SU1399654A1 - Bed for comprehensive testing of objects for effect of linear and vibratory accelerations - Google Patents

Abstract

This invention relates to a testing technique. The purpose of the invention is to test the object when exposed to two component vibration. This is achieved in that the frame 3 is mounted on the platform 1 with a rotational drive so that the device for creating vibration passing through the frame is radially located from the center of the platform to the periphery. The object 10 is mounted on a table 8 located inside the frame 3. The table is suspended on shock absorbers 4 and mounted on a vertical ball bearing. The vibrations are transmitted to the table through the flexible shaft 13, passing shy through the bearing supports 11 on which the table rests. The drive shaft 14, mounted on platform I, informs the flexible shaft. Vibrations are created due to the effect of the incident flow force on the blade 15, which is connected to the flexible shaft. The amplitude of the vibration is adjusted with the help of a spinner, moving it along the axis of the flexible shaft. The frequency of vibration is changed by adjusting the speed of rotation of the blade. 2 Il. (Oh (L

Description

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This invention relates to test benches.

The purpose of the invention is to test the impact of two-component vibration accelerations on an object.

This goal is achieved by the fact that the frame with the table and the object mounted on it, as well as the device for creating vibration, are located on the platform in such a way that when the rotational drive | which is included in the device for creating vibration is operating | tion, due to the force of the incident flow acting on the blade of the same device. two-component oscillations are created, adjustable in frequency and amplitude. I FIG. 1 shows the scheme of the stand of the complex ICHbix testing of objects for the effect of linear and vibration accelerations; in fig. 2 is a view A of FIG. one.

The bench for complex testing of objects for the effects of linear and vibration accelerations includes a platform 1 rigidly fixed on an axis 2 connected with a drive (not shown). On platform 1, a frame 3 is mounted, in which a shock absorber 4-7 (there may be more of them) hangs a table 8 with a vertical wall 9 fixed on it and an object of test 10, a table 8 on support roller 11 and 12 rests on a flexible shaft 13 associated with the rotational drive 14. A blade 15 is fixed on the free end of the flexible shaft 13. A ball bearing 16 is mounted on the frame 3 and a translation mechanism 17 is mounted, which interacts with a choke J8 on which the fairing 19 is fixed. It is stopped in front of the blade 15 in the direction of rotation of the platform 1. Mechanism 17 provides a translational movement of the Radome 19 in the radial direction.

The actuator 14 has a variable speed of the shaft rotation, which is controlled by instruments of the control panel (not shown).

The control panel also contains control devices for the drive of the platform, as well as devices for monitoring test modes, which are signaled from sensors installed at the test object (not shown).

Stand for complex dynamic tests works as follows.

On the table 8, the test object 10 is secured. The sensors of linear and vibration overloads are installed at given points.

The adjustment of the shock absorbers 4-7 is indicated in the frame 3 by the table 8 so that it is located in the horizontal plane at the level of the axis of the drive 14 (if necessary, the drive 14 is lowered or Raised, changing the height of the stand). In this case, the wall 9 should be slightly pressed against the ball support 16. The support 16 ensure

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Moves the movement of the table 8 when the vibration. With the help of the mechanism pushing the fairing 19 in the desired position. The platform drive is turned on and given a predetermined rotational speed. At this, the test objects are subjected to linear overloads.

The actuators 14 are turned on and the given rotational speeds of the blades 15 are set. With the help of the mechanisms 17, the fairings 19 are set to the predetermined positions in which they partially open the blades 15.

Due to the impact of the incident flow on the rotating blades, an aerodynamic force arises, the horizontal component of which periodically changes from zero (with the horizontal position of the blades 15) to the maxima (with the vertical position of the blades 15) and displaces the table 8. The vertical component aerodynamic strength changes not only its magnitude from zero to maximum, but also the direction (up and down), giving the table with the object of test an oscillatory motion in the vertical plane. In this case, the table slides along the ball bearing 16. Thus, the test object is subjected to complex dynamic loading under the action of horizontal centrifugal force and vertical harmonically changing its magnitude and direction of the aerodynamic force, i.e. the object is simultaneously affected by linear overloads horizontal plane and vibration in the vertical plane.

The magnitude of the linear overload is changed by adjusting the rotational speed of the platform. The vibration frequency is changed by adjusting the speed of rotation of the blades. A. The vibration amplitude is varied by moving the cowl 19. In this case, the effects on the oscillation amplitude and the speed of rotation of the platform are taken into account.

The frame with the test object is installed by balancing the counterweight m or other frame so that the center of gravity of the whole system is on the axis of the platform. It is possible to install several pairs of frames with test objects at different distances relative to the center of gravity.

Since the control of the fairing and blades for each test object is autonomous, they can simultaneously be tested in different modes. Only the ratio of the linear overloads acting on them, proportional to the distance of the objects from the axis of rotation of the platform, remains unchanged.

Ultimately, this leads to an increase in the functionality of the stand.

Claims (1)

Invention Formula A stand for complex testing of objects for the effects of linear and injected accelerations, containing a rotational drive platform, a table for securing the test object, a vibration device installed on a platform, characterized in that, in order to carry out tests when the object is subjected to two-component vibration acceleration, it is provided with a frame located on the platform, inside of which a table is suspended on shock absorbers, and a table ball mounted vertically mounted between the table and the frame , furthest from the axis of rotation of the platform, and the device for. Vibration is made in the form of a blade, radially mounted on the periphery of the platform, a drive for rotating the blade, located in the central part of the platform, and connecting the drive to the blade of the flexible shaft, on which a table is mounted through the bearings. In hell/