SU148606A1 - Acoustic isolator - Google Patents

Description

An acoustic insulator is known, consisting of a series of half-wave non-loaded resonators connected in the previous oscillation nodes and antinodes of the subsequent resonator.

The main disadvantage of the known acoustic insulator lies in the insufficiently high acoustic resistance of the resonators.

In the described isolator, this disadvantage is eliminated by the fact that the link of the system being isolated is used as the input resonator, and a quarter-wave rigidly fixed resonator is used as the output link.

FIG. 1 shows the tubular insulator structure; in fig. 2 - high-frequency electromechanical torsional vibration filter with auto-transformer coupling between the resonators.

The proposed acoustic isolator is an oscillatory system made on half-wave unloaded resonators-x 1, 2, 3, 4.

When oscillations of the isolated oscillatory system 5 occur in the input link /, standing waves arise, so that the point of attachment of link 2 appears in the displacement node, where the output resistance is high and the oscillation velocity is low. Perceiving these vibrations, link 2 is excited at a much lower rate of vibration than link 1. As a result of passing through such a four-link isolator, the vibrations are practically reduced to zero.

As an input link of an insulator, it is possible to use a link of an isolated oscillatory system 5, and as an output link, a quarter-wave stand is rigidly fixed (not 1 shown in the drawings). At the same time, a significant reflection of acoustic energy is achieved in, mainly not due to rigid fixation, but through the use of natural displacement nodes and the series connection of output acoustic impedances.

The isolator can also work as an acoustic autotransformer in electromechanical filters to obtain a weak coupling between the resonators (Fig. 2). The work of autotransformer links when this happens as follows.

The torsional vibrations excited in the resonator 6, through the wires 7, 8, 9 connected to it in the displacement node, excite the resonator 10. All subsequent filter resonators are excited in a similar way, and as a result each of the resonators is excited with an amplitude of oscillations in the antinodes of displacement greater than the amplitude of the buildup.

The proposed acoustic isolator can be used in devices to prevent the passage of acoustic energy of oscillating parts into fixed parts and in devices where weak acoustic coupling between resonators is necessary.

Subject invention

An acoustic isolator consisting of a series of non-loaded non-loaded resonators connected in the previous oscillation nodes and antinodes of the subsequent resonator, characterized in that, in order to increase the acoustic resistance of the resonator, an isolated system link is used as the input resonator - quarter-wave rigidly fixed resonator.

Hard monolithic connection Sb / zhoy or soldering

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FIG. 2

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