SU594486A1 - Stand for testing electromagnets - Google Patents

Description

(54) ELECTROMAGNET TEST BENCH

electromagnet 3. The armature 4 of the electromagnet contains a rod with a plate 5, which through the elastic element 6 rests on a movable platform 7, moving along the guide posts 8 using an adjusting screw 9, rotated by a flywheel 10. Moving the platform in the opposite direction is limited by an adjusting screw 11 which is placed on the mounting platform 12 with stop plates 13. A permanent magnet 14 is fixed on the plate of the shaft, and on the nearest arm of the mobile platform 7 there is a signal area TKA 15.

The device works as follows.

The tested electromagnet 3 is fixed by means of a resiliently deformable element 2 with strain gauges on a fixed installation table 1. After that, using the adjusting screw 11, the required value of the working stroke of the core is set. Then, by rotating the flywheel 10, moving the movable platform 7 and deforming the elastic element 6, the required initial traction force is set. A pre-calibrated spring can be used as an elastic element, and its rigidity should not exceed the rigidity of the power characteristic of the electromagnet under test. When a pulse of electric current is applied to the winding of the electromagnet under test, electromagnetic forces arise in the working air gap, which pull the bark to the electromagnet foot. However, with what force the measles is attracted to the foot, with the same force and the electromagnet is attracted to the measles. Consequently, the electromagnetic force generated in the working gap will be applied to the elastically deformable element and can be measured using strain gauges. Since the natural frequency of the strain gauge is very high (about 3000 Hz and more), they can be used to measure and record the characteristic change of the tractive effort of the electromagnet as a function of movement for almost any high-speed electromagnet. It is necessary to consider the opposing force of the elastic element.

To obtain the dynamic characteristics of the electromagnet, a speed sensor is installed on the stand, which is a signal winding 15 wound on one of the legs of the mobile platform 7, and a permanent magnet 14 fixed on the plate 5 of the rod. The output of the signal winding is connected to an oscilloscope. When the electromagnet triggers the foot in the process of triggering the electromagnet.

the constant magnet 14 moves along the signal winding 15, as a result of which there is an electric current. Moreover, the magnitude of the current induced in the signal winding is proportional to the speed of movement of the core, and, therefore, the change in the speed of movement of the core will be recorded by an oscilloscope. Having all these data, obtaining the dynamic characteristics of an electromagnet is not difficult.

After the electromagnet has moved the measles by the magnitude of the working stroke, it is possible to measure the force of the crust at the foot. To do this, turn the flywheel 10 to move the movable platform 7 down until the peel is removed from the foot. In this case, the magnitude of the retention force is measured by gage converters.

Thus, using the proposed stand, one can obtain all the necessary characteristics of an electromagnet: a change in the tractive force of an electromagnet as a function of movement

cor in the dynamics of the process; electromagnet response time; the force of holding the core at the foot of the electromagnet; the force of the impact of the core on the electromagnet. At the same time, the stand is simple to manufacture and operate and consumes the minimum amount of electricity.

Claims (1)

1. Copyright certificate № 315215, cl. H 01 F 7/13, 1971.