DE102008031772B4 - Apparatus and method for measuring viscosity and / or density of fluids - Google Patents

Abstract

Device for measuring the viscosity and / or the density of fluids, comprising - a bending oscillator with a carrier tongue (1) and one on one side of the carrier tongue (1) and connected to it layer of piezoceramic (2), - two with the Piezoceramic (2) connected electrodes (3, 4), - a holder (5) which clamps one end of the carrier tongue (1), - an impedance measuring device (6) connected to the electrodes (3, 4), and - one with the Electrodes (3, 4) connected AC power supply.

Description

The present invention relates to a device for measuring the viscosity and / or the density of fluids according to claim 1.

The directional deformation of a piezoelectric material leads to a measurable electrical voltage. Conversely, by applying an electrical voltage, a deformation of the component made of piezoceramic can be achieved. It is known to connect two piezoceramics with one another and correspondingly with electrodes and to use them as a sensor, one ceramic layer serving as the actuator layer and the other as the sensor layer. The actuator layer is excited by applying an alternating voltage, which causes the system to vibrate mechanically. The associated sensor layer serves to measure the oscillation over the strain induced by the deformation. Such a sensor can be used to determine the density of a fluid utilizing the density-dependent resonant shift. A disadvantage of this device is that the adhesive layers, which must be used in two piezoceramics, adversely affect the measurement.

Out DE 103 45 253 A1 For example, a fluid condition sensor with a vibrating body and a piezoelectric element disposed thereon has become known. To excite the oscillating body, the piezoelectric element is equipped with a base electrode and at least one operating electrode. In order to detect the vibration behavior of the vibrating body, the device is further equipped with a switch. In a first switching state, the piezoelectric element is acted upon by the operating electrode and the base electrode with an alternating voltage and thus excited to vibrate. In a second switching state, the output voltage generated in the piezoelectric element by the oscillation is tapped between the operating electrode and the base electrode and fed to a signal measuring device. Alternatively, it is proposed to equip the piezoelectric element with a plurality of operating electrodes, wherein a first operating electrode is connected to an AC voltage source and the electrical output voltage of the piezoelectric element is tapped via a second operating electrode.

Out DE 10 2006 030 657 A1 For example, a bending oscillator for a fluid sensor for measuring characteristic properties of a fluid equipped with at least two piezoelectric layers has become known. The piezoelectric layers form a bending actuator and a bending sensor.

Out DE 198 04 326 A1 a sensor is known, which is equipped with a bending tongue and a piezoelectric oscillator. By applying an alternating voltage to the piezoelectric vibrator, the bending tongue can be excited to vibrate in a measuring medium. To determine the density and viscosity of the medium to be measured, the sensor is equipped with a piezoresistive element which changes its electrical properties as a function of the excited oscillation.

Out DE 101 23 040 A1 is a sensor for measuring the viscosity of a liquid has become known, which is equipped with a piezoelectric-oscillatory oscillatory element. By applying electrical voltages to the vibrating element this is vibrated. By evaluating the vibration frequency and damping of the oscillator, conclusions can be drawn about the viscosity and the density of the fluid.

The invention has for its object to provide an apparatus and a method for measuring the viscosity and / or the density of fluids, which allows a more reliable measurement.

The object is achieved on the one hand by a device having the features of claim 1. Advantageous embodiments form the subject of the dependent claims.

The device according to the invention for measuring the viscosity and / or the density of fluids comprises a bending oscillator with a carrier tongue and a layer of piezoceramics arranged on one side of the carrier tongue and connected thereto, two electrodes connected to the piezoceramic, a holder having one end the carrier tongue clamps and an impedance measuring device connected to the electrodes as well as an AC voltage supply connected to the electrodes.

By applying an alternating voltage to the electrodes, the piezoceramic will expand or contract according to the voltage curve, whereby the arrangement of flexible carrier tongue and piezoceramic performs bending oscillations. It is particularly advantageous that only a piezoceramic is used, which allows a cost-effective and simplified production. In addition, it is thus possible to dispense with an adhesive layer which is required in the case of a sensor / actuator arrangement comprising two piezoceramics. The device according to the invention thus reduces the damping effect which an adhesive layer draws on account of the so-called coupling factor and improves the measuring accuracy.

Preferably, exactly one piezoceramic layer is arranged on exactly one side of the carrier tongue.

In a preferred embodiment, the carrier tongue consists of an electrically conductive material. This can be z. B. be a thin sheet. In that case, the carrier tongue can form one of the electrodes. This simplifies the structure.

The other electrode is preferably formed by an electrically conductive layer on the side of the piezoceramic remote from the carrier. As a result, the electrode is optimally connected to the piezoceramic over the entire surface of this side of the piezoceramic.

In a preferred embodiment, the piezoceramic is adhered to the carrier tongue. Thus, a uniform and firm connection between piezoceramic and carrier tongue can be produced in a simple manner.

The AC power supply may be formed integrally with the impedance measuring device. This further simplifies the structure.

A control and evaluation device for controlling the AC voltage supply and evaluating the measurements of the impedance measuring device is preferably connected to the AC voltage supply and the impedance measuring device.

The object is also achieved by a method having the features of claim 8.

In the method for measuring the viscosity and / or the density of fluids, a bending oscillator, comprising a piezoceramic connected to a carrier tongue and having two electrodes, is immersed in a fluid. To the electrodes, an alternating voltage exciting the bending oscillator for oscillation is applied. The impedance of the piezoceramic is measured with an impedance measuring device connected to the electrodes. In resonance mode of the bending oscillator, the density of the fluid is determined from the resonant frequency of the bending oscillator and / or the viscosity of the fluid is determined from the amplitude of the bending oscillator.

The vibration behavior of a vibrator depends on the density and viscosity of the medium in which it vibrates. Its vibrations are damped depending on the viscosity of the fluid. As the viscosity increases, the amplitude decreases. Furthermore, the resonance frequency decreases with increasing density of the fluid. The fluid may be oil, e.g. As engine oil of a motor vehicle to be.

In order to be able to measure this amplitude attenuation and the shift of the resonance frequency, according to the invention the impedance of the piezoceramic is measured in resonant mode. To produce the resonance, the frequency of the exciting AC voltage is varied until the maximum amplitude, i. H. maximum voltage, is measured. The maximum voltage is at maximum impedance, the system is then in parallel resonance. From the resonance frequency thus found, the density of the fluid can now be determined by comparison with known curves or tables. In resonance mode, the amplitude damping and thus the viscosity can be determined from the voltage. The control of the AC voltage supply and the evaluation of the measured values can be carried out by a control and evaluation device connected to the device.

From the measured viscosity and density can then be compared with fresh engine oil, z. B. the soot and / or fuel content in the engine oil and thus the state of wear of the engine oil are determined.

The device according to the invention may be suitable for carrying out the method according to the invention.

A preferred embodiment of the device according to the invention will be explained in more detail with reference to the following figures.

Show it:

1 in a side view of a bending oscillator according to the invention,

2 graphically the influence of the density ρ on the resonance frequency f at the same viscosity η, and

3 Graphically the influence of the viscosity η on the amplitude X at the same density ρ.

In the 1 shown device has a in a holder 5 clamped elongated, thin carrier tongue 1 on. The carrier tongue 1 extends to the greater part outside of the holder 5 , Over an area on one side of the carrier tongue 1 outside the holder 5 is a layer of piezoceramic 2 arranged and with the carrier tongue 1 bonded. Between carrier tongue 1 and piezoceramics 2 is an electrode 3 arranged in the form of a grid, as in the enlarged section in 1 refer to. So the piezoceramic is flat with the electrode 3 and the carrier tongue 1 connected. On the far side of the piezoceramic 2 is a corresponding counter electrode 4 arranged in the form of an electrically conductive layer on top of the ceramic. The electrodes 3 . 4 are with an AC voltage source (not shown) and an impedance meter 6 connected.

Will be to the electrodes 3 . 4 an alternating voltage applied, then the piezoceramic is 2 expand or contract according to the voltage curve, whereby the arrangement of carrier tongue 1 and piezoceramics 2 Performs bending oscillations.

When this flexural vibrator is immersed in a fluid, such as an engine oil, its vibrations are damped depending on the viscosity of the fluid. In addition, such flexural resonators have a pronounced resonant frequency, the value of which changes as a function of the density of the fluid. The shift of the resonance frequency provides information about the density of the fluid (cf. 2 ). From the damping, so from the resonance amplitude so different viscosities can be determined (see also 3 ).

2 shows the amplitude of the bending oscillator as a function of the frequency for two fluids of the same viscosity η1 = η2 and different density ρ2> ρ1. The curve 11 shows the amplitude of the bending oscillator immersed in a fluid of density ρ2. It is about the shift Δf of the resonance frequency against the curve 12 , according to the amplitude of a fluid of density ρ1 <ρ2, shifted. The resonance frequency increases with decreasing density.

3 shows the amplitude of the bending oscillator as a function of the frequency for three fluids of the same density ρ1 = ρ2 = ρ3 and different viscosity η1 <η2 <η3. The curve 23 shows the amplitude of the bending oscillator immersed in a fluid of viscosity η3. It is about the attenuation ΔX of the amplitude versus the curves 22 respectively. 21 , according to the amplitude at a fluid of viscosity η2 or η1, attenuated. The amplitudes decrease with increasing viscosity; they are muted by ΔX.

Claims (9)

Device for measuring the viscosity and / or the density of fluids, comprising - a bending vibrator with a carrier tongue ( 1 ) and one on one side of the carrier tongue ( 1 ) and connected to it from piezoceramic ( 2 ), - two with the piezoceramic ( 2 ) connected electrodes ( 3 . 4 ), - a holder ( 5 ), one end of the carrier tongue ( 1 ), - one with the electrodes ( 3 . 4 ) connected impedance measuring device ( 6 ), and - one with the electrodes ( 3 . 4 ) connected AC power supply. Device according to claim 1, characterized in that the carrier tongue ( 1 ) consists of an electrically conductive material. Apparatus according to claim 2, characterized in that the carrier tongue ( 1 ) one of the electrodes ( 3 ). Device according to one of claims 1 to 3, characterized in that the other electrode ( 4 ) of an electrically conductive layer on the carrier distant side of the piezoceramic ( 2 ) is formed. Device according to one of claims 1 to 1, characterized in that the piezoceramic ( 2 ) on the carrier tongue ( 1 ) is glued. Device according to one of claims 1 to 5, characterized in that the AC voltage supply and the impedance measuring device ( 6 ) are integrated. Device according to one of claims 1 to 6, characterized in that with the AC power supply and the impedance measuring device ( 6 ) a control and evaluation device for controlling the AC power supply and evaluation of the measurements of the impedance measuring device ( 6 ) connected is. Method for measuring the viscosity and / or the density of fluids, in which - a bending oscillator, comprising one with a carrier tongue ( 1 ) and two electrodes ( 3 . 4 ) having piezoceramic ( 2 ), immersed in a fluid, - to the electrodes ( 3 . 4 ) is applied to the bending oscillator to vibrate stimulating, provided by an AC power supply AC voltage, - the impedance of the piezoceramic with a to the electrodes ( 3 . 4 ) connected impedance measuring device ( 6 ) is measured, and - in resonance mode of the bending oscillator from the resonant frequency of the bending oscillator, the density of the fluid is determined and / or - in the resonance mode of the bending oscillator from the amplitude of the bending oscillator, the viscosity of the fluid is determined. A method according to claim 7, characterized in that a control and evaluation device controls the AC power supply and the measurements of the impedance measuring device ( 6 ) evaluates.

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