SU1460618A1 - Electromagnetic digital weighing apparatus - Google Patents

Abstract

The invention relates to weighing technology and allows for improved measurement accuracy. For this purpose, the sensing element 1 with the cup 2 for the load 3 is suspended on the elastically deformable n twesque 4 and is connected with the electromagnetic compensator in the form. coil 11 and magnet. To compensate for the stiffness of the suspension 4 and the current leads 14 of the coil II, an elastically deformable system 23 is used in the form of springs, one ends of which are fixed to the bracket 20 attached. to the sensing element 1, and the others through the nodes 26 and 27 sampling the tare weight are connected to the base 28 of the balance. Tensioning the springs compensates the weight of the sensing element 1 and half the weight of the greatest load. The weight reading is produced by the digital reading unit 45 and the reading device 46, which are connected via an analog-digital application 44 to the output of the non-compensation amplifier 16. 5 hp f-ly, 5 silt, with CO

Description

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Claims (3)

Formula'invention 1. Electromagnetic digital. scales containing a sensitive element with a load receptacle mounted on an elastically deformable suspension mounted on the base, and an electromagnetic compensator, the coil of which is connected to the output of the amplifier, to which a digital readout unit is connected, characterized in that, p. In order to improve accuracy, an elastic-deformable system and tare weight sampling units were introduced in them, and one of the mechanical outputs of the elastic-deformable system is closed to the base, while ₅ elastic-deformable systems are made with stiffness less than the total stiffness of the elastic-deformable suspension and the electromagnetic compensator. .10 2. Scales according to π. 1, it follows from the fact that an elastically deformable system is made in the form of two or more elastic elements, some of which have an order of magnitude lower stiffness than others. 3. The balance according to claim 1, with the fact that the elasto-deformable system is made in the form of two or more coil springs wound 20 in opposite directions, the springs being located symmetrically and on both sides relative to the axis of the elastic · deformable suspension of the sensing element. 25 4. Scales according to π. 1, with the fact that the elastically deformable system is made in the form of two or more concentric coil springs located inside each other. 30 5. The balance according to claim 1, with the exception of the fact that the elasto-deformable system is made in the form of helical springs made from material. with a temperature coefficient of ₃₅ linear expansion equal to the temperature coefficient of linear expansion of the elasto-deformable suspension, 6. Balance pop.J, characterized in that the magnetic compensator is made with a central cavity in which an elastic-deformable system is placed along the vertical axis of symmetry of the weighing cup. ί ’1460618 FIG. 3 R / chax FIG. 5