RU1779967C - Method of testing articles for effect of vibration - Google Patents

Abstract

Usage: testing of products for vibration resistance and vibration resistance. Essence: during the test, vibration is measured at several points located close to the attachment points, and the standard vibration is set by the signal of the control vibration transducer (B1 / 1P). If the distribution level exceeds the acceptable level by the uneven distribution coefficient, the rigidity of the product mounting device on the bench table is changed. When using a device with a changed stiffness, a VIP installed at the point at which the said unevenness coefficient exceeded the allowable value was used as a control. 4 ill. U

Description

The invention relates to methods for testing products for vibration and can be used in testing instruments, components and assemblies for vibration resistance and vibration resistance in aircraft and mechanical engineering.

A known method of testing products for vibration, namely, that the test product is attached to the table of the test bench by means of a device whose resonant frequencies lie above the upper limit of the frequency range of the normative vibration, set the normative vibration, and to verify that the resonance frequencies of the device are higher the upper limit of the frequency range of normative vibration and.

It is known to test products against vibration in that the tests are carried out using two devices of different stiffness, selected so that the lower boundary of the resonance range of the device having greater rigidity is higher than the upper limit of the resonance range of the device having lower rigidity, install the test product on a vibrating table by means of a device having

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greater rigidity, and it is affected by vibration in the frequency range from the lower boundary of the normative frequency range to the lower boundary of the resonance range of this device, then the test product is mounted on a vibrating table with a device having lower rigidity and exposed to vibration in the frequency range from the lower boundary resonance range of a device having greater rigidity to the upper limit of the normative frequency range.

Closest to the technical nature of the present invention is a method of testing products for vibration, in which the test product is mounted on the table of the test bench by means of a device, at several points located near the mounting points of the product, vibration transducers are placed, at the signal of one of which , control, set the standard vibration, determine the spread of vibration levels, and, if the coefficient of uneven distribution of the vibration level in Which any of the viewpoints of the vibration measuring transducers exceeds the allowable value, alter the rigidity fixture and determining the scatter levels of vibration modified tool.

The disadvantage of this method is that when determining the variation in vibration levels of the modified device, a vibration measuring transducer installed at a point at which the uneven distribution coefficient of the vibration level exceeded the permissible value before the change in the rigidity of the device is not used as a control vibration transducer.

The aim of the invention is to increase the accuracy of tests.

The goal is achieved in that when determining the variation in vibration levels of the modified device, a vibration measuring transducer installed at a point at which the uneven distribution coefficient of the vibration level exceeded the permissible value is used as a control device.

The essence of the method lies in the fact that the test product is mounted on the table of the test bench by means of a device, vibration measuring transducers are placed at several points located near the fastening points of the product, the signal of one of which, the control, sets the standard vibration, determines the spread of levels

vibration and, if the coefficient of uneven distribution of the level of vibration at any of the points of installation of vibration transducers exceeds the permissible value, change

0 rigidity of the fixture and determine the variation in vibration levels of the modified fixture; while determining the variation in vibration levels of the modified fixture as

5 of the control, a vibration measuring transducer is installed at a point at which, prior to changing the rigidity of the fixture, the coefficient of uneven distribution of the vibration level exceeded the permissible value.

Distinctive features of the invention is the use, as a control, vibration measuring

a transducer installed at a point in

5 which, before the rigidity of the fixture changes, the coefficient of uneven distribution of the vibration level exceeded the permissible value.

Figure 1 shows the device

0 with the tested product and vibration transducers at points A, B, C with the location of the control vibration transducer at point C: in Fig. 2, a device with a changed rigidity and a new position of the control vibration transducer at point B (in which, before changing the rigidity of the device the uneven distribution coefficient of the vibration level exceeded the permissible value); Fig. 3 - amplitude-frequency characteristics at points A, B, C of the device depicted in Fig. 1; figure 4 - amplitude-frequency characteristics at points A, B. With

5 fixtures with a changed stiffness and a new position of the control vibration transducer.

The method is carried out as follows.

0 Test product 1 (valve) is mounted on the table of test bench 4 by means of a device (consisting of rack 2 and prism 3). At point C of the fixture (rack 2) place the control

5 vibration transducer 5, which set the standard vibration. On the device (prism 3) place additional vibration transducers 6, 7 in the places of direct mounting of the product 1 to the device

(prism 3). The test bench 4 table is energized in the standard frequency range and the readings of vibration transducers 5, 6, 7 are recorded (Fig. Z. curves K, L. M). where curve K is the frequency response of the device (rack 2) at point C; curve L is the frequency response of the device (prism 3) at point A; curve M is the frequency response of the device (prism 3) at point B.

The dispersion of the vibration level and the coefficient of uneven distribution of the vibration level at the installation sites of the vibration measuring transducers 5, 6, 7 (points A, B, C) are determined. If the coefficient of uneven distribution of the vibration level at any of the points of installation of the vibration measuring transducers 5, b, 7 exceeds the permissible value (Fig. 3, curve M), the rigidity of the device is changed, a vibration measuring transducer installed at the point at which before the rigidity of the fixture changes, the coefficient of uneven distribution of the vibration level exceeded the permissible value (point B, Fig. 3, curve M) and the tests are again carried out to remove the amplitude-frequency characteristics of the fixture with modified stiffness (Fig. 4, N. P, Q curves). Here, curve N is the amplitude-frequency response of a fixture with a modified stiffness at point C: curve P is the amplitude-frequency response of a fixture with a changed stiffness at point A: curve Q is the amplitude-frequency response of a fixture with a changed stiffness at point B.

Example. Valve 1 was tested according to the proposed method in the frequency range 20-1280 Hz. On prism 3 at point B, an excess of the level of vibration acceleration and an uneven distribution coefficient of the level of vibration acceleration was found to be more than 2 times higher than the specified one (Fig. 3, curve M). The rigidity of the device was changed (Fig. 2): the configuration of the prism 3 and the number of mounting points of the prism 3 to the rack 2. As a control vibration transducer (by which signal vibration is set), a vibration transducer 7. mounted on the prism 3 at point B (i.e. . at a point at which an excess of the level of vibration acceleration and a coefficient of uneven distribution of the level of vibration acceleration compared to a specified one was detected), standard vibration in the frequency range was excited

20-1280 Hz. During the test, the readings of vibration transducers 5, b, 7 were recorded (Fig. 4, curves N, P, Q). The dispersion of the vibration level and the unevenness of the distribution of the vibration level at the points of installation of the vibration measuring transducers 5, b, 7 at points A, B, C of the device with a changed stiffness were determined. Vibration level and distribution coefficient

the vibration level at the installation sites of the measuring transducers did not exceed the specified values.

Changing the rigidity of the device and the location of the control vibration transducer at a point at which, prior to changing the rigidity of the device, the coefficient of uneven distribution of the vibration level exceeded the permissible value, provides more

uniform distribution of vibrations acting on the test article.

Claims (1)

SUMMARY OF THE INVENTION A vibration testing method for products, whereby the test product is mounted on a test bench table by means of a device, at several points located near the fastening points of the product, vibration transducers are placed, the signal of one of which, the control, sets the standard vibration, the spread is determined vibration levels and, if the coefficient of uneven distribution of the vibration level at any of the points of installation of vibration measuring transducers The number of bars exceeds the permissible value, the rigidity of the fixture is changed, and the variation in vibration levels of the modified fixture is determined, which means that. in order to increase the accuracy of tests due to a more uniform distribution of vibrations acting on the test article, when determining the variation in vibration levels of the modified device, a vibration transducer installed at a point at which, prior to the change in stiffness, is used as a control of the device, the coefficient of uneven distribution of the vibration level exceeded the permissible value. FIG. 4