SU1765722A1 - Device for measuring flexible body parameters - Google Patents

Description

The invention relates to tests and studies of flexible hoses and will find application in determining the characteristics of hoses.

A device [1] is known that implements a dynamic method for determining the parameters of flexible elements and allows you to find: amplitude-frequency characteristics (AFC); flexural fluid of a flexible body; energy dispersion coefficient of a flexible body.

The specified device has structural complexity and cannot be used for high-frequency measurements of the amplitude of the flexible element.

The closest in technical essence to the invention is a device for measuring the parameters of flexible bodies, containing two clamps for fastening a flexible body, one of which is rigidly connected to the bed, and a displacement transducer, the movable part of which is rigidly connected to the flexible body [2].

The disadvantage of this device is that it does not allow measuring the amplitude of oscillations of a flexible body.

The aim of the invention is to expand the functionality by providing the ability to measure the amplitude of the oscillations.

The goal is achieved in a device for measuring the parameters of flexible bodies. comprising two clamps for fastening a flexible body, one of which is rigidly connected to the bed, and a displacement transducer, the movable part of which is rigidly connected to the flexible body, due to the fact that a vibro-loader is inserted into the device, the second clamp for securing the flexible body, the moving part of the displacement transducer and the vibro-loader are rigidly connected to the bed.

Haha. 1 shows a general view of a device for measuring the parameters of flexible bodies; in FIG. 2 is a sectional view of a displacement transducer with recording equipment connected to it.

The device for measuring the parameters of flexible bodies contains a frame 1 on which clamps 2 and 3 are fixed for the flexible body 4 to be installed. The movable part 5 of the displacement transducer is rigidly connected to the flexible body 4 by a collar 6. The fixed part 7 of the displacement transducer via the rack 8 also is rigidly fixed to the bed 1. To the displacement transducer, an amplifier 9 and an oscilloscope 10 are connected in series. The bed 1 is rigidly connected to the vibrator 11,

A device for measuring the parameters of flexible bodies works as follows.

Vibro-loader 11 moves in accordance with the law a - a ₀ sin (2 πΐ ₈ + φ), where a ₀ is the amplitude of vibrations of the vibro-loader; f _B - vibration frequency of the vibrator; φ is a constant. Under the influence of vibrations of the vibro-loader 11, the flexible body 4 also starts to oscillate, the amplitude of the vibrations of the flexible body 4 being greater, the closer the value of the disturbing frequency f _B to the natural frequency of vibrations of the body f. The maximum vibration amplitude of the flexible body 4 will be at resonance when f / f _B = 1. The vibration amplitude of the flexible body 4 is converted into an electrical signal, which after amplification is controlled by the oscilloscope 10.

The small mass of the moving part 5 of the displacement transducer, which can be made in the form of a thin-walled cylindrical sleeve, and the lack of mechanical connection with the fixed part 7 of the displacement transducer (no loss of friction energy) provides an accurate experimental determination of the value of the vibration amplitude and natural frequency of vibrations of the flexible body 4. A rigid connection of the stationary part 7 of the displacement transducer with the bed allows to eliminate the error in the measurement of the amplitude associated with the amplitude of the count -oscillations exciter 11, thereby ensuring high measurement accuracy.

Claims (1)

Claim A device for measuring the parameters of flexible bodies containing two clamps for attaching a flexible body, one of which is rigidly connected to the bed, and a displacement transducer, the movable part of which is rigidly connected to the flexible body, characterized in that, in order to expand the functionality beyond due to the possibility of measuring the amplitude of vibrations, a vibro-loader is introduced into it, the second clamp for attaching a flexible body, the stationary part of the displacement transducer and the vibro-loader are rigidly connected to Nina. FIG. 2