SU1624269A1 - Automatically balanced scales - Google Patents

Abstract

This invention relates to a weight measuring technique. The purpose of the invention is to improve the measurement accuracy. The beam 1 is made in the form of a T-shaped equal-arm lever, one arm of which is equipped with an element 16 of the conjugation with the suspension 2, the other with a movable part 10 of the unbalance sensor 9. The lower vertical protrusion 17 of the lever 1 is provided with a coil 7 of the electromagnetic compensator 6. The center of the lever 1 is equipped with side symmetric 18 with the base surfaces 19 of the elastic supports 20 with necks 21. The necks 21 of the elastic supports 20. The coupling interface 16 and the movable part 10 sensor 9 unbalance located in the same horizontal plane. The axes of the winding 8 of the coil 7 are perpendicular to the plane of the elastic supports 20 and parallel to the horizontal plane, and the winding 8 of the coil 7 is located symmetrically with respect to the necks 21 of the elastic spores 20. From the imbalance 9, the SIGNRL is applied to the integrating amplifier 11, which converts constant voltage proportional to the value of the compensation current flowing through the measuring resistor 12 and the winding 8 of the coil 7 of the compensator b. The voltage drop across the measuring gauge 16 figure 1

Description

The high accuracy of the stop 12c reflects the value of the mass of the measured load 3. The high measurement accuracy is ensured by the symmetrical shape of the rocker arm 1 and the symmetrical arrangement of the winding 8 of the coil

7 in the compensator 6. Analog-to-digital converter 13 generates a digital value of the weighed mass, read from a digital indicator 14. 2 Il.

The invention relates to weighing technology and can be used in scales with automatic load balancing.

The purpose of the invention is to improve the measurement accuracy.

Figure 1 shows the scales with automatic balancing; FIG. 2 is a section A-A in FIG. one.

The scales with automatic balancing contain a yoke 1, a load-receiving suspension 2 for the measured load 3, a calibration 4 and an adjusting 5 device, an electromagnetic compensator 6 containing a coil 7 with a winding 8, a sensor rigidly connected to the rocker

9 with the balance of the moving part 10, the integrated amplifier 11, the measuring resistor 12, analog-to-digital Converter 13, the output connected to the digital indicator 14.

To limit the angle of inclination of the yoke 1, the balance is equipped with adjustable stops 15. Sensor 9 imbalance through integrated amplifier 11 and resistor 12 is connected to the first output of the winding 8 of the coil 7 of the electromagnetic compensator 6. The output of the winding 8 is connected to a common power supply. The integral output amplify 11 via the second channel is connected to the input of the analog-digital converter 13.

The yoke 1 is made in the form of a T-shaped equal-arm lever, one shoulder of which is equipped with an element 16 of the conjugation with the suspension 2. And the other - a movable part

10 sensor 9 unbalance

The middle protrusion 17 of the rocker arm 1 is connected with its lower part by the coil 7 of the electromagnetic compensator 6. The central part of the lever 1 is provided with side symmetrical protrusions 18 with elastic supports 20 with necks 21 fixed on their end surfaces 19.

The second ends of the elastic supports 20 are attached to the base of the 22 weights. Thus, the rocker arm 1 is fixed on the elastic supports 20 and has the ability to rotate around the axis I-I when applying the measured load 3 to the suspension 2. passing through the neck 21 of the elastic supports 20, to the stops 15.

The coil of the electromagnetic compensator 7 is fixed on the lower part of the middle protrusion 17 of the rocker arm 1 on the shoulder b relative to the necks 21 of the elastic supports 20 of the axis I-I.

For obtaining high metrological characteristics of scales, high precision

measure, exclude temperature drift of the movable part 10 of the sensor 9 imbalance, elastic supports 20, the horizontal axis of symmetry of the element 16 is also compatible with the suspension and the middle line

Serial - 10 9 unbalance parts are located in one horizontal plane1 ll-li The Hi-III axis of the winding 8 of the coil 7 of the electromagnetic compensator is perpendicular to the plane IV-IV of the elastic supports 20.

The winding 8 chagushki 7 is located symmetrically DTI relative to the necks 21 of the elastic supports 20.

The axis IM-ISI windings 8 coils 7 parallels go-. 11EI plane.

The arrangement works as follows.

Measured weight 3 is applied to the n, two-sided 2. At the same time, the beam 1 tilts as theft is limited by the stops

15 The unbalance sensor 9 supplies a signal to the integrated amplifier 11, which is converted into a constant voltage proportional to the value of the compensation current flowing through the measuring resistor 12 and the winding 8 of the coil 7 of the electromagnetic compensator 6

The voltage drop across the measuring resistor 12 with high accuracy reveals the mass value of the measured load 3, and the analog-to-digital converter 13 generates a digital value of the weighed mass read from the digital indicator 14.

The ratio of the arms of the yokes a and b can be constructively varied over a wide range, which allows for a small measured load 3 to obtain a significant compensation current in the winding 8. This increases

resolution of the scales with low loads, with a b, and with large loads, on the contrary, it is possible to make the arm b a, which reduces the compensation current and, consequently, the heat released from

electromagnetic compensator 6.

Claims (1)

The symmetrical arrangement of the winding of the electromagnetic compensator 6 of the rocker arm 1 ensures uniform temperature effects from the electromagnetic compensator on both arms of the rocker arm, their equal lengthening and stability of the metrological characteristics. The invention of the Balance with automatic balancing, containing a rocker, one arm of which is connected via an interface with the suspension, and the other with a movable part of the unbalance sensor connected to the coil of the electromagnetic compensator, the first winding output of which through a resistor is connected to the output of the integrated amplifier, and The second winding output is connected to a common power bus, and an En-O-Digital converter connected to the digital indicator with its output and connected to an integrator amplifier is different. who are In order to improve the measurement accuracy, the yoke is made in the form of a T-shaped equal arm, the middle protrusion of which with its lower part is connected with the coil of the electromagnetic compensator, and the central part of the lever is equipped with side symmetrical projections and elastic supports fixed on their end surfaces with necks, with necks of elastic supports, the horizontal axis of symmetry of the interface element with the suspension and the middle line of the moving part of the imbalance sensor are located in the same horizontal plane, and the axis The coil of the electromagnetic compensator is perpendicular to the plane of the elastic supports and parallel to the horizontal plane, with the coil of the electromagnetic compensator located symmetrically relative to the elastic supports. FIG. 2