CN201373852Y - Full-flexible three-translation parallel series micromotion unit for in-situ observation of scanning electron microscope - Google Patents
Full-flexible three-translation parallel series micromotion unit for in-situ observation of scanning electron microscope Download PDFInfo
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- CN201373852Y CN201373852Y CN200820217555U CN200820217555U CN201373852Y CN 201373852 Y CN201373852 Y CN 201373852Y CN 200820217555 U CN200820217555 U CN 200820217555U CN 200820217555 U CN200820217555 U CN 200820217555U CN 201373852 Y CN201373852 Y CN 201373852Y
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Abstract
The utility model discloses a full-flexible three-translation parallel series micromotion unit for the in-situ observation of a scanning electron microscope, which comprises bases (1) and (2), a sample table (3), a micrographic pressure head bracket (4) and piezoceramic micro drivers (5a), (5b) and (5c), wherein the micrographic pressure head bracket (4) is positioned above the sample table (3); the full-flexible three-translation parallel series micromotion unit forms a parallel series mechanism through connecting a double-freedom full-flexible plane parallel mechanism and a single-freedom full-flexible mechanism in series; the double-freedom full-flexible plane parallel mechanism is in an x and y-direction micromotion translation structure; and the single-freedom full-flexible mechanism is in a z-direction micromotion translation structure. After the adoption of the structure, the pollution caused by lubricant volatilization can not be caused, the defects such as vibratory impact, frictional wear and the like can be avoided, in addition, the accumulation of various errors in the testing process is avoided, and the requirement of high precision can be met.
Description
Technical field
The utility model relates to a kind of three translation inching gears that are used for scanning electron microscope home position observation that utilize the little drive system of complete flexible hybrid mechanism combination piezoelectric ceramics, belongs to material structure and performance in-situ test field.
Background technology
In the construction material field, the research of high-performance micro-nano magnetic material and magnetic information recording materials etc. is focus always, and the technology of the fracture property after use scanning electron microscopic observation material is handled by cut, frictional behaviour etc. is one of research material conventional means.But the current scanline Electronic Speculum can only be observed the static micro-scene after material crack expansion back or the mutual friction of material phase, such as: can see the micro-scene after material crack is expanded along crystal boundary, rubbing surface after the mutual friction of material phase, and the dynamic property of material cut process is changed, (phase transition process of some materials is very fast such as the phase transformation of material, easily oxidized), the dynamic processes such as expansion of crackle in mutually, but can't observe, the vacuum sample chamber that the underlying cause is a scanning electron microscope material stored sample is too little, generally have only Φ 25mm---about Φ 50mm, common cut system can't be placed wherein, after having only cut processing outside, static state is placed in the scanning electron microscope again, and the multidate information that produces in a lot of cut processes produces and runs off.For some high performance magnetic materials, such as: micro-nano magnetic material, magnetic information recording materials etc., the dynamic phase trasnsition process that produces during cut be record its to one of critical nature of power and electric signal reaction, only home position observation in the cut process.Therefore, the fine motion mechanical system that can realize the material home position observation that scanning electron microscope vacuum sample chamber is used in the research engineering material field has crucial Research Significance and future in engineering applications.The fine motion mechanical system of material home position observation is a kind of typical high precision micromotion mechanism, in Electron Microscopy Room, to realize the micro-pressure head of adamas on the material sample surface at least the trace of both direction or a plurality of directions move, meanwhile the micro-dynamic property by high power ocular observed and recorded material changes, thereby the fine motion mechanical system of material home position observation is a kind of micromotion mechanism of multifreedom motion output.Because the sample chamber of scanning electron microscope material stored sample is a vacuum, this multiple degrees of freedom fine motion mechanical system is handled if utilize the traditional mechanical platform to carry out microminiaturization, because traditional mechanical is made up of a large amount of parts, need to lubricate between the part of motion mutually, common lubricant easily produces in the vacuum environment volatilization and pollutes, and this is unallowed; Obtain the high-accuracy motion of this kind fine motion mechanical system, power output even utilize the traditional mechanical platform to carry out microminiaturization, because the inherent shortcoming of traditional mechanical self (such as: traditional mechanical is the installation combination of multiple a large amount of parts, inevitably produce the accumulation of various errors, the magnitude of its error has exceeded the precision magnitude of high-accuracy fine motion, even range of movement.), can not satisfy so high-accuracy requirement.
Summary of the invention
The purpose of this utility model provides a kind of full flexible three-translational series-parallel connection fine motion device of scanning electron microscope home position observation, can solve the technological deficiency that lubricant produces pollution and can not satisfy high-accuracy requirement in the prior art.
Technical problem to be solved in the utility model is achieved by the following technical solution: it comprises base, sample stage, micro-pressure head support and piezoelectric ceramics microdrive, micro-pressure head support is positioned at the sample stage top, described full flexible three-translational series-parallel connection fine motion device is formed hybrid mechanism by binary full flexible flat parallel institution with the full compliant mechanism series connection of single-degree-of-freedom, binary full flexible flat parallel institution be x, y to the fine motion translation structure, the full compliant mechanism of single-degree-of-freedom is that z is to the fine motion translation structure.
X described in the utility model, y are made up of to base, sample stage, piezoelectric ceramics microdrive and rods x, y to the fine motion translation structure, four rods connect sample stage and x, y to base, are provided with two piezoelectric ceramics microdrives from y to fine motion that can distinguish x, in sample stage and x, y between base; Described z is made up of to base, moving platform, piezoelectric ceramics microdrive and flexible side chain with flexible hinge z to the fine motion translation structure, four flexible side chains with flexible hinge connect moving platform and z to base, moving platform and z between base, be provided with one can z to the piezoelectric ceramics microdrive of fine motion; X, y are rigidly connected to the moving platform of fine motion translation structure to base and z to x, the y of fine motion translation structure.
The utility model adopts compliant mechanism (tool) to add serial parallel mechanism and solves high-accuracy three translation motion requirements.Compliant mechanism is a kind of all or part of motion of exporting by the elastic deformation (flexibility) of member or compliant motion pair or the mechanism of power.In the compliant mechanism owing to there is not a rigid motion pair, flexibility (elastic deformation) by member self realizes motion, thereby can need not to lubricate, can not introduce the pollution that the lubricant volatilization produces, satisfy the harsh requirement of the fine motion mechanical system sample chamber of material home position observation, also can avoid defectives such as vibratory impulse, rubbing wear; In addition, this inching gear has been avoided the accumulation of the various errors of test process owing to abandoned the installation array mode of the multiple a large amount of parts of traditional mechanical, can satisfy high-accuracy requirement.
Description of drawings
Below in conjunction with accompanying drawing the utility model is further described:
Figure 1 shows that front view of the present utility model
Figure 2 shows that vertical view of the present utility model
Figure 3 shows that left view of the present utility model
Figure 4 shows that x in the utility model, y front view to the fine motion translation structure
Figure 5 shows that x in the utility model, y vertical view to the fine motion translation structure
Figure 6 shows that z is to the front view of fine motion translation structure in the utility model
Figure 7 shows that z is to the vertical view of fine motion translation structure in the utility model
Embodiment
As shown in the figure, the utility model comprises base 1,2, sample stage 3, micro-pressure head support 4 and piezoelectric ceramics microdrive 5a, 5b, 5c, micro-pressure head support 4 is positioned at sample stage 3 tops, can fasteningly be installed on the base 1, as figure screw 7 micro-pressure head support 4 is installed on the base 1, micro-pressure head can adopt the micro-pressure head of adamas.Described full flexible three-translational series-parallel connection fine motion device is formed hybrid mechanism by binary full flexible flat parallel institution with the full compliant mechanism series connection of single-degree-of-freedom, binary full flexible flat parallel institution be x, y to the fine motion translation structure, the full compliant mechanism of single-degree-of-freedom is that z is to the fine motion translation structure.Described x, y are made up of to base 2, sample stage 3, piezoelectric ceramics microdrive 5a, 5b and rods 8 x, y to the fine motion translation structure, four rods 8 connect sample stage 3 and x, y to base 2, are provided with two piezoelectric ceramics microdrive 5a, 5b that can distinguish x, y to fine motion in sample stage 3 and x, y between base 2; Described z is made up of to base 1, moving platform 9, piezoelectric ceramics microdrive 5c and flexible side chain 10 with flexible hinge z to the fine motion translation structure, four flexible side chains with flexible hinge 10 connect moving platforms 9 and z to base 1, moving platform 9 and z between base 1, be provided with one can z to the piezoelectric ceramics microdrive 5c of fine motion; X, y are rigidly connected to the moving platform 9 of fine motion translation structure with z to base 2 to x, the y of fine motion translation structure, can adopt the mode that is rigidly connected as figure screw 6.
Fig. 4, Figure 5 shows that x, y are to the fine motion translation structure.The plane motion of its sample stage 3 realizes by the elastic deformation of four rods 8 under the driving of two piezoelectric ceramic actuator 5a, 5b.Each self-driven sample stage 3 of two piezoelectric ceramic actuator 5a, 5b realizes that x move to fine motion to, y.
Fig. 6, Fig. 7 are that z is to the fine motion translation structure.Its moving platform 9 realizes that by the micromotion of the flexible hinge at four flexible side chain 10 two ends z is to fine motion.X, y are rigidly connected to the moving platform 9 of fine motion translation structure with z to base 2 to x, the y of fine motion translation structure, thereby can make sample stage 3 realize that also z is to fine motion.
In the utility model,, all should be considered to fall into protection domain of the present utility model to rods and variation with flexible side chain number of flexible hinge.
Claims (2)
1, a kind of full flexible three-translational series-parallel connection fine motion device of scanning electron microscope home position observation, comprise base, sample stage, micro-pressure head support and the little drive unit of piezoelectric ceramics, micro-pressure head support is positioned at the sample stage top, it is characterized in that described full flexible three-translational series-parallel connection fine motion device forms hybrid mechanism by binary full flexible flat parallel institution with the full compliant mechanism series connection of single-degree-of-freedom, binary full flexible flat parallel institution be x, y to the fine motion translation structure, the full compliant mechanism of single-degree-of-freedom is that z is to the fine motion translation structure.
2, the full flexible three-translational series-parallel connection fine motion device of a kind of scanning electron microscope home position observation according to claim 1, it is characterized in that described x, y are made up of to base, sample stage, piezoelectric ceramics microdrive and rods x, y to the fine motion translation structure, four rods connect sample stage and x, y to base, are provided with two piezoelectric ceramics microdrives from y to fine motion that can distinguish x, in sample stage and x, y between base; Described z is made up of to base, moving platform, piezoelectric ceramics microdrive and flexible side chain with flexible hinge z to the fine motion translation structure, four flexible side chains with flexible hinge connect moving platform and z to base, moving platform and z between base, be provided with one can z to the piezoelectric ceramics microdrive of fine motion; X, y are rigidly connected to the moving platform of fine motion translation structure to base and z to x, the y of fine motion translation structure.
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CN200820217555U CN201373852Y (en) | 2008-12-02 | 2008-12-02 | Full-flexible three-translation parallel series micromotion unit for in-situ observation of scanning electron microscope |
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CN200820217555U CN201373852Y (en) | 2008-12-02 | 2008-12-02 | Full-flexible three-translation parallel series micromotion unit for in-situ observation of scanning electron microscope |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103632912A (en) * | 2012-08-21 | 2014-03-12 | B-纳诺有限公司 | Electron microscopy imaging system and method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103632912A (en) * | 2012-08-21 | 2014-03-12 | B-纳诺有限公司 | Electron microscopy imaging system and method |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20091230 Termination date: 20111202 |