RU2402019C1 - Piezoelectric accelerometre - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: accelerometre has a housing base, a post, piezoelectric discs, an inertial mass, a nut, an output cable, as well as two insulating discs, an insulating bushing, an electrically conducting disc and a metal hose. The post is made separate from the base of the housing in form of a screw. A circular hole is made in the base of the housing. One of the insulating discs and the insulating bushing are worn on the body of the screw. On the lower side of the base, the screw is inserted into the hole in the base of the housing, while the other insulating disc, electrically conducting disc, piezoelectric disc and inertial mass, which is made in form of an inverted cup, are successively worn on top around the body of the screw. All negative plates of the piezoelectric discs are electrically connected to the inertial mass and with the screen of the output cable which goes through the cup and is electrically insulated from the housing of the sensor, and all positive plates are connected through a wire, which passes through the hole in the inertial mass, to the middle wire of the output cable placed in the metal hose joined to the housing.

EFFECT: increased operational reliability.

2 dwg

Description

The invention relates to instrumentation, in particular to devices for electrical measurement of non-electrical quantities, and can be used to measure vibration acceleration of industrial facilities.

Piezoelectric accelerometers are known (see descriptions of inventions for copyright certificates: No. 885899 dated 07.16.1979, MKI G01P 15/09, “Piezoelectric accelerometer” published on 11.30.1981 and SU No. 1551045 A1 dated 06.20.1988, MKI G01P 15/09 , “Piezoelectric accelerometer”, published on 04/30/1990), consisting of a body with a stand having threads on the upper end, as well as piezoelectric washers and inertia masses that are mounted on the rack, piezoelectric washers and inertial masses are pressed with a nut to the base of the accelerometer .

The disadvantage of such devices is the high sensitivity to industrial interference and interference due to the fact that the piezoelectric washers are grounded to the housing. Such a circuit of connecting elements is the most unsuccessful in terms of protection against industrial interference and interference, since the stray currents induced by interference sources flow between the ground points of the accelerometer and the external preamplifier, creating a stray common-mode voltage, part of which is fed to the preamplifier input, i.e. . leakage of interference is very significant. This drawback does not allow the wide use of accelerometers for vibration diagnostics of industrial equipment.

A known piezoelectric accelerometer (see Vibration transducer MV-43-1B. Manual for technical operation ZHIAU.433642.001-01RE, ZAO "Vibro-Pribor", St. Petersburg), which is the closest in technical essence and taken as a prototype. The piezoelectric accelerometer consists of the base of the accelerometer housing with a strut having threads on the upper end, as well as the piezoelectric and insulating washers and inertial mass that are worn on the strut, the piezoelectric washers and inertial mass are pressed with a nut to the base of the accelerometer, which is mounted on a vibrating object, moreover, the piezoelectric washers are isolated from the housing and the inertial mass using insulating washers. Such a device allows the use of a circuit with a floating signal source, in which the interference current must overcome the additional impedance between the spurious signal generator and the common wire. Accordingly, reduced interference spurious signals at the output of the vibration transducer.

The disadvantages of this accelerometer are its low sensitivity and accuracy, due to the fact that the metal base, stand, inertial mass and nut are electrically connected to the body of the industrial facility (ground) and therefore industrial interference and interference through the stray capacitance formed between the plates of the piezoelectric washers with the output wire and persistent, base, inertial mass, are output to the accelerometer from its body. The parasitic capacitance usually has a value of 3-7 pF, but this is enough to significantly reduce the minimum threshold value of vibration that the accelerometer can register against the background of interference and interference leaking through this capacitance to the output of the accelerometer.

The technical task to be solved is the creation of a piezoelectric accelerometer with increased sensitivity and accuracy, which are ensured by significantly reducing the level of industrial interference and interference when using accelerometers for monitoring industrial equipment.

This problem is solved using the features specified in the claims that are common with the prototype: a piezoelectric accelerometer contains a housing base, piezoelectric washers, a first insulating washer, an inertial mass, a nut, a cover and an output cable, and new significant features distinctive from the closest analogue: additionally introduced a second insulating washer, an insulating sleeve, a conductive washer and a metal hose, the stand is made separately from the base of the housing in the form of a screw, in the base of the housing is made round a hole, a second insulating washer and an insulating sleeve are put on the screw shaft, a screw is inserted into the hole in the base of the case from the bottom side of the base, the first insulating washer, an electrical conductive washer, piezoelectric washers, inertial mass, which is made in the form of an overturned cup, are sequentially put on top of the screw shaft the lower edge of which is located at a minimum distance from the conductive washer, and the size and shape of the screw, conductive washer and inertial mass are selected in such a way that an electric shield that is insulated from the housing with insulating washers and a sleeve, with a nut all these parts are pressed to the base of the housing, all the negative plates of the piezoelectric washers are electrically connected to the inertial mass and to the screen of the output cable, which is passed through the cover and is electrically isolated from the housing, and all positive plates of the piezoelectric washers are connected by a wire that passes through the hole in the inertial mass, with the central core of the output cable placed in the metal hose, is connected first with the body.

The following discloses the existence of a causal relationship between the totality of the essential features of the claimed invention and the achieved result.

Firstly, for the first time, a piezoelectric vibrocontrol device has been proposed based on full shielding from the body of the positive plates of the piezoelectric washers and the wire connecting these plates to the output of the piezoelectric accelerometer.

Secondly, the use of such a device can simplify the manufacture of a piezoelectric accelerometer due to the separate manufacture of the base and rack of the accelerometer.

Thirdly, the use of such a device makes it possible to reduce the stray capacitance between the case and the input circuit of the piezoelectric accelerometer by more than 100 times and thereby reduce the leakage of industrial noise and interference from the case of the piezoelectric accelerometer through its output conductor by more than 40 dB compared to the prototype input circuits of the signal amplifier.

Thus, a new set of all the essential features in the inventive device provides the following result: increasing the sensitivity and accuracy of the piezoelectric accelerometer.

Figure 1 shows a sketch of a piezoelectric accelerometer, which implements the proposed technical solution.

Figure 2 presents the equivalent electrical circuit of the proposed piezoelectric accelerometer.

The device comprises a housing base 1, piezoelectric washers 2, a first insulating washer 3, an inertial mass 4, a nut 5, a cover 6, and an output cable 7. The stand is made separately from the housing base in the form of a screw 8, a round hole is made in the base of the housing 1 9, a second insulating washer 10 and an insulating sleeve 11 are put on the screw rod 8, which provide electrical isolation of the screw 8 from the base 1, the screw 8 is inserted into the hole 9 of the base of the housing 1 from the bottom side of the base 1, and sequentially above The insulating washer 3, the conductive washer 12, the piezoelectric washers 2, the inertial mass 4, with the help of the nut 5, all these parts are pressed to the base of the housing 1. All the negative plates of the piezoelectric washers 2 are electrically connected to the inertial mass 4, and the wire 13 to the output screen 14 cable 7, which is passed through the cover 6, the cable shield is electrically isolated from the housing by an insulating sheath 15, all the positive plates of the piezoelectric washers 2 are connected by a wire 16, which passes through the hole 17 in the inertial mass, In Central residential 18 output cable 7, which is placed in the metal hose 19 connected to the housing.

The accelerometer works as follows (see figure 1). In the presence of vibrations along the sensitivity axis directed along the axis of the screw 8, the inertial mass 4 transmits the inertial effect on the piezoelectric washers 2, an alternating charge arises on the piezoelectric washers 2, which is transmitted through the conductors 13 and 16 to the output cable 7 and then to the input through this cable external preamplifier. The stand is made separately from the housing 1 in the form of a screw 8, which is passed from below through the hole 9 and secured to the base of the housing 1 using insulating sleeves 11 and washers 10 and 3, the housing 1 is electrically isolated from the screw 8 (see figure 1). The inertial mass 4 is made in the form of an overturned cup, the lower edge of which is located at a minimum distance from the conductive washer 12 (see figure 1). Moreover, the dimensions and shape of the screw 8, the conductive washer 12 and the inertial mass 4 are selected in such a way that an electric shield is formed, which is isolated from the housing by insulating washers 3, 10 and the sleeve 11, and provides minimal parasitic capacitance between the vibration transducer housing and the output. These signs provide minimal leakage of spurious signals to the output of the accelerometer.

The operation of the device is also illustrated in figure 2 by the equivalent electrical circuit generated during the implementation of the device according to the proposed technical solution. In the prototype, all the metal parts of the accelerometer are connected to the housing 1, the screen 3 is missing and the capacitance 7, which is the total capacitance of the positive (+) terminals 4 of the piezoelectric washers 2 and the connecting wire 8 to the housing 1, the screw, inertial mass, has, as a rule, the value of 3-7 pF. The capacitance 5, which is the total capacitance of all piezoelectric washers and the own capacitance of the connecting cable 4, usually has a value of the order of several thousand pF. The same order of magnitude capacity 6, which is formed between the screen of the cable 9 and the metal sleeve 10. Elements 14, 15 and 16 are the impedances of the Central core of the connecting cable 4, the screen of the cable 9 and the metal sleeve 10, respectively. A cable 4 transfers the signal from the piezoelectric washers 2 to a remote preamplifier 17, which is usually used as a charge amplifier. Industrial interference and interference occur between the housing 1 of the piezoelectric accelerometer and the housing 18 of the remote amplifier 17. Between the grounding 12 and 13 of these buildings there is a pickup voltage 11. In the prototype, part of this voltage is supplied through the capacitive divider 7, 5 to the output of the accelerometer and through cable 4 to the input amplifier 17, creating an interference signal that is large enough due to a noticeable value of capacitance 7. Against the background of this signal, it is difficult to observe a small useful signal of vibration acceleration, that is, weak vibrations of industrial Comrade register difficult.

In the proposed device in accordance with the claims, an additional screen 3 of electrically conductive elements of the piezoelectric accelerometer is created, with the help of insulating elements this screen 3 is isolated from the housing 1, as a result, this screen almost completely electrically shields the positive plates of the piezoelectric washers 2 from the housing 1. Thus, a very small value of parasitic capacitance 7 was obtained, which is two and a half orders of magnitude smaller than those capacities that have analogues and a prototype. Capacity 6, which has a magnitude of the order of a thousand picofarads, creates a capacitance between the housing 1 and the screen 3 formed by a conductive washer, an inertial mass and a screw, and the capacitance between the screen of the output cable 4 and the metal sleeve 9. The value of this capacity is practically the same as that of prototype. Even with high voltage values of the pickup source 10, the value of spurious voltage on cable 4 does not exceed the noise level of the accelerometer. The currents flowing through the ground circuit 13 - ground 12 - accelerometer housing 1 - capacitance 7 - resistor 14 - preamplifier input 17 - preamplifier housing 18 are also negligible due to the very high impedance 7 and do not create parasitic pickups at the input of the amplifier 17, which allows you to register weak vibrations controlled by this method of the object.

Thus, the goal of the invention is solved - the creation of a piezoelectric accelerometer for industrial equipment with increased sensitivity and accuracy.

All applied nodes and elements are widely described in the technical literature and can easily be implemented.

In order to confirm the feasibility of the claimed device and the achieved technical result, several piezoelectric accelerometers based on piezoelectric ceramics TsTS83G, which are based on the proposed piezoelectric accelerometer in conjunction with a standard charge amplifier 17, are tested in various technical designs. All of these piezoelectric accelerometers have the design corresponding to figure 1, and the equivalent circuit shown in 2. As a source of interference 11 (figure 2) is included in the open circuit ground 12 - ground 13 transformer with an output voltage of 100 V and a frequency of 50 Hz, simulating spurious interference. The attenuation attenuation at the output of the charge amplifier relative to the prototype in the prototypes was 42-46 dB.

The tests showed the feasibility of the claimed device, confirmed its advantages and practical value.

The piezoelectric accelerometer can be widely used for vibration analysis and vibration monitoring of industrial equipment in conditions of high industrial interference and interference.

Claims (1)

A piezoelectric accelerometer comprising a housing base, a strut, piezoelectric washers, a first insulating washer, an inertia mass, a nut, a cover and an output cable, characterized in that a second insulating washer, an insulating sleeve, an electrically conductive washer and a metal hose are additionally inserted, the strut is made separately from the housing base in the form of a screw, a round hole is made in the base of the case, a second insulating washer and an insulating sleeve are put on the screw shaft, a screw is inserted into the hole about of the case, the first insulating washer, the conductive washer, the piezoelectric washers, the inertial mass, which is made in the form of an overturned cup, the lower edge of which is located at a minimum distance from the conductive washer, are sequentially put on top of the screw shaft, the dimensions and shape of the screw, conductive washer and inertial the masses are selected in such a way that an electric shield is formed, which is isolated from the housing with insulating washers and a sleeve, with a nut all these parts are pressed to the base casing, all the negative plates of the piezoelectric washers are electrically connected to the inertial mass and to the screen of the output cable, which is passed through the cover and electrically isolated from the sensor housing, and all the positive plates of the piezoelectric washers are connected by a wire that passes through the hole in the inertial mass, with the central residential output a cable placed in a metal hose connected to the body.

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