SU1573366A1 - Apparatus for exciting non-axially-symmetric vibrations of cylindrical casing in hydrodynamic tests of open casing filled with liquid - Google Patents

Abstract

This invention relates to a testing technique. The aim of the invention is to improve the accuracy and informativeness of the test results, as well as reduce the size and weight of the device. The device comprises a fixed plate 1 and a movable plate 2, which is affected by a dynamic load pathogen. In the plates there are central holes, the diameter of which exceeds the diameter of the shell 3. Arched springs 4 and 5 are located and fastened to them. The plates are fixed perpendicularly to the plates rigid rods 6 and 7, fastened to the shell forming part. The springs 4 are installed by a bulge to the axis of the holes and are directly connected to the middle of the rods 6, and the springs 5 are installed by a bulge from the axis and are connected to the middle of the rods 7 by means of the pullers 8. and the springs 5 expand. When shifting upwards, the action of the springs 4 and 5 is reversed. Excited vibrations cause splashing of the fluid that is tested in hydrodynamic tests. The presence of holes in the plates and the absence of any structural elements of the device in the area of liquid spray ensures the achievement of the goal. 7 il.

Description

The invention relates to a test technique, namely, devices for exciting non-axisymmetric vibrations of a cylindrical shell during hydrodynamic tests of an open shell filled with a liquid.

The aim of the invention is to improve the accuracy and informativeness of the test results, as well as reduce the size and weight of the device.

In Fig.1 schematically shows the proposed device in Fig.2 is a cross section of the device in the plane of the springs set convexity to the axis of the holes in the plates; on fig.Z - section of the device in the plane of the springs j installed convexity from the axis; FIG. 4 shows a view of the device from above; FIG. 5-7 shows the shape of the shell oscillations depending on the number of stubbles at different times.

The device comprises a fixed plate 1 installed in horizontal planes and a movable plate 25 serving to interact with a pathogen (not shown) of a dynamic load, and formed with central holes with a diameter exceeding the diameter of the shell 3, arcuate springs connected to both ends 1 and 2 of the plates. 4 and 5 and fastened with the shell 3 along its forming rigid rods 6 and 7, which are arranged perpendicular to the plates b and 2 and are connected to the springs 4 and 5. The springs 4 are set with a bulge to the axis of the hole minutes and directly connected to the middle of the rod 6 and spring 5 are convex away from the axis and connected to the middle of the rod 7 by means of rods 8, casing 3 is filled with liquid.

The device works as follows.

When the dynamic load is acting downwards (arrows in Figures 2 and 3) on the plate 2, the springs 5 stretch the casing 3, and the springs 4 compress it. When the load is applied upwards on the plate 2, the action of the springs 4 and 5 is reversed. Thus, in shell 3, forced

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nonaxisymmetric oscillations of a given shape and frequency. Possible modes of oscillation of the shell 2 with a different number of rods 6 and 7 are shown in figure 5-7.

When the shell oscillates, the free surface of the liquid is perturbed, which leads to its splashing, which is investigated in hydrodynamic tests. The presence of holes in the plates 1 and 2, as well as the absence of springs 4 and 5 above the free surface of the liquid, allows to increase the accuracy and informativeness of the test results on the investigation of the dispersion of liquid splashes when vibrations in the shell 3 are excited.

Claims (1)

The holes in the plates 1 and 2 reduce the weight of the device and allow the plates 1 and 2 to close together, which leads to a reduction in the size of the device. Invention Formula A device for exciting axial-symmetric oscillations of a cylindrical shell during hydrodynamic tests of an open shell filled with liquid, containing a fixed plate installed in horizontal planes and a movable plate that serves to interact with a dynamic load activator, arched springs attached to the plates with their ends and bonded to the shell along its forming rigid rods, which are arranged perpendicular to the plates and connected to springs, characterized in that This, with the aim of improving the accuracy and informativeness of the test results, as well as reducing the size and weight of the device, the plates are made with central holes with a diameter greater than the shell diameter, both ends of each spring are connected to the plates, and a part of the springs is set to a bulge to the axis of the holes and directly connected to the middle of the rods, and the other part - a bulge from the axis and connected to the middle of the rods by t, FIG. FI.5 7