CN202101798U - Polytype micro load detection device - Google Patents

Abstract

The present utility model relates to a polytype micro load detection device which belongs to the ultra precision machining and mechanics performance testing field. The device comprises a fixed unit, a contact unit and a sensitive unit, wherein the fixed unit comprises a connecting plate and a connecting screw, the contact unit comprises a contact element and a nut, and the sensitive unit comprises an insulation glue layer, an elastic element, conducting resin and a PVDF piezoelectric film. When a load is acted on the contact element, the elastic element is elastically deformed under the load effect, thus the PVDF piezoelectric film glued with the elastic element is deformed. According to the piezoelectric characteristic of piezoelectric material, charges are generated on the surface of the PVDF piezoelectric film, and electric signals can be obtained through treating signals by a charge amplifier and other devices. Through the collected electric signals, the detection of polytype micro loads can be realized. Through the structure characteristic of the elastic element, the polytype micro loads can be detected. Moreover, through elastic elements with different thickness and sizes, the polytype micro loads with different magnitudes can be detected.

Description

Polytype tiny load pick-up unit

Technical field

The utility model relates to ultraprecise processing and Mechanics Performance Testing field, particularly one kind of multiple type tiny load pick-up units.Can be applicable to fields such as Ultraprecision Machining and equipment, precision optics and Aero-Space; Particularly tiny load detects and technical fields such as micro-nano-scale Mechanics Performance Testing; The utility model can be realized the detection of polytype load, has a good application prospect in fields such as surface topography detection, micro-nano mechanical tests.

Background technology

In recent years, along with the fast development of subjects such as microelectronics, biomedicine, optics, data storage, ultraprecise machinery and manufacturing thereof, people detect simultaneously the polytype tiny load and have proposed increasingly high requirement.Traditional tiny load detects normally only can detect a direction or a kind of tiny load of character, so does and has not only reduced work efficiency, but also can not the tiny load of a lot of complicacies be detected.Carry out single detection respectively and integrate again if contain polytype tiny load, can produce very big error like this, be unfavorable for reflecting that load that experimental phenomena discloses is to the test specimen exercising result one.In addition, can carry out simultaneously at the detection range of tiny load that the polytype tiny load detects is its technical barrier always, thereby has directly restricted the development in the fields such as performance test, semiconductor technology of small load, has limited the integral level of modern manufacturing industry.Therefore, be necessary to design a kind of can tiny load the detection, the device that can detect simultaneously the polytype tiny load again.

Summary of the invention

The purpose of the utility model is to provide one kind of multiple type tiny load pick-up units; Solve traditional tiny load detection and normally only can detect a direction or a kind of tiny load of character; Inefficiency, but also can not the tiny load of a lot of complicacies be detected; Single detection integration error again is big, has restricted the development in the field such as performance test, semiconductor technology of small load, has limited the problems such as integral level of modern manufacturing industry.The utlity model has the minimum load order of magnitude that can survey little, can detect characteristics such as polytype load, high sensitivity simultaneously, can under small load condition, electric charge be amplified, gather, analyze, realize the detection of small load; Simultaneously, utilize the design feature of flexible member can detect simultaneously polytype tiny load again.

The above-mentioned purpose of the utility model realizes through following technical scheme:

Polytype tiny load pick-up unit can be realized pressure, the test of moment of torsion combined load power, comprises fixed cell, osculating element and sensing unit; Described fixed cell comprises web joint 2 and joint bolt 5; Described osculating element comprises contact element 1 and nut 8; Described sensing unit comprises insulation glue-line 3, flexible member 4, conducting resinl 6 and PVDF piezoelectric membrane 7; Wherein, contact element 1 connects with flexible member 4 through nut 8, and the threaded portion of contact element 1 passes the hole of flexible member 4 central authorities and pass through nut 8 fastening to it; Flexible member 4 through screw 5 be fastened on web joint 2 above, be provided with insulation glue-lines 3 in the middle of flexible member 4 and the web joint 2; Insulation glue-line 3 has the good insulation performance performance, can prevent that the electric charge that is produced by the tiny load effect from not absorbed by web joint 2.PVDF piezoelectric membrane 7 through conducting resinl 6 stick to flexible member 4 above.Conducting resinl 6 has excellent conducting performance, and it does not have space, the electric charge that produces in the time of can realizing load deflection to be easy to gathered when adhering to.

Described PVDF piezoelectric membrane 7 adopts cascaded structure, and the polarity of the PVDF piezoelectric membrane 7 of opposite end is identical, and the polarity of the PVDF piezoelectric membrane 7 of adjacent both ends is opposite.PVDF piezoelectric membrane 7 can produce electric charge under microdeformation, the quantity of electric charge of generation receives the big or small closely related of extraneous loading power with it, utilizes this relation to realize the detection to small loading force signal through the quantity of electric charge of testing its generation.PVDF piezoelectric membrane 7 adhere to flexible member 4 above, when flexible member 4 elastic deformations, PVDF piezoelectric membrane 7 surface produces electric charges, when flexible member 4 elastic deformations are recovered, the electric charge disappearance that PVDF piezoelectric membrane 7 produces because of distortion.

Flexible member 4 is structures of " ten " tee beam, and this structure can be born polytype tiny load, load-bearing capacity is good.Can under multi-direction little load condition, produce distortion, and then cause with the PVDF piezoelectric membrane of its adhesion 7 and produce distortion.Flexible member 4 is between contact element 1 and nut 8, and in contact element 1, flexible member 4 is out of shape along with the adding of load as loading, and after load was cancelled, flexible member 4 recovered original forms.

The polytype tiny load pick-up unit of the utility model connects with other locating devices through web joint 2; When loading during in contact element 1, make flexible member 4 that elastic deformations take place, cause that deformation take place the PVDF piezoelectric membrane 6 that is sticked together with it; Characteristic according to piezoelectric; The surface of PVDF piezoelectric membrane 7 produces electric charge, to Signal Processing, obtains the electric signal that can gather through devices such as charge amplifiers.Electric signal analysis through to gathering can realize the detection of polytype tiny load.

The good effect of the utility model is: when loading during in flexible member; Flexible member will produce elastic deformation, cause with the PVDF piezoelectric membrane of its adhesion to produce deformation, and produce electric charge on its surface; Through a series of processing collected electric signal such as charge amplifiers; Analyze the electric signal of relatively gathering, the character and the size of the load that can obtain at last being detected realize the detection of polytype tiny load.Because the design feature of flexible member can detect polytype load simultaneously; Again because the material property of PVDF piezoelectric membrane can detect small load; Thereby measure polytype tiny load.Flexible member through different-thickness, different size detects different magnitude polytype load simultaneously.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the structure cross-sectional schematic of the utility model;

Fig. 3 is the elastic element structure synoptic diagram of the utility model;

Fig. 4 is that the PVDF piezoelectric membrane circuit of the utility model connects synoptic diagram, and wherein A is an end of electrode, and B is the other end of electrode;

Fig. 5 is the use example structure synoptic diagram of the utility model;

Fig. 6 is an equivalent circuit model figure in the utility model;

Fig. 7, Fig. 8 and Fig. 9 are workpiece deformation synoptic diagram under the utility model load condition, and wherein C is the preceding workpiece of distortion, and D is distortion back workpiece.

Among the figure: 1. contact element 2. web joints 3. insulation glue-lines 4. flexible members 5. joint bolts

6. conducting resinl 7PVDF piezoelectric membrane 8. nuts

Embodiment

Further specify the detailed content and the embodiment thereof of the utility model below in conjunction with accompanying drawing.

Referring to Fig. 1 to Fig. 6, the polytype tiny load pick-up unit of the utility model can be realized pressure, the test of moment of torsion combined load power, comprises fixed cell, osculating element and sensing unit; Described fixed cell comprises web joint 2 and joint bolt 5; Described osculating element comprises contact element 1 and nut 8; Described sensing unit comprises insulation glue-line 3, flexible member 4, conducting resinl 6 and PVDF piezoelectric membrane 7; Wherein, contact element 1 connects with flexible member 4 through nut 8, and the threaded portion of contact element 1 passes the hole of flexible member 4 central authorities and pass through nut 8 fastening to it; Flexible member 4 through screw 5 be fastened on web joint 2 above, be provided with insulation glue-lines 3 in the middle of flexible member 4 and the web joint 2; Insulation glue-line 3 has the good insulation performance performance, can prevent that the electric charge that is produced by the tiny load effect from not absorbed by web joint 2.PVDF piezoelectric membrane 7 through conducting resinl 6 stick to flexible member 4 above.Conducting resinl 6 has excellent conducting performance, and it does not have space, the electric charge that produces in the time of can realizing load deflection to be easy to gathered when adhering to.

Described PVDF piezoelectric membrane 7 adopts cascaded structure, and the polarity of the PVDF piezoelectric membrane 7 of opposite end is identical, and the polarity of the PVDF piezoelectric membrane 7 of adjacent both ends is opposite.PVDF piezoelectric membrane 7 can produce electric charge under microdeformation, the quantity of electric charge of generation receives the big or small closely related of extraneous loading power with it, utilizes this relation to realize the detection to small loading force signal through the quantity of electric charge of testing its generation.PVDF piezoelectric membrane 7 adhere to flexible member 4 above, when flexible member 4 elastic deformations, PVDF piezoelectric membrane 7 surface produces electric charges, when flexible member 4 elastic deformations are recovered, the electric charge disappearance that PVDF piezoelectric membrane 7 produces because of distortion.

Flexible member 4 is structures of " ten " tee beam, and this structure can be born polytype tiny load, load-bearing capacity is good.Can under multi-direction little load condition, produce distortion, and then cause with the PVDF piezoelectric membrane of its adhesion 7 and produce distortion.Flexible member 4 is between contact element 1 and nut 8, and in contact element 1, flexible member 4 is out of shape along with the adding of load as loading, and after load was cancelled, flexible member 4 recovered original forms.

The polytype tiny load pick-up unit of the utility model connects with other locating devices through web joint 2; When loading during in contact element 1, make flexible member 4 that elastic deformations take place, cause that deformation take place the PVDF piezoelectric membrane 6 that is sticked together with it; Characteristic according to piezoelectric; The surface of PVDF piezoelectric membrane 7 produces electric charge, to Signal Processing, obtains the electric signal that can gather through devices such as charge amplifiers.Electric signal analysis through to gathering can realize the detection of polytype tiny load.

The concrete course of work of the utility model is following:

Original state: do not have loading when contact element 1, system is in free state.Contact element 1 is loaded; Because contact element 1 links together through nut 8 and flexible member 4; Flexible member 4 receives loading to produce elastic deformation like this, and PVDF piezoelectric membrane 7 surfaces that adhere to each other with flexible member 4 deform with the distortion of flexible member; PVDF piezoelectric membrane 7 receives the load textured surface to produce electric charge; Change in electrical charge is very little under the tiny load situation; Device needs through charge amplifier electric charge to be amplified, and the electric charge after the amplification is gathered through signal picker, at last the signal of gathering is transferred in the computer through the A/D conversion; Through analyzing the electric signal of gathering, realize the detection of polytype tiny load.When unloading load, there is not loading in contact element 1, flexible member 4 distortion return to original state.Flexible member 4 is an interchangeable elements, requires replaceable according to specific load and is the flexible member of different-thickness, different size, can realizes the detection to the polytype load of different magnitudes.

PVDF piezoelectric membrane 7 produces deformation when receiving loading, produce electric charge according to piezoelectric effect PVDF piezoelectric membrane 7 surfaces.The polarity that suffered load character does not produce electric charge simultaneously is also different.When contact element 1 surface received normal pressure F, PVDF piezoelectric membrane 7 upper surface pressurized lower surfaces were drawn as shown in Figure 7; When contact element 1 surface received positive pulling force power F, the PVDF piezoelectric membrane 7 upper surfaces surperficial pressurized of being left behind was as shown in Figure 8; Can be when contact element 1 surface receives action of lateral load with its equivalence for reversing moment M, its application point both sides PVDF piezoelectric membrane 7 upper and lower surfaces are not suffered simultaneously draws, presses difference when the transverse load direction, and Fig. 9 is a kind of form wherein.The mechanism of its piezoelectric effect is: the crystal symmetry with piezoelectricity is lower; When receiving external force effect generation deformation; The relative displacement of negative ions no longer overlaps the positive and negative charge center in the structure cell, cause crystal generation macroscopic polarization, and the plane of crystal surface density of charge equals the projection of polarization intensity on surface normal; And the electric dipole moment in the material bodies can change because of stressed; Piezoelectric is done the time spent for this variation of opposing so piezoelectric is stressed, and heterocharge can appear in the piezoelectric both ends of the surface.

When carrying out the detection of polytype tiny load, load F acts in piezoelectric element, on corresponding surface, will produce electric charge, that is: Q=d _IjF (1)

Q in the formula---surface charge; d _Ij---piezoelectric constant.

d _IjBe piezoelectric constant, wherein subscript i is for producing the face normal direction of polarization charge, when the Surface Vertical that produces electric charge in x axle (y axle or z axle), note is i=1 (2 or 3); Subscript j is the acting force that applies of direction for this reason, and j=1,2,3 is along x axle, y axle, the axial normal stress of z, and j=4,5,6 is perpendicular to the shearing stress in the plane of x axle, y axle, z axle.The mechanical stretching direction is decided to be the x direction, adds polarized electric field (promptly perpendicular to the film sample surface) direction and be taken as the z direction, be positioned at film, and be decided to be the y direction with all vertical direction of z with x.

By piezoelectric equations: q=d _Ijσ (2)

In the formula: q---electric charge surface density (C/m ²) σ---the acting force (N/m on the unit area ²)

The piezoelectric equations of piezoelectric element all directions under any stress is united the form of being write as the piezoelectric equations group, representes as follows:

q _xx＝d ₁₁σ _xx+d ₁₂σ _yy+d ₁₃σ _zz+d ₁₄τ _yz+d ₁₅τ _zx+d ₁₆τ _xy

q _yy＝d ₂₁σ _xx+d ₂₂σ _yy+d ₂₃σ _zz+d ₂₄τ _yz+d ₂₅τ _zx+d ₂₆τ _xy (3)

q _zz＝d ₃₁σ _xx+d ₃₂σ _yy+d ₃₃σ _zz+d ₃₄τ _yz+d ₃₅τ _zx+d ₃₆τ _xy

In the formula: q _Xx, q _Yy, q _Zz---the electric density that on surface, produces perpendicular to x axle, y axle and z axle;

σ _Xx, σ _Yy, σ _Zz---along the tension or the compressive stress of x axle, y axle and the effect of z direction of principal axis;

τ _Yz, τ _Zx, τ _Xy---the shearing stress that in y z-plane, z x plane, x y plane, acts on.

Equation is represented with matrix form:

$\left[\begin{array}{c}{q}_{\mathrm{xx}}\\ q_{\mathrm{yy}}\\ q_{\mathrm{zz}}\end{array}\right]=\left[\begin{array}{cccccc}{d}_{11}& d_{12}& d_{13}& d_{14}& d_{15}& d_{16}\\ d_{21}& d_{22}& d_{23}& d_{24}& d_{25}& d_{26}\\ d_{31}& d_{32}& d_{33}& d_{34}& d_{35}& d_{36}\end{array}\right]\left[\begin{array}{c}{\mathrm{\σ}}_{\mathrm{xx}}\\ {\mathrm{\σ}}_{\mathrm{yy}}\\ {\mathrm{\σ}}_{\mathrm{zz}}\\ {\mathrm{\τ}}_{\mathrm{yz}}\\ {\mathrm{\τ}}_{\mathrm{zx}}\\ {\mathrm{\τ}}_{\mathrm{xy}}\end{array}\right]---\left(4\right)$

The piezoelectric constant matrix is:

$D=\left[\begin{array}{cccccc}{d}_{11}& d_{12}& d_{13}& d_{14}& d_{15}& d_{16}\\ d_{21}& d_{22}& d_{23}& d_{24}& d_{25}& d_{26}\\ d_{31}& d_{32}& d_{33}& d_{34}& d_{35}& d_{36}\end{array}\right]---\left(5\right)$

For different piezoelectrics, each item has specific value in the piezoelectric modulus matrix.The PVDF film improves its mechanical property and piezoelectric property with unilateral stretching or two-way stretch usually, polarization again after unilateral stretching, and its piezoelectric constant matrix is:

$D=\left[\begin{array}{cccccc}0& 0& 0& 0& d_{15}& 0\\ 0& 0& 0& d_{24}& 0& 0\\ d_{31}& d_{32}& d_{33}& 0& 0& 0\end{array}\right]---\left(6\right)$

The length that each piece adheres to the PVDF piezoelectric membrane of flexible member is respectively l, w, h; Surface area is A.In the piezoelectric constant matrix, d ₁₅=d ₂₄, its absolute value compares d ₃₁, d ₃₂Little nearly two one magnitude are ignored it when practical application, i.e. d ₁₅=d ₂₄≈ 0, do not consider the effect of shearing stress; Because the PVDF piezoelectric membrane is extremely thin, so with the piezoelectric effect d of PVDF piezoelectric membrane 3 directions (perpendicular to film surface) ₃₂Ignore; Again because stick to the little and piezoelectric constant d of width of the PVDF piezoelectric membrane of flexible member ₃₂Self is also very little.Same d ₃₂Ignore, only consider along the piezoelectric effect of x axle draw direction.So obtain PVDF piezoelectric membrane surface charge computing formula:

Q＝∫d ₃₁σdA (7)

Definition has according to stress:

$\mathrm{\σ}=\frac{2}{\mathrm{wh}}{\∫}_0^{h/2}{\mathrm{\σ}}_1\mathrm{dA}---\left(8\right)$

In the formula: σ ₁---xsect normal stress, N/m ²

By Hooke's law and deformation geometry relation, can get in the elastic deformation:

$\mathrm{\σ}=\mathrm{E\ϵ}=E\frac{y}{\mathrm{\ρ}}---\left(9\right)$

In the formula: E---PVDF piezoelectric membrane elastic modulus;

ε---PVDF piezoelectric membrane strain;

The radius-of-curvature of ρ---neutral line.

The curvature formulations of beam is:

$\frac{1}{\mathrm{\ρ}}=\frac{M}{E{I}_Z}---\left(10\right)$

In the formula: M---moment of flexure Nm;

I _z---the cross section is to the moment of inertia of z axle, m ⁴

By (9), (10) can get the normal stress computing formula on the xsect:

${\mathrm{\σ}}_1=\frac{M}{I_Z}y---\left(11\right)$

The z axle is a neutral axis, has:

$I_z=\frac{w{h}^3}{12}---\left(12\right)$

With (11), (12) are brought in (8) and are obtained:

$\mathrm{\σ}=\frac{2}{\mathrm{wh}}{\∫}_0^{h/2}\frac{M}{I_Z}y\·\mathrm{w\; dy}=\frac{\mathrm{Mh}}{4I_Z}=\frac{3M}{w{h}^2}---\left(13\right)$

(7) are brought in (13), can get PVDF piezoelectric membrane surface charge computing formula and be:

$Q=\frac{3d_{31}}{\mathrm{<figure-callout\; id="2"\; label="w\; h"\; filenames="110530114320.png"\; state="\{\{state\}\}">w</figure-callout>}{h}^{}{}^2}{\&Integral;}_0^l\mathrm{M\; dA}---\left(14\right)$

Bring moment formula M (x)=F (l-x) into following formula, arrangement obtains the suffered external force of PVDF piezoelectric membrane and with the relation formula that the surface produces electric charge is:

$Q=\frac{3d_{31}}{\mathrm{<figure-callout\; id="2"\; label="w\; h"\; filenames="110530114320.png"\; state="\{\{state\}\}">w</figure-callout>}{h}^{}{}^2}{\&Integral;}_0^{l}F(l-x)\&CenterDot;\mathrm{wdx}=\frac{3d_{31}{l}^{2}F}{2h^2}---\left(15\right)$

The equivalent-circuit model of PVDF piezoelectric membrane is an electric charge equivalent electrical circuit parallelly connected with capacitive reactances.Consider that piezoelectric element is inner and in other media, have charge discharging resisting, count the equivalent resistance R of PVDF piezoelectric membrane simultaneously _aAnd capacitor C _a, the distributed capacitance C of cable _cInfluence; Since resistive very high in the PVDF piezoelectric membrane, and the signal of output point is very faint, can not directly gather and detect, and must convert charge signal into voltage signal through charge amplifier and just can do follow-up signal Processing and output.Charge amplifier is actually an operational amplifier with degree of depth negative feedback high-gain, counts the input impedance R of charge amplifier _i, C _iThe equal loss.According to the relevant knowledge of circuit, can obtain PVDF piezoelectric membrane output voltage after charge amplifier amplifies:

In the formula: C=C _a+ C _c+ C _i, K _fBe the open-loop gain of charge amplifier, C _fBe amplifier feedback capacity, U _iBe the equivalent input voltage of charge amplifier, U ₀Output voltage for charge amplifier.

With formula (15) substitution (16), as (K _F+1) C _fDuring＞＞C, and work as the COEFFICIENT K of charge amplifier _fDuring → ∞, can think irrelevant with cable length, formula (16) can be reduced to

U ₀＝-3d ₃₁l ²F/2h ²C _f

In conjunction with above-mentioned theory,, can analyze character, each zone situation such as stressed of tested load through curve and the related data that processing, collection and analysis to electric signal record.

Claims (3)

1. one kind of multiple type tiny load pick-up units is characterized in that: comprise fixed cell, osculating element and sensing unit; Described fixed cell comprises web joint (2) and joint bolt (5); Described osculating element comprises contact element (1) and nut (8); Described sensing unit comprises insulation glue-line (3), flexible member (4), conducting resinl (6) and PVDF piezoelectric membrane (7); Wherein, contact element (1) connects with flexible member (4) through nut (8), and the threaded portion of contact element (1) passes the hole of flexible member (4) central authorities and pass through nut (8) fastening to it; Flexible member (4) through screw (5) be fastened on web joint (2) above, be provided with insulation glue-line (3) in the middle of flexible member (4) and the web joint (2); PVDF piezoelectric membrane (7) through conducting resinl (6) stick to flexible member (4) above.

2. polytype tiny load pick-up unit according to claim 1; It is characterized in that: described PVDF piezoelectric membrane (7) adopts cascaded structure; The polarity of the PVDF piezoelectric membrane (7) of opposite end is identical, and the polarity of the PVDF piezoelectric membrane (7) of adjacent both ends is opposite.

3. polytype tiny load pick-up unit according to claim 1 is characterized in that: described flexible member (4) is the structure of " ten " tee beam.

Images