SU1645847A1 - Scales - Google Patents

Abstract

The invention relates to weighing technology and can be used, in particular, in everyday life to measure the weight of various objects. The purpose of the invention is to simplify the scales and expand their consumer properties. When weighing the load, the spring-like springs 4 transmit a force to the piezoresonance sensor 5, the change in the frequency of oscillation of which is proportional to the weight of the load. The weight of the load is registered: - RTSYa by means of sound and digital-1 .- indicators 14, 15. 1 Il.

Description

The invention relates to weighing and measuring equipment and can be used, in particular, in everyday life for measuring the weight of various objects with indications of weight indications in the form of light or sound signals.

The purpose of the invention is the simplification of weights and the expansion of their consumer properties.

The drawing shows a General diagram of the device.

The device comprises a base 1 and a load receiving platform 2, between which, using tension bolts 3 guiding the movement, clamped springs 4 are clamped, which, in turn, clamp the piezoresonant force sensor 5 with their convex middle parts, the electrodes 6 of which are connected to the first input of the exciter 7, to the second input of which a zero regulator 8 is connected. The output of the exciter 6 is connected to the first input of the mixer 9, to the second input of which the reference oscillator Y is connected. The output of the mixer 9 through the amplifier-limiter 11 and the frequency detector 12 is connected to the low-frequency amplifier 13, the first output of which is supplied to the sound indicator 14, and the second to the digital indicator 15. The tension and guide bolts 3 are movably mounted in the base 1.

For the electronic exciter 7, the LAZ 155 series circuit can be used, for the mixer 9 - the K2ZHA 371 series chip, for the limiter amplifier 11 and the low-frequency amplifier 13 - the UV-4 chip 175 series, for the frequency detector 12 - KD 521D series diodes included according to the bridge circuit, for the zero regulator 8 a half-variable capacitor of the KPP2 type, as an audio indicator 14 - a speaker of the ALS-324 type, and as a digital indicator 15 - a digital indicator of the ALS-324 type.

The device operates as follows.

To set the zero on the digital display, before weighing the load, it is necessary to turn the zero adjuster 8 or to tighten the tension bolts 3. When weighing the load, the bracket-shaped springs 4 transmit force to the piezoresonance force sensor 5. The deviation of the frequency DE of the piezoelectric vibrations of the piezoresonant force sensor is directly proportional to the weight of the load P and is equal to where K ^, Kg, are the stiffness coefficients and the shape of the braced springs, respectively;

K is the piezoelectric frequency coefficient;

f ₀ is the natural frequency of the piezoelectric vibrations;

1) is the cross-sectional area of the piezoresonator;

and is the number of harmonic oscillations, £ is the termination coefficient.

From the force sensor 5, through the exciter 7, the frequency deviation DE is transmitted to the first input of the mixer 9, to the second input of which an electric signal is supplied from the reference generator 10, the frequency of which is constant and equal to the frequency of the force sensor 5 when the mixer output 9 is not loaded, C of the mixer output 9 a frequency deviation DE is proportional to the weight of the load P. After preliminary amplification and amplitude limitation, the frequency deviation DE passes the frequency detector 12 and is fed to the low-frequency amplifier 13, from the first input of which it arrives and the audible indicator 14, the frequency of which height corresponds to the weight of the cargo. At the same time, from the second output of the low-frequency amplifier 13, the frequency deviation DE is supplied to the digital indicator 15, in which a digital image of the cargo weight is reproduced.

Claims (1)

Claim A scale containing a base and a loading platform, between which, using support legs, a piezoresonance force sensor is fixed, and a digital indicator, characterized in that, in order to simplify the scales and expand their consumer properties, a pathogen, a reference generator, and a low amplifier are introduced into them frequencies, mixer, amplifier-limiter, frequency detector, sound indicator, zero regulator and two guides of rectilinear adjustable limited movement, connected at one end to the platform and the other to the base in the form of staple springs fastened at one end on the base, the other on a load receiving platform, and the middle parts with a piezoresonant force sensor, which is connected to the first input of the exciter connected to the first input of the mixer, to 1645847 6 to the second input of which the output of the reference generator is connected, the output of the mixer through the amplifier-limiter and the frequency detector is connected to the input of the low-frequency amplifier, the first output of which is connected to the sound indicator, and the second to the digital indicator, while to the second At the input of the pathogen, a zero regulator is connected.