SU685920A1 - Automatic weghing apparatus - Google Patents

Description

(54) AUTOMATIC SCALES

The invention relates to the field of weighing equipment, in particular, to electronic automatic weights for measuring and screening by mass of small objects and products. Automatic scales are known (1 containing a sensing element, a support unit, a seagull for a load, an electrical balancing system and a reading device. Known scales do not have the required accuracy and measurement range because the increased error of the compensation system with an open magnetic mechanism. Close to The technical essence of the invention is a device 2 comprising a sensitive element with a load receiving platform, a supporting device, a noncomposition converter, a device a magnetic system, balanced and optional coils that are fitted with a magnetic system, a load element for an additional bobbin and a reading device. However, the known scales have insufficient accuracy and a range of adjustment of the degree of calm, which leads to their unstable operation. Improving accuracy and reducing the damping time. This is achieved by the fact that, in the proposed weights, the load element is designed as a kmpotentiometer mounted on a sensitive electric cops and rigidly connected with the additional katuizhoy. FIG. 1 schematically shows the proposed device, FIG. 2, the attachment of a potentiometer to a sensitive element. Sensitive element 1 with load-receiving platform 2 for test loads 3, equipped with adjusting 4 and 5 calibration nuts, unbalance indicator (flag) 6, movable balancing 7 and additional B coils, output terminals 9 and load element, for example, resistor 10. Sensitive element 1 installed on the reference device 11, the coils 7 and 8 interact with the magnetic system 12, and the pointer of the decay (flag) 6 with the uncompensation converter 13, the output signal of which is fed to the amplifier 14 and after converting a compensating tokaZ

flows through the reference resistor 15 and momentless current leads 16 to the movable balancing coil 7.

The ends 17 of the additional coil 3 are connected in series through terminals 9 with a resistor 10, the resistance value R of which is set according to the required degree of damping (damping) of the sensitive element 1. A micro potentiometer 18 can be used as a resistor 10 (Fig. 2).

A reference device 19 is connected to the reference resistor 15, for example a digital voltmeter calibrated in units of mass.

The device is operated in the following manner.

Yes cargo area. 2, the load 3 is set, and the sensing element 1 receives an angular deviation A 4 4, while during its movement together with the coil 8, a vortex current 3 f is induced in the latter creating a damping effect.

The magnitude of the current 3 is determined by the resistance R, the load 9 element resistance of the resistor 10 or the working part Rrf of the micro potentiometer 18. As R increases, the degree of calm of the sensing element 1 decreases, and as R decreases, it increases.

Setting the degree of calm of the sensing element 1 is carried out according to a given speed and magnitude, the mass m of the weights 3,

The deviation of the sensitive element 1 together with the unbalance indicator (flag) b causes the appearance of the output signal uV on the non-compensation converter 13, which, after amplification and conversion in amplifier 14, enters as current 3, through the reference resistor 15 and without it.

torque current leads 16 to a mobile balanced coil 7, creating a compensation force, returning the sensitive element 1 to the position close to the initial one, when lf,

5 The readout of the measured mass m of the load 3 is given by the formula:

KV

m

-the coefficient of proportion to

V

- display of readout device (digital voltmeter) 19.

The presence of an additional movable coil with output terminals and a load резист 1 resistor mounted on the sensing element makes it possible to significantly improve the accuracy, speed and extend the control range of the degree of restraint under various loads and operating modes.

Claims (2)

1. Author's certificate of the USSR 410258, class, G 01 G 7/04, 1972. 2. USSR author's certificate number 187346, cl. G 01 G 23/26, 1965.