SU1384342A1 - Apparatus for exciting and measuring oscillations - Google Patents

Abstract

The invention relates to a test apparatus and can be used in vibration installations to determine the dynamic characteristics of objects. The purpose of the invention is to increase the measurement accuracy. This is provided due to more accurate compensation of the EMF induced in the measurement, coil 6 by the field of the power coil 5 by performing the compensation coil In series according to the connected sections 9 and 10, located symmetrically with respect to the median plane of the working gap at poles 3 and 4 of rma 1 or 2 magnetic cores and placing the measuring coil 6 between the sections of the compensation coil. The invention also provides options for placing one pair of sections along the edges of the core pole and another pair of sections along the edges of the pole or one section in the central part of the core pole and the other in the central part of the pole. Symmetric arrangement of the compensation coil sections ensures the maximum possible its inductive connection with the power coil and, therefore, with: the reception of a sufficiently large signal, which contributes to an increase in the measurement accuracy of 3 Zo ffly, 4 il o c

Description

The invention relates to testing equipment, namely, electrodynamic devices for exciting and measuring oscillations, and can be used in vibration installations to determine the dynamic characteristics of objects.

The purpose of the invention is to improve the measurement accuracy due to more accurate compensation of the EMF induced in the measuring coil by the field of the power coil

Fig. 1 shows schematically a device for exciting and measuring vibrations; Fig. 2 shows a device with an arrangement of sections of a compensation coil along the edges of the pole of a core of a radio tape recorder, option; Fig. 3 shows the device with the arrangement of the compensation coil sections along the edges of the core pole and the pole of the magnetic circuit, an option; in fig. 4 - the device with the location of the sections of the compensation coil in the Central part of the poles of the core, and the magnet rod of the conductor, option

The device contains a magnetic core having a PMO 1 and a core 2, between poles 3 and 4 of which there is a working gap in which the power coil 5 and the measuring coil 6 rigidly connected with it are placed. The power coil 5 is rigidly connected to the table 7 to set the test subject a product suspended on elastic elements 8. A compensation coil is installed on the magnetic core. The measuring coil 6 is placed between sections 9 and 10 of the compensation coil and is included with the latter in the summation circuit 11 having adjustable resistors R1 and R2 at the inputs. The invention provides several options for the implementation and placement of a compensation coil. If the length of the power coil 5 is longer than the working gap, it is advisable to place sections 9 and 10 along the edges of pole 4 of core 2 (Figs 2) or pole 3 rm 1 (FIG. , 1) or alternatively compensate a coil of four sections, of which one pair of sections 9 and 10 is placed along the edges,

five

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five

0 5 0 5 "

poles 3, and another pair of sections 12 and 13 - along the edges of the pole 4 If the length of the power coil 5 is less than the length of the working gap, it is advisable to place one of the sections 9 in the central part of the pole 3, and the other in the central part of the pole 4,

The power coil 5 is powered through a power amplifier 14, the input of which is supplied with a signal U (f), corresponding to the nature of the excited oscillations, and a feedback signal from the measuring coil 6, which is passed through a correction circuit 15,

The device works in the following way.

When the measuring coil 6 oscillates together with the power coil 5 in a magnetic field, the EMF is induced in the measuring coil, proportional to the speed of vibration (vibration velocity). Moreover, since the power and measuring coils are inductively interconnected and form a transformer whose primary winding is The power coil is 5, and the secondary coil is the secondary coil 6, in the latter the EMF is also induced, proportional to the mutual induction coefficient of the coils, B the result of this total EMF of the coil 6 will not be proportional to In order to eliminate the second component of the EMF, a fixed compensation coil is used, which, like measuring coil 6, is inductively coupled to the power coil 5, and in which, therefore, also emf is induced, proportional to the coefficient of mutual induction of the force and compensation coils. By selecting the number of turns of the compensation coil sections, it is possible to achieve equality of its EMF to the second component of the EMF of the measuring coil 6 o Then, when algebraically summing the signals of the measuring and compensation coils, the output of the summing circuit 11 will be a signal U (V) proportional to the vibration velocity of the Resistance R1 and R2 allowing It does not reduce the complexity of the device settings.

Symmetrical arrangement of the compensation coil sections relative to the measuring coil and the middle

the plane of the working gap provides the highest possible inductive coupling of the compensation coil with the power coil and, consequently, obtaining a sufficiently large signal, which contributes to an increase in the measurement accuracy

Claims (4)

Claims 1. A device for exciting and measuring oscillations containing a magnet circuit, a power coil installed in the working gap of a magnetic circuit formed between the poles of its core and a core, a measuring coil rigidly connected to the power coil and a compensation coil mounted on the magnetic core coil included with the measuring coil in the circuit summation. distinctively This is because, in order to improve the measurement accuracy due to more accurate compensation of the emf induced by the field of the power coil in the measuring coil, the compensation coil is made in series with the connected sections symmetrically relative to the median plane of the working gap, and five 0 five The coil is placed between the compensation coil sections. 2. The device according to claim 1, which is made up of the fact that when a power coil is made with a length equal to or greater than the working gap, the compensation coil is made of two sections located along the edges of the core or pole poles of the magnetic conductor. 3. A device according to claim 1, characterized in that when a power coil is made with a length equal to or greater than the working gap, the compensation coil is made of four sections, two of which are located along the edge of the core pole, and the other two - along the edge of the pole of the magnetic core 4. A device according to 1, characterized in that when a power coil is executed with a length equal to or shorter than the working gap, the compensation coil is made of two sections, one of which is located in the central part of the core pole, and magnetic poles of the magnetic circuit „ n / W SL / / FIG. 2 Vuz.if Fi.Z