RU2327965C1 - Process of three-component vibration reproduction - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: process of three-component vibration reproduction for a test object with assistance of one vibroexciter creating vibration acceleration along its axis. Amplitude of acceleration to be created is calculated by the formula

where n₁, n₂ and n₃ are given components of vibration acceleration vector in the central orthogonal axes of test object. Acceleration is transmitted by the central orthogonal axes of test object with the help of a platform, the base surface of which holds test object fasteners and forms dihedral angle

with the base surface of fixation to vibroexciter stand, while the test object is fixed to the platform so, that one of the object's central coordinate axes coincides with vibration acceleration direction

and forms an angle

.

EFFECT: higher accuracy of test mode reproduction; simplification of vibration test procedure and reduction of necessary number of tools.

1 dwg

Description

The invention relates to the field of vibration testing of structures, and specifically to methods for reproducing three-component vibrations.

Known adopted for the prototype method of exciting vibrations along three orthogonal axes - and.with. USSR No. 849030, class G01M 7/00, based on the simultaneous excitation of vibrations by several vibration exciters, each of which creates a unidirectional vibration and transmits it to the test object through a platform having a base for connecting to the vibration exciter table and a base with nodes for mounting the test object. These bases are parallel.

The essential features of this method, which coincide with the essential features of the proposed technical solution, are the creation of unidirectional vibration accelerators by the vibration exciter and their transfer to the test object by means of a platform having a base for connecting to the vibration exciter table and a base with nodes for mounting the test object.

The disadvantages of the method adopted for the prototype include the difficulty in obtaining the required accuracy in reproducing test modes associated with the inevitably non-identical vibration exciters and intermediate connection nodes causing phase shifts between orthogonal vibration components, the need to create a synchronous control system for several vibration exciters, the complexity of which grows with the growth of the upper range of reproducible vibrations, the complexity and cumbersome design of stands that implement three impact-component.

This technical solution is aimed at creating a method for reproducing three-component vibrations on a test product using a single vibration exciter that creates vibration accelerations along its axis, which makes it possible to increase the accuracy of reproducing test modes, eliminate the need to create a synchronous control system for several vibration exciters, simplify the vibration test procedure, and reduce the set of equipment used.

, где n₁, n₂ и n₃ - заданные в центральных ортогональных осях объекта испытаний компоненты вектора виброускорений, и передают по центральным ортогональным осям объекта испытаний при помощи платформы, плоскость основания которой с узлами для крепления объекта испытаний образует с плоскостью основания для соединения со столом вибровозбудителя двугранный угол

, при этом объект испытаний закрепляют на платформе так, что одна из центральных координатных осей объекта, совпадающая с направлением виброускорений

, образует угол

.To achieve the technical result in the method for reproducing three-component vibrations, which consists in creating unidirectional vibration accelerators by the vibration exciter and transferring them to the test object by means of a platform having a base for connecting to the vibration exciter table and a base with nodes for mounting the test object, vibration accelerations are created with an amplitude determined by the formula

where n ₁ , n ₂ and n ₃ are the components of the vibration acceleration vector defined in the central orthogonal axes of the test object and are transmitted along the central orthogonal axes of the test object using a platform, the base plane of which with the nodes for mounting the test object forms with the base plane for connection with exciter table dihedral angle

while the test object is fixed on the platform so that one of the central coordinate axes of the object coincides with the direction of vibration acceleration

forms an angle

.

, где n₁, n₂ и n₃ - заданные в центральных ортогональных осях объекта испытаний компоненты вектора виброускорений; виброускорения передают (разлагают) по центральным ортогональным осям объекта испытаний при помощи платформы, плоскость основания которой с узлами для крепления объекта образует с плоскостью основания для соединения со столом вибровозбудителя двугранный угол

; объект испытаний закрепляют на платформе так, что одна из центральных координатных осей объекта, совпадающая с направлением виброускорений

, образует с ребром двугранного угла угол

.Distinctive features of the claimed method are the following - vibration acceleration is created with an amplitude determined by the formula

where n ₁ , n ₂ and n ₃ are the components of the vibration acceleration vector specified in the central orthogonal axes of the test object; vibration accelerations are transmitted (decomposed) along the central orthogonal axes of the test object using a platform, the base plane of which with nodes for mounting the object forms a dihedral angle with the base plane for connection to the table of the exciter

; the test object is fixed on the platform so that one of the central coordinate axes of the object coincides with the direction of vibration acceleration

forms an angle with the edge of the dihedral angle

.

Due to the presence of the indicated distinctive features, together with the known features (prototype), the following technical results are achieved: the three-component vibrations specified in the central orthogonal axes of the object are reproduced by any one-component vibration exciter, the three-component vibration is simplified and the reproduction accuracy is increased, the possibilities of one-component vibration stands are expanded, and the capabilities of one-component vibration stands are expanded, and set of equipment used, test design simplified about the stand, the control system is simplified, energy saving is increased, test time can be reduced to a minimum.

The proposed solution can find application in instrumentation, engineering and other industries where it is necessary to check products for resistance to flat and spatial mechanical stresses.

The proposed technical solution is illustrated by the drawing.

The drawing shows a vibrating stand containing a platform 1 made in the form of a rectangular prism with a base 2 for connecting to the table 3 of the vibration exciter 4 and the base 5 with nodes for mounting the test object 6.

и

и амплитуду виброускорений вибровозбудителя

. Изготавливают (или регулируют имеющуюся) платформу так, чтобы ее основание с узлами для крепления объекта испытаний образовывало с основанием для соединения со столом вибровозбудителя двугранный угол

, а узлы для крепления объекта испытаний позволяли закреплять объект так, чтобы одна из его центральных координатных осей, совпадающая с направлением компоненты виброускорений

, образовывала с ребром двугранного угла угол

. Платформу устанавливают и закрепляют на столе вибровозбудителя. Объект испытаний устанавливают на платформу. Вибровозбудителем вдоль его рабочей оси создают виброускорение с амплитудой n.The proposed method is implemented as follows: prior to testing the components of spatial vibration n ₁ , n ₂ and n ₃ determine the angles

and

and the amplitude of vibration acceleration of the exciter

. Make (or adjust the existing) platform so that its base with nodes for mounting the test object forms a dihedral angle with the base for connecting to the exciter table

, and the nodes for mounting the test object made it possible to fix the object so that one of its central coordinate axes, coinciding with the direction of the vibration acceleration component

formed an angle with the edge of the dihedral angle

. The platform is installed and fixed on the table of the vibration exciter. The test object is installed on the platform. Vibration exciter along its working axis create vibration acceleration with amplitude n.

и

, свойственной режиму автомобильного транспортирования, платформу стенда выполняют с углами θ=45° и φ=39,5°, а вибрации вдоль рабочей оси вибровозбудителя воспроизводят с амплитудой виброускорений n=1,32 g.In the particular case, for example, for the ratio of the components of spatial vibration

and

characteristic of the mode of automobile transportation, the stand platform is performed with angles θ = 45 ° and φ = 39.5 °, and vibrations along the working axis of the vibration exciter are reproduced with an amplitude of vibration acceleration n = 1.32 g.

Claims (1)

A method for reproducing three-component vibrations, which consists in creating unidirectional vibration accelerators by the vibration exciter and transferring them to the test object by means of a platform having a base for connecting to the vibration exciter table and a base with nodes for mounting the test object, characterized in that the vibration accelerations are created with an amplitude determined by the formula

where n ₁ , n ₂ and n ₃ are the components of the vibration acceleration vector defined in the central orthogonal axes of the test object and are transmitted along the central orthogonal axes of the test object using a platform, the base plane of which with the nodes for mounting the test object forms with the base plane for connection with exciter table dihedral angle

while the test object is fixed on the platform so that one of the central coordinate axes of the object coincides with the direction of vibration acceleration

forms an angle with the edge of the dihedral angle

.