RU2115906C1 - Bed for nondestructive test of drive belts - Google Patents

Abstract

FIELD: nondestructive testing of belts. SUBSTANCE: invention is intended for increased accuracy of measurement of parameters of belts that determine their serviceability and long operational life, elastic-dissipative characteristics and stability of dimensions of cross- section over length. Bed includes testing pulleys, drive motor, level with axis of oscillation on which lower pulley is put, unit of static loading with collection of weights, centrifugal oscillation exciter given rotation from controlled drive via shaft with elastic clutches and unit measuring amplitude and frequency of oscillation of lower pulley. Quality of belt is evaluated by assemblage of parameters taken under mode of forced resonance oscillations. Test duration amounts to 2-3 min without destruction of belt. EFFECT: increased accuracy of measurement of parameters of belts. 1 cl, 1 dwg

Description

 The invention relates to testing machines and stands and is intended for non-destructive testing of drive belts.

 A well-known stand for testing belts, containing the driving and driven pulleys covered by the tested belt, a drive motor kinematically connected with the driving pulley and the tension device [1, p. 201].

 Tests on this bench are carried out with a rotating belt without transmitting useful torque.

 Qualitative characteristics of the belt are estimated by the number of rotation cycles until the belt is destroyed.

 Known stands for testing belts that realize power transfer by direct flow or with a closed loop [1, p. 174].

 Qualitative characteristics of the belt are also evaluated by the duration of the test until the belt is destroyed.

 The listed types of stands have significant drawbacks consisting in the long duration of the tests and the inability to use the tested belts for further operation.

 Closest to the invention in technical essence is a device for determining the dynamic elastic-viscous characteristics of belts [2, p. 27], ultimately determining their performance and durability.

 The device contains two pulleys located in a vertical plane, on which the test belt is mounted, a static loading unit, a force exciter and a unit for registering free damped belt vibrations.

 The tests are carried out on a fixed belt by analyzing the frequency and amplitude of free damped oscillations that occur in the belt during instant unloading due to the action of additional mass (force excitation device) acting along the belt tension line.

 The disadvantage of this device is the large measurement error due to the instability of the elastic-dissipative properties of the belts during free vibrations, and the relatively large error of the measurement tools due to the shape of the signal to be analyzed and, as a result, an inaccurate assessment of the quality of the belts.

 The purpose of the invention is to improve the accuracy of assessing the quality of belts without destroying the belt by reducing the measurement error of the elastic-dissipative properties of the belts.

 This goal is achieved in that the stand, containing two vertically located pulleys, is equipped with a lever, one end of which is connected to the lower pulley, and the other has a swing axis. On the lever is mounted a movable support of an adjustable force exciter device made in the form of a centrifugal vibrator connected to an adjustable drive through an intermediate shaft with elastic couplings. The upper pulley is connected to the drive through an additional gear. The lever is connected with the lifting device - lowering.

 The drawing shows a kinematic diagram of the stand for non-destructive testing of belts.

 The stand contains a base 1, on which a rack with guides 2 is installed, along which, with the help of a screw 3, the axis with the upper test pulley 4 is moved, on which the test belt 5 is put on. The position of the pulley axis is fixed using the lock 6. The lower test pulley 7 is fixed to the lever 8, the other end of which is fixed on axis 9 with a pair of bearings.

 The static loading unit consists of a suspension 10 and a set of weights 11. A centrifugal vibrator 12 is located here, which receives rotation through a shaft 13 with elastic couplings 14 from an adjustable electric motor 15. The engine speed is controlled by a sensor 16 and a perforated ferromagnetic disk 17 mounted on an axis engine. The oscillation amplitude of the lower pulley is measured using a vibrometer and a sensor 18 mounted on the lever 8. To raise and lower the lower pulley together with the lever and weights, the pneumatic cylinder 19 is used. The test belt is scrolled by means of an electric motor 20 and an auxiliary belt drive 21.

 The tests are carried out in the following sequence. Using the pneumatic cylinder 19, raise the lever 8 with the lower pulley 7. Put the test belt 5 on the pulleys, after which the lever is lowered and the belt is freely suspended on the two pulleys.

где
E', E'' - соответственно вещественная и мнимая составляющие комплексного динамического модуля Юнга, МПа;
m - приведенная масса колеблющейся системы, кг;
l - расстояние между центрами испытательных шкивов с надетым ремнем, мм;
S - площадь поперечного сечения ремня, мм²;
n_р - значение резонансной частоты, мин^-1;
A - амплитуда динамической деформации ремня при резонансе, мм.The selection of weights 11 set the necessary static tension of the belt. The drive 20 is turned on, the belt is scrolled, and the vibration of the center distance of the belt is determined by the vibrometer, which makes it possible to judge the stability of its cross-sectional dimensions along the entire length. The actuator 20 is turned off and on the actuator 15, then, increasing the speed, observe the readings of the vibrometer. When the frequency of the natural oscillations of the belt and the frequency of the disturbing force of the vibrator coincide, a sharp increase in the amplitude of oscillations of the lower pulley is observed, the value of which, as well as the value of the resonant frequency, are fixed on the measurement unit. Elastic-dissipative characteristics are determined by the formulas:

Where
E ', E''- respectively, the real and imaginary components of the complex dynamic Young's modulus, MPa;
m is the reduced mass of the oscillating system, kg;
l is the distance between the centers of the test pulleys with a belt on, mm;
S is the cross-sectional area of the belt, mm ² ;
n _p is the value of the resonant frequency, min ^-1 ;
A is the amplitude of the dynamic deformation of the belt at resonance, mm

 Based on the totality of the quantitative characteristics obtained, a conclusion is drawn about the quality of the belt.

 The use of the stand according to this invention allows to ensure sufficient measurement accuracy of the elastic-dissipative properties of the belt and the stability of the dimensions of its cross section along the entire length, which increases the accuracy of evaluating the quality of the belts, provides a quantitative assessment of quality without destroying the latter.

Claims (2)

 1. A stand for non-destructive testing of drive belts, comprising two vertically arranged pulleys, a static loading unit, a force exciter and a unit for measuring the amplitude and frequency of oscillation of the lower pulley, characterized in that the upper pulley is kinematically connected to the drive through an additional gear, and the lower pulley is mounted on the end of the lever, the second end of which has a swing axis, and the excitation device is made in the form of a centrifugal vibrator, the movable support of which is mounted on the lever, and the eccentric the mass is connected through an intermediate shaft with elastic couplings with an adjustable drive.  2. The stand according to claim 1, characterized in that the lever is equipped with a lifting-lowering device.