CN201720753U - Integral double-drive shaft-compounded automatic finishing and processing device of vane disk - Google Patents
Integral double-drive shaft-compounded automatic finishing and processing device of vane disk Download PDFInfo
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- CN201720753U CN201720753U CN2009202884622U CN200920288462U CN201720753U CN 201720753 U CN201720753 U CN 201720753U CN 2009202884622 U CN2009202884622 U CN 2009202884622U CN 200920288462 U CN200920288462 U CN 200920288462U CN 201720753 U CN201720753 U CN 201720753U
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Abstract
The utility model relates to an integral double-drive shaft-compounded automatic finishing and processing device of a vane disk, which contains a main shaft, a bracket of equipment and the following constituent structures: a lifting system (1) of the main shaft, a main transmission case (2), a planetary transmission case (3), a material case (4), an electric control system (5), a lifting guide post (6) of the material case, a lifting mechanism (7) of the material case, an outer cover (8) of the equipment and a water circulation system (9). The utility model can carry out finishing and processing on large-sized disk tooth class parts with different shapes and different materials. The utility model provides a solving mode of a brand-new process for enhancing the surface quality of large-sized parts with complicated shapes and high surface quality requirements. The utility model looks for a substitution method of mechanical processing in the part finishing and processing of mass manual polishing. The utility model has larger social value and economic value.
Description
Technical field:
The utility model relates to polishing process technology science, and a kind of device that is used for the compound automatic polishing processing of blisk double driving shafts of blisk class part is provided especially.
Background technology:
In the prior art, polishing processing method is all simple relatively, much all is manual operation.Even realized automation, its related forms of motion is also also uncomplicated, and its technique effect is also usually comparatively limited.
Therefore, people expect to obtain the automatic polishing processing unit (plant) that a kind of technique effect better is particularly suitable for blisk class part.
The utility model content:
The purpose of this utility model provides the automatic polishing processing unit (plant) that a kind of technique effect better is particularly suitable for blisk class part.
The utility model provides a kind of blisk double driving shafts compound automatic polishing processing unit (plant), it is characterized in that: the compound automatic polishing processing unit (plant) of described blisk double driving shafts includes main shaft, equipment supporter and following composition structure: main shaft jacking system 1, main transmission box 2, planet cage 3, hopper 4, electric-control system 5, hopper lifting guide pillar 6, hopper elevating mechanism 7, equipment housing 8, water circulation system 9; Wherein:
Main shaft jacking system 1 and main transmission box 2 all are arranged on the equipment supporter and the connection device main shaft; Simultaneously, planet cage 3 also is arranged on the equipment supporter; Hopper 4 is arranged on the equipment supporter, and hopper elevating mechanism 7 is connecting hopper 4 by hopper lifting guide pillar 6;
In the compound automatic polishing processing unit (plant) of blisk double driving shafts described in the utility model, hopper 4 vibration frequencies 50~60Hz; The frequency of main shaft is 30~80Hz, main shaft revolution/workpiece autobiography=1/1.2, the distance 180~360mm between rotating shaft two rotating shafts of main shaft and hopper 4.
Hopper 4 total measurement (volume)s are preferably 500~1200L.
The compound automatic polishing processing method of the blisk double driving shafts that the utility model is associated: use the special equipment that has rotary table to process; The described special equipment that has rotary table has fixing rotating shaft; The compound automatic polishing processing method of described blisk double driving shafts is specifically:
Workpiece to be machined is with respect to rotating around the axis of rotation on the rotary table, and its axis of rotation is parallel with the rotating shaft of rotary table but do not overlap; Workpiece to be machined rotating shaft around rotary working platform in autobiography revolves round the sun; Under this kind moving condition, use the plane grinding tool or/and powdery or paste abrasive material carry out the Compound Finishing operation to workpiece to be machined.
In the compound automatic polishing processing method of described blisk double driving shafts, the direction of rotation of workpiece to be machined is opposite with the direction of rotation of workbench.
In the compound automatic polishing processing method of described blisk double driving shafts, the concrete machining medium of its employed polishing processing is arranged on the polishing machining medium in the hopper 4, all submerges and the whole outer surfaces of workpiece to be machined is carried out polishing processing in the polishing medium thereby add the man-hour workpiece to be machined.
In the compound automatic polishing processing method of described blisk double driving shafts, when the burr that requires the gear part flank of tooth and gear edge, the processed position of work piece is arranged in apart from the rotary table rotating shaft more nearby, when the polishing processing that requires gear part is carried out high requirement is that its processed position is arranged in apart from the rotary table rotating shaft at a distance.
In the compound automatic polishing processing method of described blisk double driving shafts, also require in process workpiece to be machined with respect to the polishing machining medium along on the workpiece axis of rotation direction axial reciprocating action being arranged; Workpiece to be machined moves in the hopper 4 that the polishing machining medium is housed, and specific requirement is:
Main shaft frequency 30~80Hz, hopper vibration frequency 50~60Hz; Distance 180~360mm between main shaft revolution/workpiece autobiography=1/1.2, two rotating shaft;
Polishing medium: silicon corundum, pottery; Polishing machining medium specification: 2~10mm spherical abrasive material, granularity is: 80~120#; 150#; 300#.
In the compound automatic polishing processing method of described blisk double driving shafts, the workpiece maximum rotating diameter is 600~1200mm, and it is 500~1200L that Workpiece length scope≤400mm, thickness of workpiece ranges of thicknesses≤600mm, the total measurement (volume) that hopper 4 adapts with it require.
The explanation of equipment moving principle replenishes:
Motion mode adopts along the revolution of equipment centre of gyration rotation opposite with the traffic direction of the autobiography axle autobiography that is used for fixing workpiece that departs from equipment centre of gyration certain distance.This kind mode workpiece spinning speed is fast and along the centre of gyration revolution of certain speed is arranged, this motion mode with on grinding plate by very similar of the motion mode of grinding part.
Planetary biography public affairs and rotation, charging box is auxiliomotor scheme about in the of 4.Reduce inside and outside linear differential; Increase the mode variation more that moving up and down of hopper 4 makes motion.
It is as follows that the linear velocity that we moved to each point on the plane after the motion mode of test was determined is analyzed its result: workpiece (referring to accompanying drawing 3, please provide the electronic edition of corresponding figure; Temporarily I lack relational graph at hand) travel line speed be N * (R+r)+n * R at the x1 point; The x2 point is N * r; The x3 point is n * R-N * (R-r) when N>n, (wherein N and n are that the speed unit of workpiece autobiography is r/min, R and r are respectively the radius of workpiece and the distance that workpiece departs from the centre of gyration), the linear velocity that x1 is ordered is up to main polishing processing, the x2 point takes second place, be less important processing, the x3 point depends on that the diameter with workpiece should be worst, the part outer rim working (machining) efficiency height of this processing mode processing, the centre working (machining) efficiency is general, effect to the processing of disk-like accessory plane is bad, but splendid to the burr removal effect of the gear part flank of tooth and gear edge.
Part light decorations surface comprises positions such as former, runner and blade, the whole hopper of equipment is under the comprehensive function of toggle and straight line guide pillar, vertically Shang Xia fluctuating, abrasive material is promoted certain height, the sunk area that passes through former and parts that abrasive material does not stop under the effect that hopper rises and falls, and revolving at present the side enforcement polishing of sunk area and former being processed of axle.And by the grinding pressure of this motion assurance to the plane.
The compound automatic polishing processing method of blisk double driving shafts described in the utility model particularly is to adopt plane 8 font motion principles, specifically is used for the motion control of polishing process equipment.
In the utility model, require abrading block and workpiece to be embedded among the abrasive material of hopper 4, the workpiece rotating shaft is very simple, is the planetary gear auxiliary driving, and shaft extension connects three-jaw chuck or fixed disc, and part is attached thereto by connecting axle.
When polishing, workpiece is fixed on the workpiece rotating shaft by frock, insert then spherical abrasive material is housed, in the hopper of mill liquid and water, by rotatablely moving of machine tool chief axis and workpiece rotating shaft, and the pumping of hopper (drive abrasive material), make abrasive material and surface of the work produce relative motion and interaction force, to realize deburring and Surface Machining to surface of the work, the observation processed workpiece is found: workpiece centre place processing effect is relatively poor, the center on plane is comparatively desirable to the part effect between the outer rim, stock removal center of maximum position, edge of work place processing extreme difference and edge produce change shape and spot corrosion this be the excessive performance of processing, we have carried out measurement result such as Fig. 4 to the stock removal of processing.
The correlation analysis of Fig. 4: because main axis rotation, disc type work edge line speed is far longer than workpiece centre place linear velocity, cylinder rotation back drives abrasive material and impacts workpiece, workpiece centre is because the autobiography linear velocity is low, the formation abrasive material is piled up, it is low that impact kinetic energy impacts on the abrasive material of accumulation working (machining) efficiency, and mid portion has certain linear velocity processing moderate, the edge of work just is again the joint that module throws away at revolution rotation and autobiography, the processing bosom of abrasive material also herein, thereby cause herein frictional force maximum, pressure maximum, linear velocity the highest, so it is excessive to wear and tear.
Work piece fixed main shaft and equipment rotary main shaft are eccentric parastate, work piece add man-hour workpiece and main shaft be the planetary motion mode.Therefore, the move up and down processing that guarantees the workpiece recess of hopper simultaneously is thorough, and method described in the utility model can be applied to the processing of deep bid tooth class part.
When workpiece to be machined is realized workpiece rotation and revolution motion simultaneously on workbench; Simultaneously, hopper 4 vertical directions move up and down; Container vibrates under particular amplitude and frequency; Above-mentioned action meets the motion of formation double driving shafts forces abrading block workpiece to be produced certain combination of following actions: collision, friction, extruding, micro-grinding action, thus realize the polishing of blisk workpiece is processed (specifically comprising the light decorations processing automatically of deburring, chamfered edge, surface).
In the utility model, workpiece is done plane 8 subtypes motion on grinding plate, add abrasive pastes between workpiece and grinding plate, thereby reaches the effect that the workpiece roughness is improved by friction, extruding.Simultaneously, we also require workpiece to flat turn, and also can revolve round the sun when allowing its rotation, replace grinding table with abrasive material then, make it produce relative motion, reach the purpose of polishing.Planet circular system is adopted in decision when the designing apparatus structure, and main motion is to realize by the rotation of main shaft and revolution.
In addition, accompanying drawing 5~14 has illustrated the shape as the blisk of typical work piece, the situation contrast before and after the processing etc. respectively.
In the utility model, described special equipment can carry out polishing processing to the large-scale dish tooth class part of difformity, unlike material.This has walked out the road of the solution of a brand-new technology to complex-shaped, the raising demanding heavy parts surface quality of surface quality.In the part light processing of artificial polishing in enormous quantities, sought out the possible alternative of a machining.The utlity model has bigger social value and economic worth.
Description of drawings:
Fig. 1 is a blisk class part double driving shafts polishing special processing equipment structural representation sketch; The Reference numeral implication is as follows among Fig. 1: main shaft jacking system 1, main transmission box 2, planet cage 3, hopper 4, electric-control system 5, hopper lifting guide pillar 6, hopper elevating mechanism 7, equipment housing 8, water circulation system 9;
Fig. 2 is a polishing process principle schematic diagram;
Fig. 3 is a polishing working motion velocity analysis schematic diagram;
Fig. 4 is the stock removal of polishing processing and the grinding points relation apart from the central point distance;
Fig. 5 amplifies 180 times of rear surface textures before the polishing;
The blade texture (180 times) of Fig. 6 for manually polishing before the polishing;
Fig. 7 amplifies 180 times of rear surface textures behind the polishing;
Fig. 8 amplifies 180 times of rear blade textures behind the polishing.
The specific embodiment:
The compound automatic polishing processing unit (plant) of a kind of blisk double driving shafts, it includes main shaft, equipment supporter and following composition structure: main shaft jacking system 1, main transmission box 2, planet cage 3, hopper 4, electric-control system 5, hopper lifting guide pillar 6, hopper elevating mechanism 7, equipment housing 8, water circulation system 9; Wherein:
Main shaft jacking system 1 and main transmission box 2 all are arranged on the equipment supporter and the connection device main shaft; Simultaneously, planet cage 3 also is arranged on the equipment supporter; Hopper 4 is arranged on the equipment supporter, and hopper elevating mechanism 7 is connecting hopper 4 by hopper lifting guide pillar 6;
In the compound automatic polishing processing unit (plant) of described blisk double driving shafts, hopper 4 vibration frequencies 50~60Hz; The frequency of main shaft is 30~80Hz, main shaft revolution/workpiece autobiography=1/1.2, the distance 180~360mm between rotating shaft two rotating shafts of main shaft and hopper 4.
Hopper 4 total measurement (volume)s are preferably 500~1200L.
Use present embodiment to carry out the polishing processing request: 1) surface roughness Ra 0.4; 2) do not allow to occur horizontal cutter trade in the 2mm of inlet and outlet limit; 3) there are not obvious aberration in the smooth switching of blade profile and runner, surface.
Use present embodiment to carry out the compound automatic polishing method for processing of blisk double driving shafts, specific requirement is: use the special equipment that has rotary table to process; The described special equipment that has rotary table has fixing rotating shaft; The compound automatic polishing processing method of described blisk double driving shafts is specifically: workpiece to be machined is with respect to rotating around the axis of rotation on the rotary table, and its axis of rotation is parallel with the rotating shaft of rotary table but do not overlap; Workpiece to be machined rotating shaft around rotary working platform in autobiography revolves round the sun; Under this kind moving condition, use the plane grinding tool or/and powdery or paste abrasive material carry out the Compound Finishing operation to workpiece to be machined.
The compound automatic polishing processing method of described blisk double driving shafts also includes following content request:
In the compound automatic polishing processing method of described blisk double driving shafts, the direction of rotation of workpiece to be machined is opposite with the direction of rotation of workbench.
The compound automatic polishing processing method of described blisk double driving shafts, the concrete machining medium of its employed polishing processing is arranged on the polishing machining medium in the hopper 4, all submerges and the whole outer surfaces of workpiece to be machined is carried out polishing processing in the polishing medium thereby add the man-hour workpiece to be machined.
In the compound automatic polishing processing method of described blisk double driving shafts, when the burr that requires the gear part flank of tooth and gear edge, the processed position of work piece is arranged in apart from the rotary table rotating shaft more nearby, when the polishing processing that requires gear part is carried out high requirement is that its processed position is arranged in apart from the rotary table rotating shaft at a distance.
In the compound automatic polishing processing method of described blisk double driving shafts, also require in process workpiece to be machined with respect to the polishing machining medium along on the workpiece axis of rotation direction axial reciprocating action being arranged; Workpiece to be machined moves in the hopper 4 that the polishing machining medium is housed, and specific requirement is:
Main shaft frequency 30~80Hz, hopper vibration frequency 50~60Hz; Distance 180~360mm between main shaft revolution/workpiece autobiography=1/1.2, two rotating shaft;
Polishing medium: silicon corundum, pottery; Polishing machining medium specification: 2~10mm spherical abrasive material, granularity is: 80~120#; 150#; 300#.
In the compound automatic polishing processing method of described blisk double driving shafts, the workpiece maximum rotating diameter is 600~1200mm, Workpiece length scope≤400mm, and thickness of workpiece ranges of thicknesses≤600mm, hopper 4 total measurement (volume)s are 500~1200L.Description of equipment sees table 1 for details.
Table 1
Workpiece maximum rotating diameter mm | 600/1200? |
Workpiece length/ |
400/600? |
The |
1? |
Spindle motor power kW | 4/8? |
Hopper power of motor kW | 4/6? |
Hopper total measurement (volume) L | 500/1200? |
The explanation of equipment moving principle:
Motion mode adopts along the revolution of equipment centre of gyration rotation opposite with the traffic direction of the autobiography axle autobiography that is used for fixing workpiece that departs from equipment centre of gyration certain distance.This kind mode workpiece spinning speed is fast and along the centre of gyration revolution of certain speed is arranged, this motion mode with on grinding plate by very similar of the motion mode of grinding part.
Planetary public the biography and rotation, charging box is auxiliomotor scheme about in the of 4.Reduce inside and outside linear differential; Increase the mode variation more that moving up and down of hopper 4 makes motion.
It is as follows that the linear velocity that we moved to each point on the plane after the motion mode of test was determined is analyzed its result: workpiece (referring to accompanying drawing 3, please provide the electronic edition of corresponding figure; Temporarily I lack relational graph at hand) travel line speed be N * (R+r)+n * R at the x1 point; The x2 point is N * r; The x3 point is n * R-N * (R-r) when N>n, (wherein N and n are that the speed unit of workpiece autobiography is r/min, R and r are respectively the radius of workpiece and the distance that workpiece departs from the centre of gyration), the linear velocity that x1 is ordered is up to main polishing processing, the x2 point takes second place, be less important processing, the x3 point depends on that the diameter with workpiece should be worst, the part outer rim working (machining) efficiency height of this processing mode processing, the centre working (machining) efficiency is general, effect to the processing of disk-like accessory plane is bad, but splendid to the burr removal effect of the gear part flank of tooth and gear edge.
Part light decorations surface comprises positions such as former, runner and blade, the whole hopper of equipment is under the comprehensive function of toggle and straight line guide pillar, vertically Shang Xia fluctuating, abrasive material is promoted certain height, the sunk area that passes through former and parts that abrasive material does not stop under the effect that hopper rises and falls, and revolving at present the side enforcement polishing of sunk area and former being processed of axle.And by the grinding pressure of this motion assurance to the plane.
The compound automatic polishing processing method of described blisk double driving shafts particularly is to adopt plane 8 font motion principles, specifically is used for the motion control of polishing process equipment.
In the present embodiment, require abrading block and workpiece to be embedded among the abrasive material of hopper 4, the workpiece rotating shaft is very simple, is the planetary gear auxiliary driving, and shaft extension connects three-jaw chuck or fixed disc, and part is by being attached thereto with connecting axle.
When polishing, workpiece is fixed on when the polishing by frock, workpiece is fixed on the workpiece rotating shaft by frock, insert then spherical abrasive material is housed, in the hopper of mill liquid and water, by rotatablely moving of machine tool chief axis and workpiece rotating shaft, and the pumping of hopper (drive abrasive material), make abrasive material and surface of the work produce relative motion and interaction force, to realize deburring and Surface Machining to surface of the work, the observation processed workpiece is found: workpiece centre place processing effect is relatively poor, the center on plane is comparatively desirable to the part effect between the outer rim, stock removal center of maximum position, edge of work place processing extreme difference and edge produce change shape and spot corrosion this be the excessive performance of processing, we have carried out measurement result such as Fig. 4 to the stock removal of processing.
The correlation analysis of Fig. 4: because main axis rotation, disc type work edge line speed is far longer than workpiece centre place linear velocity, cylinder rotation back drives abrasive material and impacts workpiece, workpiece centre is because the autobiography linear velocity is low, the formation abrasive material is piled up, it is low that impact kinetic energy impacts on the abrasive material of accumulation working (machining) efficiency, and mid portion has certain linear velocity processing moderate, the edge of work just is again the joint that module throws away at revolution rotation and autobiography, the processing bosom of abrasive material also herein, thereby cause herein frictional force maximum, pressure maximum, linear velocity the highest, so it is excessive to wear and tear.
Work piece fixed main shaft and equipment rotary main shaft are eccentric parastate, work piece add man-hour workpiece and main shaft be the planetary motion mode.Therefore, the move up and down processing that guarantees the workpiece recess of hopper simultaneously is thorough, and the described method of present embodiment can be applied to the processing of deep bid tooth class part.
When workpiece to be machined is realized workpiece rotation and revolution motion simultaneously on workbench; Simultaneously, the workbench vertical direction moves up and down; Container vibrates under particular amplitude and frequency; Above-mentioned action meets the motion of formation double driving shafts forces abrading block workpiece to be produced certain combination of following actions: collision, friction, extruding, micro-grinding action, thus realize the polishing of blisk workpiece is processed (specifically comprising the light decorations processing automatically of deburring, chamfered edge, surface).
In the present embodiment, workpiece is done plane 8 subtypes motion on grinding plate, add abrasive pastes between workpiece and grinding plate, thereby reaches the effect that the workpiece roughness is improved by friction, extruding.Simultaneously, we also require workpiece to flat turn, and also can revolve round the sun when allowing its rotation, replace grinding table with abrasive material then, make it produce relative motion, reach the purpose of polishing.Planet circular system is adopted in decision when the designing apparatus structure, and main motion is to realize by the rotation of main shaft and revolution.
Accompanying drawing 5~14 has illustrated as the shape of the blisk of typical work piece respectively, has processed the situation contrast of front and back etc.
The described special equipment of present embodiment can carry out polishing processing to the large-scale dish tooth class part of difformity, unlike material.This has walked out the road of the solution of a brand-new technology to complex-shaped, the raising demanding heavy parts surface quality of surface quality.In the part light processing of artificial polishing in enormous quantities, sought out the possible alternative of a machining.
Embodiment 2
Present embodiment and embodiment 1 content are basic identical, and its difference is:
1) in the compound automatic polishing processing method of described blisk double driving shafts, specific requirement is:
Machine spindle frequency 60~80Hz, hopper vibration frequency 55~60Hz; Distance between main shaft revolution/workpiece autobiography=1/1.2, two rotating shaft changes between 180~360mm;
2) polishing medium: silicon corundum; Polishing machining medium specification: 2~10mm spherical abrasive material, granularity is: 80~120#; 150#; 300#;
3) in the compound automatic polishing processing method of described blisk double driving shafts, the workpiece maximum rotating diameter is 600~1000mm, Workpiece length scope≤350mm, and thickness of workpiece ranges of thicknesses≤600mm, hopper 4 total measurement (volume)s are 500~1000L.
Present embodiment and embodiment 1 content are basic identical, and its difference is:
1) in the compound automatic polishing processing method of described blisk double driving shafts, specific requirement is:
Machine spindle frequency 65~80Hz, hopper vibration frequency 50~60Hz; Distance 180~360mm between main shaft revolution/workpiece autobiography=1/1.2, two rotating shaft;
2) polishing medium: pottery; Polishing machining medium specification: 2~10mm spherical abrasive material, granularity is: 80~120#; 150#; 300#.
3) in the compound automatic polishing processing method of described blisk double driving shafts, the workpiece maximum rotating diameter is 1000~1200mm, Workpiece length scope≤400mm, and thickness of workpiece ranges of thicknesses≤600mm, hopper 4 total measurement (volume)s are 500~1200L.
Claims (3)
1. compound automatic polishing processing unit (plant) of blisk double driving shafts, it is characterized in that: the compound automatic polishing processing unit (plant) of described blisk double driving shafts includes main shaft, equipment supporter and following composition structure: main shaft jacking system (1), main transmission box (2), planet cage (3), hopper (4), electric-control system (5), hopper lifting guide pillar (6), hopper elevating mechanism (7), equipment housing (8), water circulation system (9); Wherein:
Main shaft jacking system (1) and main transmission box (2) all are arranged on the equipment supporter and the connection device main shaft; Simultaneously, planet cage (3) also is arranged on the equipment supporter; Hopper (4) is arranged on the equipment supporter, and hopper elevating mechanism (7) is connecting hopper (4) by hopper lifting guide pillar (6);
Equipment housing (8) is fixed on the equipment supporter; Water circulation system (9) is being connected following a few part respectively with electric-control system (5): main shaft jacking system (1), main transmission box (2), planet cage (3), hopper (4) hopper elevating mechanism (7).
2. according to the compound automatic polishing processing unit (plant) of the described blisk double driving shafts of claim 1, it is characterized in that: in the compound automatic polishing processing unit (plant) of described blisk double driving shafts, hopper (4) vibration frequency 50~60Hz; The frequency of main shaft is 30~80Hz, main shaft revolution/workpiece autobiography=1/1.2, the distance 180~360mm between rotating shaft two rotating shafts of main shaft and hopper (4).
3. according to claim 1 or the compound automatic polishing processing unit (plant) of 2 described blisk double driving shafts, it is characterized in that: in the compound automatic polishing processing unit (plant) of described blisk double driving shafts, hopper (4) total measurement (volume) is 500~1200L.
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CN2009202884622U CN201720753U (en) | 2009-12-28 | 2009-12-28 | Integral double-drive shaft-compounded automatic finishing and processing device of vane disk |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102211310A (en) * | 2011-05-31 | 2011-10-12 | 苏州利达铸造有限公司 | Surface treatment method of cleaning air inlet |
CN102225509A (en) * | 2011-05-04 | 2011-10-26 | 天津天海同步科技股份有限公司 | Application of surface finishing technique for processing synchronizer gear hub |
CN103317427A (en) * | 2013-05-23 | 2013-09-25 | 沈阳黎明航空发动机(集团)有限责任公司 | Protection method for blisk vibration finishing |
-
2009
- 2009-12-28 CN CN2009202884622U patent/CN201720753U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102225509A (en) * | 2011-05-04 | 2011-10-26 | 天津天海同步科技股份有限公司 | Application of surface finishing technique for processing synchronizer gear hub |
CN102211310A (en) * | 2011-05-31 | 2011-10-12 | 苏州利达铸造有限公司 | Surface treatment method of cleaning air inlet |
CN102211310B (en) * | 2011-05-31 | 2013-04-10 | 苏州利达铸造有限公司 | Surface treatment method of cleaning air inlet |
CN103317427A (en) * | 2013-05-23 | 2013-09-25 | 沈阳黎明航空发动机(集团)有限责任公司 | Protection method for blisk vibration finishing |
CN103317427B (en) * | 2013-05-23 | 2016-04-27 | 沈阳黎明航空发动机(集团)有限责任公司 | The guard method of a kind of blisk vibration finishing |
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