SU885819A1 - Weighing device - Google Patents

Description

The invention relates to weighing devices with the calculation of the cost of a weighed goods and can be used, for example, in m of the co-manufacturing industry with volumetric dosage of dumplings or in any other industry where the cost of goods is determined at the same time as weighting. A weighing device is known with the calculation of the cost of a weighed goods, containing a load receptor platform mounted on a load receptor mechanism, a load cell, price entry blocks, and indications of weight and cost. The load-receiving mechanism is made in the form of a cruciform lever, the vertical ends of which are connected to the support post through horizontally located elastic tape supports and strings, and one of the horizontal ends of the lever is connected with a load cell Cljl. known devices are characterized by low accuracy. and reliability and lack of speed. The closest to the proposed technical entity is a weighing device containing a cargo receiving platform, converter setpoint1, a pulse generator, a function generator, whose input is connected to the output of the setter, weight and cost indication blocks, and keys, one of which is connected to the pulse generator with a weight indication unit, and through another key, the output of the function generator is connected to the cost indication unit 2. A disadvantage of the known device is that it has limited functions. tional features as does not allow to produce goods by dispensing a predetermined weight. The purpose of the invention is to increase productivity and enhance functionality. The goal is achieved by the fact that the device is equipped with a sawtooth generator, the load-receiving platform is made in the form of a profile winding placed inside the converter fed from the sawtooth generator, and the price setting unit contains a comparator and a sinusoidal voltage source connected to the sawtooth generator and comparison and to the second input of the unit of comparison is connected

the output of the profile winding, and the output of the comparison unit is connected to the inputs of the keys and the function generator.

Fig. 1 shows a block diagram of the proposed device, Fig. 2 diagrams explaining its operation.

The weighing device contains a spring-loaded weighing platform 1, made in the form of a core winding, placed on the basis of a nonmagnetic material. The platform is located inside converter 2, which is represented by a rectangular magnetic core with a window and an excitation winding Wg on the front part. The Converter is powered through the winding Wg from the generator 3 sawtooth current. There is also a price setting device 4, made in the form of a comparison unit 5 and a sinusoidal unipolar voltage source 6 connected to its first input, connected to a sawtooth current generator 3. Price price sensor 4 is connected between the output (it also serves as the main winding 1) of converter 2 and the control inputs of the keys 7 and 8, through one of which the pulse generator 9 is connected with the weight indication unit 10, and through the other key the output of the function generator 11 is connected to the cost indication unit 12. The functional generator 11 is made in the form of a self-exciting generator with Wien's mest, whose frequency-setting circuits are connected to the output of the setter 4. Keys 7 and 8 and blocks 10 and -12, respectively, display weight and cost combined into an arithmetic unit 13.

The device works as follows.

When the generator 3 of the sawtooth current is supplied with a sinusoidal unipolar voltage U Iksinwt.l, where uj is the circular frequency, K is the amplitude value, is proportional to the unit cost of the goods from source 6, the output of the generator 3 produces signals of the form i At, where A is the proportionality coefficient, working areas which are more than half a period T / 2 (Fig. 1 and 2). In this case, the profiling winding 1 under the action of the gravity of the incoming goods moves by an amount X proportional to its weight, and signals of the form i At excite a magnetomotive force and magnetic flux in the winding Wj. Since the flux linkage Φ with profiling-winding 1 is proportional to the generator current 3 and the selected function FRR (x.), which contours it to the contour, where P is the proportionality coefficient, the signal and at the input of the comparison unit 5 from the converter 2 side is equal to R «« aF / c3 AR (x). As a result, comparing it at times and tiicU

we obtain and and AR (x) - K slnot, that for (x) sinx Lr «k corresponds to t x / sh, and tj 0.5T - t.T.e. the duration t, j - t of the pulses at the output of sensor 4 is proportional to the goods, goods, and their amplitude U (or U) is proportional to its price. These pulses arrive at the inputs of keys 7 and 8, which are opened for the time t.-t and pulses pass through them, respectively, from generators 9 and 11. According to the number of pulses passed through the keys 7 and 8, blocks 10 and 12 are judged according to the weight and value of the goods. The frequency of the pulses from the generator 14 is determined by

5 by the magnitude A of the voltage U supplied to the frequency-response circuit of the Wien bridge in the form of voltage).

Weighing and determining the value of the weighed goods occurs in

0 over time, and in the remaining time intervals, the readings of blocks 10 and 12 are reset. This ensures continuous determination of the weight and cost of the goods with a given accuracy, chosen depending on L and I. This achieves an increase in the productivity of the device and ensures the dosage of the goods according to a given weight.

Claims (2)

1. USSR author's certificate No. 429287, cl. G 01 G 19/413, 1972. 2. USSR author's certificate 514208, cl. G 01 G 19/413, 1975 (prototype).