CN1820933A - Super plasticity extruding and forming device for micro parts - Google Patents
Super plasticity extruding and forming device for micro parts Download PDFInfo
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- CN1820933A CN1820933A CN 200510022725 CN200510022725A CN1820933A CN 1820933 A CN1820933 A CN 1820933A CN 200510022725 CN200510022725 CN 200510022725 CN 200510022725 A CN200510022725 A CN 200510022725A CN 1820933 A CN1820933 A CN 1820933A
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Abstract
The super plasticity extruding formation apparatus for miniature parts includes a reduction mechanism, a guide mechanism, a forming mechanism, a piezoelectric ceramic driver, an AC servo motor, a sensor assembly and a computer. Worm gear and differential nut are used to produce force driving the mold, so that the extruding formation apparatus has increased stroke and free feeding in millimeter level. The piezoelectric ceramic driver is used in trimming the extruding stroke just before finishing the extrusion, so as to reach the aim of precise extrusion in micron level.
Description
Technical field
The present invention relates to a kind of superplasticity extrusion molding apparatus, particularly super plasticity extruding and forming device for micro parts.
Background technology
With reference to Fig. 3, Fig. 4, document 1 " " Superplastic backward micro extrusion of micro-parts for micro-electro-mechanical systems " yasunori Saotome Hiroyuki iwazaki Journal of materialprocessing technology 119 2001 307-311 " has been introduced a kind of micron order part forming device, on platform 31, be fixed with vacuum (-tight) housing 36, all moulding and adjusting facility all are in the vacuum (-tight) housing 36, are vacuum environment or filling with inert gas in the vacuum (-tight) housing 36.Accurate knob 61 passes fixed mount 62 and is connected with movable dull and stereotyped 63, pressure sensor 41 places on the platform 31, the one end contacts with movable dull and stereotyped 63, the other end contacts with piezoelectric ceramic actuator 51, piezoelectric ceramic actuator 51 other ends are connected on the push rod 39, and push rod 39 connects mould 38, and blank 37 places mould 38 left sides and is put in the extruding bucket 34, extruding bucket 34 is connected with fixed mount 62, mould 38 be resistance heater 33 on every side.This device utilizes accurate knob 61 and piezoelectric ceramic actuator 51 alternating actions to finish forming process.After accurate knob 61 feedings, by pressure sensor detect reach the setting value of power after, piezoelectric ceramic actuator 51 work, by the moving mold of trying hard to recommend that produces under the piezo-electric effect, forming process is finished in two process alternating movements.This device is influenced by its shaping principle and causes crush stroke little, and mold stroke is about 1mm, only can be under material superplasticity state shaping micron order part.
Document 2 " application number is 03132554.8 Chinese patent " has been introduced the precision plastic forming system of people such as Guo Bin invention, accurate knob described in the document 1 61 usefulness stepper motors are substituted, pressure sensor 41 1 ends link to each other with the stepper motor output shaft by nut 64, the other end contacts with piezoelectric ceramic actuator 51, piezoelectric ceramic actuator 51 contacts with upper punch 65 by Ceramic Balls, upper punch 65 connects mould 38, blank 37 places mould 38 the insides, mould 38 places in the extruding bucket 34, extruding bucket 34 is connected in the casing, is resistance heater 33 around the mould 38.The shaping principle of this device is the same with document 1, and the extruding force that is produced is little, and the formation of parts size is in 1mm.
Summary of the invention
In order to overcome the little deficiency of prior art extrusion molding apparatus stroke, the invention provides a kind of super plasticity extruding and forming device for micro parts.
The technical solution adopted for the present invention to solve the technical problems is: a kind of super plasticity extruding and forming device for micro parts, comprise platform 31, resistance heater 33, extruding bucket 34, vacuum (-tight) housing 36, mould 38, push rod 39, pressure sensor 41, thermocouple 42 and piezoelectric ceramic actuator 51, it is characterized in that: also comprise support 32, top cover 35, displacement transducer 43, reducing gear 1, guiding mechanism 2, AC servo motor and computer, platform 31 is connected in the upper surface of guiding mechanism 2, support 32 is connected on the platform 31, extruding bucket 34 is connected on the support 32, pushing bucket 34 peripheries around resistance heater 33, mould 38 is placed on the push rod 39, top cover 35 is pushed down blank 37 and is connected on the extruding bucket 34, pressure sensor 41 places between the differential nut 22 and push rod 39 of guiding mechanism 2, piezoelectric ceramic actuator 51 is placed in the cylindrical cavity of differential nut 22 upper ends, compression electrical contact 52 on the piezoelectric ceramic actuator 51 and differential nut 22 upper surface are in same plane, differential nut 22 cavity of resorption links to each other with the screw rod 15 of reducing gear 1 by screw thread, displacement transducer 43 lower ends are fixed on guide rail 21 outsides of guiding mechanism 2, its upper end is connected with the base rigidity of push rod 39, the worm screw 18 of the clutch end of AC servo motor and reducing gear 1 is connected, computer receives pressure sensor 41 by interface circuit, the signal of telecommunication of thermocouple 42 and displacement transducer 43, and output is used for controlling resistance silk heater 33, the signal of telecommunication of piezoelectric ceramic actuator 51 and AC servo motor.
Described reducing gear 1 comprises lower ball cover 11, lower bearing 12, worm gear and nut 13, upper bearing (metal) 14, screw rod 15, upper ball cover 16, reduction box casing 17 and worm screw 18, worm gear and nut 13 is connected with reduction box casing 17 with lower bearing 12 by upper bearing (metal) 14, screw rod 15 is connected with worm gear and nut 13 spirals, the inner ring of lower bearing 12 and upper bearing (metal) 14 and worm gear and nut 13 interference fit, the outer ring of lower bearing 12 and upper bearing (metal) 14 and reduction box casing 17 interference fit.
Described guiding mechanism 2 comprises guide rail 21 and differential nut 22, and guide rail 21 is connected on the reduction box casing 17 of reducing gear 1, and differential nut 22 relies on equally distributed four boss to move up and down in the stroke of guide rail 21.
Described support 32 its centers are a through hole, and the first half and push rod 39 first halves grade greatly, and the latter half and push rod 39 Lower Halves are graded greatly.
Described push rod 39 is three important actor shapes, and is up-small and down-big, and upper semisection is a hollow shape.
The invention has the beneficial effects as follows: owing to adopt worm and gear and the generation of the differential nut in the differential gear in the reducing gear to try hard to recommend the moving mold feeding, make crush stroke of the present invention increase, free feeding in millimeter level scope, displacement transducer detects the displacement signal of crush stroke.Extruding force relies on mechanical part to provide, and adopts piezoelectric ceramic device that crush stroke is finely tuned in the previous moment of finishing extrusion process, reaches the purpose of accurate control extruding precision, has realized the accurate control in the micron order scope.
Owing to adopt AC servo motor and reducing gear, make that whole forming process extrusion speed is even, be easy to the accurate control of realization speed and displacement, improved the quality of drip molding.
The present invention is further described below in conjunction with drawings and Examples.
Description of drawings
Fig. 1 is a super plasticity extruding and forming device for micro parts structural representation of the present invention
Fig. 2 is a builder enlarged drawing among Fig. 1
Fig. 3 is document 1 a building mortion structural representation
Fig. 4 is document 2 building mortion structural representations
Among the figure, the movable dull and stereotyped 64-nut 65-upper punch of the 11-lower ball cover 12-lower bearing 13-worm gear and nut 14-upper bearing (metal) 15-screw rod 16-upper ball cover 17-reduction box casing 18-worm screw 21-guide rail 22-differential nut 31-platform 32-support 33-resistance heater 34-extruding bucket 35-top cover 36-vacuum (-tight) housing 37-blank 38-mould 39-push rod 41-pressure sensor 42-thermocouple 43-displacement transducer 51-piezoelectric ceramic actuator 52-accurate knob 62-fixed mount 63-of compression electrical contact 61-
The specific embodiment
With reference to Fig. 1~3, the present invention is made of reducing gear, guiding mechanism, builder and sensor cluster.Reducing gear comprises lower ball cover 11, lower bearing 12, worm gear and nut 13, upper bearing (metal) 14, screw rod 15, upper ball cover 16, reduction box casing 17 and worm screw 18.Worm gear and nut 13 is connected with reduction box casing 17 by metal (upper, screw rod 15 is connected with worm gear and nut 13 spirals, the inner ring of lower bearing 12 and upper bearing (metal) 14 and worm gear and nut 13 interference fit, the outer ring of lower bearing 12 and upper bearing (metal) 14 and reduction box casing 17 interference fit.
Guiding mechanism comprises guide rail 21 and differential nut 22.Guide rail 21 is connected on the reduction box casing 17, differential nut 22 outer rings are four boss of distribution evenly, the upper end cylindrical cavity is used for placing piezoelectric actuator 51, cavity of resorption links to each other with screw rod 15 by screw thread, compression electrical contact 52 on the piezoelectric ceramic actuator 51 and differential nut 22 upper surface are in same plane, and pressure sensor 41 places between differential nut 22 and the push rod 39.Displacement transducer 43 lower ends are fixed on guide rail 21 outsides, and its upper end is connected with the base rigidity of push rod 39.
Piezoelectric ceramic actuator 51 is little running parts of this device, and this part is placed in differential nut 22 the epicoele.When extruding proceeds to the micron order displacement, the control AC servo motor, screw rod 15 feed-disablings, displacement transducer 43 detects displacement signal, by computer FEEDBACK CONTROL piezoelectric ceramic actuator 51, this moment, piezoelectric ceramics 5 began action, made the extruding dimensional accuracy be controlled at micron order, finished little feeding of extrusion process.
Builder comprises platform 31, support 32, resistance heater 33, extruding bucket 34, top cover 35, vacuum (-tight) housing 36, mould 38 and push rod 39.Support 32 its centers are a through hole, and the first half and push rod 39 first halves grade greatly, and the latter half and push rod 39 Lower Halves are graded greatly.Push rod 39 is three important actor shapes, and is up-small and down-big, upper semisection hollow.Platform 31 is connected in the upper surface of guide rail 2; Vacuum (-tight) housing 36 is formed vacuum working environment with platform 31, support 32 is connected on the platform 31, extruding bucket 34 is connected on the support 32, resistance heater 33 is looped around extruding bucket 34 peripheries, push rod 39 passes the hole on platform 31 and the support 32, mould 38 is placed on the push rod 39, and blank 37 is placed on the mould 38, and top cover 35 is pushed down blank 37 and is connected on the extruding bucket 34.
Whole device is connected on the workbench by casing 17, and the hole that screw rod 15 passes on the workbench is stretched under the table surface.
The worm screw 18 of the clutch end of AC servo motor and reducing gear 1 is connected, computer receives the signal of telecommunication of pressure sensor 41, thermocouple 42 and displacement transducer 43 by interface circuit, and output is used for the signal of telecommunication of controlling resistance silk heater 33, piezoelectric ceramic actuator 51 and AC servo motor.
Extrusion molding begins, and starts vacuum equipment earlier, makes that the vacuum in the vacuum (-tight) housing 36 reaches 0.6~20Pa.Opening resistor silk heater, make mould 38, extruding bucket 34 and blank 37 all reach the temperature that blank is in superplastic state, stablized 10 minutes, open AC servo motor, AC servo motor drives reducing gear, and the differential nut 22 of reducing gear promotes the push rod 39 of builder, and push rod 39 promotes mould 38, mould 38 extrusion billets 37, blank 37 is extrusion molding from mould 38 oppositely.
This device utilizes worm and gear and the generation of the differential nut in the differential gear in the reducing gear to try hard to recommend the moving mold feeding in forming process, and displacement transducer detects the displacement signal of crush stroke.Extruding force relies on mechanical part to provide, and adopts piezoelectric ceramic device that crush stroke is finely tuned in the previous moment of finishing extrusion process, reaches the purpose of accurate control extruding precision.
For improving the quality of drip molding, extrusion speed requires at the uniform velocity, therefore adopts the design of AC servo motor and reducing gear, is easy to the accurate control of realization speed and displacement, thereby has guaranteed the quality of formation of parts.
Claims (5)
1, a kind of super plasticity extruding and forming device for micro parts, comprise platform (31), resistance heater (33), extruding bucket (34), vacuum (-tight) housing (36), mould (38), push rod (39), pressure sensor (41), thermocouple (42) and piezoelectric ceramic actuator (51), it is characterized in that: also comprise support (32), top cover (35), displacement transducer (43), reducing gear (1), guiding mechanism (2), AC servo motor and computer, platform (31) is connected in the upper surface of guiding mechanism (2), support (32) is connected on the platform (31), extruding bucket (34) is connected on the support (32), peripheral at extruding bucket (34) around resistance heater (33), mould (38) is placed on the push rod (39), top cover (35) is pushed down blank (37) and is connected on the extruding bucket (34), pressure sensor (41) places between the differential nut (22) and push rod (39) of guiding mechanism (2), piezoelectric ceramic actuator (51) is placed in the cylindrical cavity of differential nut (22) upper end, compression electrical contact (52) on the piezoelectric ceramic actuator (51) and differential nut's (22) upper surface are in same plane, differential nut's (22) cavity of resorption links to each other with the screw rod (15) of reducing gear (1) by screw thread, displacement transducer (43) lower end is fixed on guide rail (21) outside of guiding mechanism (2), its upper end is connected with the base rigidity of push rod (39), the worm screw (18) of the clutch end of AC servo motor and reducing gear (1) is connected, computer receives pressure sensor (41) by interface circuit, the signal of telecommunication of thermocouple (42) and displacement transducer (43), and output is used for controlling resistance silk heater (33), the signal of telecommunication of piezoelectric ceramic actuator (51) and AC servo motor.
2, super plasticity extruding and forming device for micro parts according to claim 1, it is characterized in that: described reducing gear (1) comprises lower ball cover (11), lower bearing (12), worm gear and nut (13), upper bearing (metal) (14), screw rod (15), upper ball cover (16), reduction box casing (17) and worm screw (18), worm gear and nut (13) is connected with reduction box casing (17) with lower bearing (12) by upper bearing (metal) (14), screw rod (15) is connected with worm gear and nut (13) spiral, the inner ring of lower bearing (12) and upper bearing (metal) (14) and worm gear and nut (13) interference fit, the outer ring of lower bearing (12) and upper bearing (metal) (14) and reduction box casing (17) interference fit.
3, super plasticity extruding and forming device for micro parts according to claim 1, it is characterized in that: described guiding mechanism (2) comprises guide rail (21) and differential nut (22), guide rail (21) is connected on the reduction box casing (17) of reducing gear (1), and differential nut (22) relies on equally distributed four boss to move up and down in the stroke of guide rail (21).
4, super plasticity extruding and forming device for micro parts according to claim 1 is characterized in that: its center of described support (32) is a through hole, and the first half and push rod (39) first half grades greatly, and the latter half and push rod (39) Lower Half is graded greatly.
5, super plasticity extruding and forming device for micro parts according to claim 1 is characterized in that: described push rod (39) is three important actor shapes, and is up-small and down-big, and upper semisection is a hollow shape.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005100227251A CN100358709C (en) | 2005-12-26 | 2005-12-26 | Super plasticity extruding and forming device for micro parts |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005100227251A CN100358709C (en) | 2005-12-26 | 2005-12-26 | Super plasticity extruding and forming device for micro parts |
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| CN1820933A true CN1820933A (en) | 2006-08-23 |
| CN100358709C CN100358709C (en) | 2008-01-02 |
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| CNB2005100227251A Expired - Fee Related CN100358709C (en) | 2005-12-26 | 2005-12-26 | Super plasticity extruding and forming device for micro parts |
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Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101637785B (en) * | 2009-07-21 | 2011-01-05 | 西北工业大学 | Superplastic micro-forming device and method for forming micro parts thereof |
| CN102284537A (en) * | 2011-08-11 | 2011-12-21 | 西北工业大学 | Device for plastically forming microelement and method for forming microelement by utilizing the same |
| CN102344116A (en) * | 2010-07-30 | 2012-02-08 | 中国科学院金属研究所 | Multifunctional micro-plastic forming system |
| CN103722061A (en) * | 2013-12-19 | 2014-04-16 | 江苏大学 | Self-adaptive micro-bending forming device and method |
| CN112046069A (en) * | 2020-08-25 | 2020-12-08 | 东北电力大学 | Modal-drive-based spider-web type hot press platform balancing device and balancing method thereof |
| CN114670486A (en) * | 2022-05-09 | 2022-06-28 | 光子集成(温州)创新研究院 | Tablet press for preparing detection sample |
Family Cites Families (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE4015196C2 (en) * | 1989-05-12 | 1995-02-23 | Fuji Electric Co Ltd | Press with piezoelectric actuators and control thereof |
| US5205147A (en) * | 1989-05-12 | 1993-04-27 | Fuji Electric Co., Ltd. | Pre-loaded actuator using piezoelectric element |
| JP2004174596A (en) * | 2002-11-29 | 2004-06-24 | Nano Control:Kk | Powder press and method of the same |
| CN1278838C (en) * | 2003-08-06 | 2006-10-11 | 哈尔滨工业大学 | Precision micro plasticity shaping system |
| CN100488751C (en) * | 2004-10-14 | 2009-05-20 | 上海交通大学 | Quick forming screw extruding jet device for thermoplastic particle material |
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2005
- 2005-12-26 CN CNB2005100227251A patent/CN100358709C/en not_active Expired - Fee Related
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101637785B (en) * | 2009-07-21 | 2011-01-05 | 西北工业大学 | Superplastic micro-forming device and method for forming micro parts thereof |
| CN102344116A (en) * | 2010-07-30 | 2012-02-08 | 中国科学院金属研究所 | Multifunctional micro-plastic forming system |
| CN102284537A (en) * | 2011-08-11 | 2011-12-21 | 西北工业大学 | Device for plastically forming microelement and method for forming microelement by utilizing the same |
| CN103722061A (en) * | 2013-12-19 | 2014-04-16 | 江苏大学 | Self-adaptive micro-bending forming device and method |
| CN103722061B (en) * | 2013-12-19 | 2015-09-02 | 江苏大学 | Self-adapting type Micro-bending device and method |
| CN112046069A (en) * | 2020-08-25 | 2020-12-08 | 东北电力大学 | Modal-drive-based spider-web type hot press platform balancing device and balancing method thereof |
| CN112046069B (en) * | 2020-08-25 | 2022-05-17 | 东北电力大学 | Modal-drive-based spider-web type hot press platform balancing device and balancing method thereof |
| CN114670486A (en) * | 2022-05-09 | 2022-06-28 | 光子集成(温州)创新研究院 | Tablet press for preparing detection sample |
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| CN100358709C (en) | 2008-01-02 |
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Assignee: Sankyo Precision (Huizhou) Co., Ltd. Assignor: Northwestern Polytechnical University Contract fulfillment period: 2008.4.10 to 2015.4.10 contract change Contract record no.: 2009440001604 Denomination of invention: Super plasticity extruding and forming device for micro parts Granted publication date: 20080102 License type: Exclusive license Record date: 20091015 |
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Free format text: EXCLUSIVE LICENSE; TIME LIMIT OF IMPLEMENTING CONTACT: 2008.4.10 TO 2015.4.10; CHANGE OF CONTRACT Name of requester: HUIZHOU CITY SANXIE PRECISION CO., LTD. Effective date: 20091015 |
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Granted publication date: 20080102 Termination date: 20101226 |