SU1791742A2 - Device for exciting two-component oscillations in one-component vibration exciter - Google Patents

Description

The invention relates to vibration technology, can be used in stands for vibration testing from? Li is an improvement on the invention by ed. testimonial. No. 1698663. 5

A device is known for exciting two-component vibrations on a one-component vibration exciter, comprising a platform for the test product, mounted on a vibration exciter table with the possibility of joint movement along the axis of action of the vibration exciters relative movement in the perpendicular direction, and a mechanism for converting table vibrations into 15 perpendicular platforms. including a two-arm lever, one shoulder of which is connected to the table, and a rod connecting the second shoulder of the lever with the platform. _. . 20

According to the main invention, there is known a device for exciting two-component vibrations on a one-component vibration exciter, comprising a platform for installing the test product, oscillation installers of the platform connected to the plates.

Figure 1 shows a device for exciting two-component oscillations on a single-component vibration exciter, front view; figure 2 is the same, left view.

The device comprises an oscillation conversion mechanism having two resonators 1 in the form of cantilever beams rigidly connected to the opposite ends of two plates 2, pivotally mounted using axles 3 in the struts 4 of the housing 5 and located parallel to the axis of action of the vibration exciter. The resonators 1 are placed outside the housing 5 perpendicular to the plates 2, which are pivotally connected through the axis 6 with the platform 7, made in the form of a resonating beam with adjustable natural frequency and installed with the possibility of joint movement with the table of the vibration exciter (not shown) along the axis of action of the latter and relative movement 25 in the perpendicular direction and served with the possibility of joint movement with the table of the vibration exciter along the axis of action of the last and relative movement perpendicular direction, fastened on the table body and a converting mechanism section fluctuations in oscillation perpendicular to them platfor.my configured in the form of two plates hingedly svyazannyhkontsami housing; and located parallel to the axis of action of the vibration exciter, and two resonators in the form of cantilever beams with installation-movable weights placed on the outside of the housing perpendicular to the plates and rigidly connected to opposite ends, plates, and the platform is pivotally connected to the mid-spans of the plates.

A disadvantage of the known device is a narrow range of reproducible horizontal oscillation components,

The aim of the additional invention is to expand the operational 'capabilities of the device by increasing the horizontal component of the vibrations.

This is achieved according to the invention due to the fact that the natural frequency of bending vibrations of the plates lies in the range of natural frequencies of oscillations of the resonators. Under the specified condition for choosing the natural frequency of the plates that distinguishes the invention., There is an increase in their dynamic deflection due to resonance, which leads to an increase in the horizontal component for fixing the subject products (not shown) on the protrusion 8. A movable load is installed on each resonator 1

9, fixed by a screw 10. In the racks 4, slots 11 are made to increase the amplitude of oscillations of the plates 2, and holes 12 are provided in the housing 5 for fixing it to the table of the vibration exciter. The pins 13 are used to attach the resonators 1 to the plates 2,

A device for exciting two-component oscillations on a one-component vibration exciter works as follows.

After fixing the exciter on the table, tincture the device, for which the loads 9 are installed close to the racks 4 of the housing 5 and fixed with screws

10, and a load is placed on the protrusion 8 of the platform 7, the weight of which is equal to the weight of the device with the test product. Set the excitation frequency equal to the natural frequency of the platform 7, and a given amplitude of acceleration of the table of the exciter. In this case, the platform 7 vibrates in a vertical plane. Then, the natural frequency of the bending vibrations of the plates 2 is determined and the excitation frequency is set equal to it. Due to the vibrations of the resonators 1, the resonance vibrations of the plates 2 are excited. In this case, the platform 7 is moved in a horizontal plane. Then the loads 9 are moved along the resonators 1, during which the created by them increases at one of the excitation frequencies and the second frequency is adjusted. Excitation to the natural frequency of the plates 2, the product will oscillate in the vertical and horizontal directions also with different clock-bending moment acting on the plates 2. As a result, the deformation of the plates 2 increases and the resonant frequency of the resonators 1 decreases. When the specified amplitude of oscillations is reached, the loads 9 are fixed with screws 10. The maximum vibration amplitude th plates 2 are obtained by tuning the resonant frequencies of the resonators 1 to the resonant frequency of the plates. To do this, initially move one of the loads 9 and fix it when the plates 2 reach the maximum amplitude of oscillation. Then move the second load 9, while the amplitude of the oscillations will increase. When reaching the maximum value of the amplitude of the second load 9 is fixed. .

After setting up the device, change the load on the fixture with the tested product, fix the fixture 'on the protrusion 8 20 of the platform 7 and turn on the vibration exciter, implementing the test program. When applying biharmonic effects to the device, setting the natural frequency of the platform 7

7?

⁵ 'totems. ''

When tuning the eigenfrequencies of the resonators 1 to the eigenfrequency of the plates 2, they obtain the maximum oscillation of the platform 7 in the horizontal plane. This ensures the expansion of the operational capabilities of the device. . ''

Claims (1)

Claim A device for exciting two-component oscillations on a one-component vibration exciter according to ed. St. No. 1698663. It is noteworthy that, in order to expand operational capabilities by increasing the horizontal component of vibrations, the natural 'frequency of bending vibrations of the plates' lies in the range of natural frequencies of vibration of the resonators. '· /' ¹ '. FIG. 2