SU142784A1 - Three-component magnetic electric scales - Google Patents

Description

The subject of the invention is a thermal component magnetoelectric balance for measuring small forces in vacuum tubes, made in the form of a platform suspended from the upper base frame on three flexible threads, equipped with a holder for attaching the model and an inductive sensor representing the sensitive element for an automatic balancing the forces acting on the model.

The peculiarity of the proposed weights, which provides an exception to the influence on the accuracy of measuring the forces of inclination of the base of the shes, is that they use a second platform suspended like the first one for wires of the same length, with one of the platforms carrying an inductive sensor core the second platform - winding. inductive sensors, the presence of threads of the same length on both platforms when the base is inclined leads only to the same inclination of the inductive sensor itself (i.e., the core and the winding) without intermixing, core along the longitudinal axis of the winding and, therefore, without changes in the weights.

FIG. 1 shows a three-component magnetoelectric scales; in fig. 2 - the same, view from the top; in fig. 3 is the same; the section along A-A in FIG. 2

Test the model with the help of a holder / fixed on the platform 2, which is suspended from the base of the 3 weights on three flexible threads 4.

On the platform 2, four frames 5 of four magnetic energizers 6 are mounted. The frames are in the uniform magnetic field of the permanent magnets 7 fixed on the basis of the scales. In addition, on the platform 2, the measles 8 of the inductive sensors 5 are fixed, the windings W of which are fixed on the platform //, suspended # 142784

baseline): scales also on three flexible threads. The length of the threads on which the platforms 2 and / D are hung is the same.

When the action of si, ly, force index X, the model together with platform 2 and the core 8 of the inductive sensor. moves in the direction of this force. The windings of the inductive sensor do not move in this case. Ha-As they are held in a vertical position by the weight of the platform / V. The relative displacement of the inductive sensor core relative to its windings will cause an imbalance consisting of the windings of the inductive sensor of an electric bridge connected to the input of the amplifier (the electrical circuit in the drawing is not given). Strengthened e. d. the unbalance of the bridge, rectified by a phase-sensitive detector, is fed to the frame 5 of the force actuator, which, interacting with the magnetic field of the permanent magnet 7, will tend to return the platform 2 to its original position. The system will be in equilibrium when the measles of the inductive sensor take a position in which the current in the frame of the power driver interacts with the magnetic field of the permanent magnet with a force equal to the force acting on the model and inverse to the sign. In this case, the measure of the measured force is the current from the winding of the energizer.

In order to ensure the stability of platform 2 in the amplifier’s electrical circuit, there is a differentiating circuit providing system stability and, in addition, platform 2 is damped by liquid dampers} 2.

When the scales are tilted, both platforms 2 and 11 are displaced by the action of their weight. Since the length of the flexible threads is the same, then the magnitude of the displacement of the platforms 2 and // will be the same. Therefore, the relative displacement of the inductive sensor core with respect to the windings of the inductive sensor will be zero. The imbalance of the inductive sensor will also be zero.

The displacement of the energetic frame relative to the permanent magnet, which occurs when the forest base is tilted, does not change the characteristics of the energizer, since the frame is in a constant magnet field and the current interaction force in the frame with the magnetic field does not depend on the position of the winding relative to the magnet.

The proposed device allows to ensure the stability of indications with significant inclinations of the base. The use of an energizer, which brings the frame to a position close to zero, makes the microbalances practically do not change their sensitivity when different models with different masses are installed on them.

Therefore, when tilting the base of the balance, the error in the measurement of force due to the tilt will be zero.

Subject invention

Three-component magnetoelectric scales for measuring small forces and vacuum tubes, made in the form of a platform suspended from the upper base frame on three flexible threads, equipped with a holder for mounting the model and an inductive sensor, which is a sensitive element for automatic balancing of forces acting on the model, differing By the fact that, in order to eliminate the influence of the inclinations of the scales on the accuracy of force measurements, they used a second platform, like the first one, suspended on wires of the same length, and one while the platforms carry measles from inductive sensors, and the second platform carries windings from inductive sensors.