実施形態においても、回転軸周囲から及び外周側からの被密封流体が漏洩を防止することができ、ブラシシール、回転軸あるいはハウジング等の摩耗を防止することができ、これらの機能、作用を長期にわたり適切に維持することのできるブラシシール装置を提供することができる。
また、この構成は、板ブラシシール単板に細梁を形成しこれを積層する形態に限られるものではない。第1実施形態として説明した剛毛により外周ブラシシールを形成する構成にも適用可能である。
また、同様の方法を内周ブラシシール220に対しても適用可能である。そのような構成とすれば、内周ブラシシール220のブラシ部223における被密封流体の漏洩を低減あるいは防止することができ好適である。
本発明の第4実施形態について図12を参照して説明する。
第4実施形態のブラシシール装置500に係る以下の説明においても、前述した各実施形態のブラシシール装置と実質的に同一の構成については、同じ参照符号を付するとともにその説明を省略する。
これに対して第4実施形態のブラシシール装置500は、外周ブラシシール540が、軸方向に傾斜して配設されているものである。
以下、図面を参照して詳細に説明する。
内周ブラシシール部101は、内周ブラシシール120、背板部130及び保持部135を有し、前述した第1実施形態の内周ブラシシール部101と同じ構成である。
外周ブラシシール部502の外周ブラシシール540は、第1実施形態のブラシシール装置100の外周ブラシシール140と略同一の構成であるが、全体形状が、第1実施形態の外周ブラシシール140のような平面的な円環形状ではなく、図12に断面形状を示すように、裁頭円錐体(円錐台)形状に形成されているものである。すなわち、外周ブラシシール540は、多数の線形の剛毛541を束状にし、その束状にした剛毛541を円錐台側周面形状に沿って壁状に配列し、外周側端部542を溶接により結合して円錐台状に形成したものである。そして、溶接部分542の内周側がブラシ部543に形成され、その先端に自由端部545が形成される。
背板部580は、外周ブラシシール540の低圧P2側に設置される、外周ブラシシール540と同様の裁頭円錐体(円錐台)形状の部材であり、外周ブラシシール540の剛毛541を低圧P2側から支持する。
また、保持部585は、外周ブラシシール540の高圧P1側に設置される、外周ブラシシール540と同様の裁頭円錐体(円錐台)形状の部材であり、背板部580との間で外周ブラシシール540を挟持するための部材である。
これら、背板部580及び保持部585の材質は、第1実施形態の背板部130及び保持部135等と同じである。
連結部503の内径は、内周ブラシシール部101の外径と略同じに形成されており、連結部503の軸方向の長さ(厚み)は、内周ブラシシール部101の軸方向の長さ(厚み)と略同じである。連結部503の内周面504には、図示のごとく内周ブラシシール部101が嵌合され接合され、連結部503は、内周ブラシシール部101と一体化される。
そして特にブラシシール装置500においては、外周ブラシシール部502の外周ブラシシール540が回転軸830の軸方向に対して傾斜して設けられているので、ブラシシール装置500は、回転軸830の径方向に移動のみならず、軸方向の移動にも追従できる。
そして、前述した各実施形態のブラシシール装置の作用、効果、変形例等は、いずれも第4実施形態のブラシシール装置500に対しても適用可能である。従って、第4実施形態においても、回転軸周囲から及び外周側からの被密封流体が漏洩を防止することができ、ブラシシール、回転軸あるいはハウジング等の摩耗を防止することができ、これらの機能、作用を長期にわたり適切に維持することのできるブラシシール装置を提供することができる。
本発明の第5実施形態について図13を参照して説明する。
第5実施形態のブラシシール装置600に係る以下の説明においても、前述した各実施形態のブラシシール装置と実質的に同一の構成については、同じ参照符号を付するとともにその説明を省略する。
なお、ここではブラシシールのみを図示し、背板部や保持部等の構成は図示省略する。
そして、前述した各実施形態のブラシシール装置の作用、効果、変形例等は、第5実施形態のブラシシール装置600に対しても適用可能である。従って、第5実施形態においても、回転軸周囲から及び外周側からの被密封流体が漏洩を防止することができ、ブラシシール、回転軸あるいはハウジング等の摩耗を防止することができ、これらの機能、作用を長期にわたり適切に維持することのできるブラシシール装置を提供することができる。
Claims (8)
- 複数の剛毛が配列されたブラシ部を有し、ハウジングと回転軸との間を軸方向に封止するブラシシール装置であって、
内周ブラシシールを有する内周ブラシシール部と外周ブラシシールを有する外周ブラシシール部とを有し、
前記内周ブラシシールは、
外周側の取付部と、
前記取付部から内周方向に複数の剛毛が配列されたブラシ部と、
前記ブラシ部の内周側端部であり、前記回転軸の外周面と対向して当該外周面に接触又は近接した状態に配置される自由端部とを有し、
前記外周ブラシシールは、
外周側の取付部と、
前記取付部から内周方向に複数の剛毛が配列されたブラシ部と、
前記ブラシ部の内周側端部であり、前記内周ブラシシール部の外周面と対向して当該外周面に接触又は近接した状態に配置される自由端部とを有する
ことを特徴とするブラシシール装置。 - 前記内周ブラシシール又は前記外周ブラシシールの少なくともいずれか一方は、束状にされて円周に沿って壁状に配列された複数の線状部材について、当該線状部材の外周側の端部を溶接することにより前記複数の線状部材を相互に結合してリング状に形成し、前記外周側から内周側にシール部及び前記自由端部を形成したブラシシールであることを特徴とする請求項1に記載のブラシシール装置。
- 前記内周ブラシシール又は前記外周ブラシシールの少なくともいずれか一方は、前記取付部と、前記取付部から内周側に伸びて周方向に対して傾斜した前記剛毛としての細梁を有する前記ブラシ部と、前記自由端部とを有する板ブラシシール単板を、複数、軸方向に積層して一体的に形成したことを特徴とする請求項1に記載のブラシシール装置。
- 前記内周ブラシシールの前記ブラシ部と前記外周ブラシシールの前記ブラシ部とは、同一の材質の剛毛からなることを特徴とする請求項1に記載のブラシシール装置。
- 前記内周ブラシシールの前記ブラシ部と前記外周ブラシシールの前記ブラシ部とは、異なる材質の剛毛からなることを特徴とする請求項1に記載のブラシシール装置。
- 前記内周ブラシシールの前記内周側ブラシ部は、前記複数の剛毛が径方向に対して傾斜して内周方向に配列されており、
前記外周ブラシシールの前記外周側ブラシ部は、前記複数の剛毛が径方向に対して傾斜して内周方向に配列されており、
前記内周ブラシシールの前記剛毛の傾斜と前記外周ブラシシールの前記剛毛の傾斜とは、前記径方向に対して反対方向であることを特徴とする請求項1に記載のブラシシール装置。 - 前記内周ブラシシール部の外周面に設置され、前記外周ブラシシールの自由端部が接触又は近接した状態に配置されるとともに、当該外周ブラシシールの自由端部の軸方向の広がりを防止するブラシ受部をさらに有することを特徴とする請求項1に記載のブラシシール装置。
- 前記外周ブラシシールは、前記回転軸の軸方向に対して傾斜した状態に形成されていることを特徴とする請求項1に記載のブラシシール装置。
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US9234592B2 (en) | 2016-01-12 |
JP6254105B2 (ja) | 2017-12-27 |
EP2878864A4 (en) | 2016-06-08 |
US20150345640A1 (en) | 2015-12-03 |
CN104583650A (zh) | 2015-04-29 |
EP2878864A1 (en) | 2015-06-03 |
CN104583650B (zh) | 2017-07-14 |
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