SU728021A1 - Device for determining hydrodynamic characteristics of models of damping ribs - Google Patents

Description

one

The invention relates to the field of experimental technology, in particular, to installations for the experimental determination of the hydrodynamic characteristics of models of damping ribs.

A known installation for hydrodynamic testing of models consisting of an annular basin and a test chamber with fixed dynamometric devices 1.

The disadvantage of this device is the limited measurement modes only by the stationary rotational motion of the fluid.

Closest to the present invention is an installation for determining the hydrodynamic characteristics of models of damping ribs, including a hydrodynamic channel, a multi-stage transmission mechanism, a support system, holders for fastening the model under study, force sensors and recording equipment 2.

The disadvantage of this setup is the limited measurement modes, as well as the inability to conduct research in conditions close to natural.

The aim of the invention is to expand the range of research and approximation of the experimental conditions to real ones.

The goal is achieved by the fact that in an installation for determining the hydrodynamic characteristics of models of damping ribs, including a hydrodynamic channel, a multi-stage transmission mechanism, a support system, holders for attaching the model under study, force sensors and recording equipment, the hydrodynamic channel is designed as a tank with interchangeable shells corresponding to the shape of full-scale capacitances, holders by means of force sensors connected to the model under study and fixed directly to the inner st nke mantle, a multistage gear is formed together with the bottom and the tank axis, and the support system is configured as a pneumatic radial-thrust poyshipnika, wherein the lower plane of the gear is podschipnika reference plane.

Claims (2)

FIG. 1 shows the proposed device; in fig. 2 - the same, top view; in fig. 3, 4 different variants of the movement of the hydridine of the muscular canal are shown. The installation consists of a tank 1 with a replaceable shell 2, holders 3 fixed on it, connected by sensors 4 to the studied damping rib model 5, apparatus 1) 6, axis 7 of the tank rotating in the pneumatic support 8, cable 9 connecting the tank with the drive 10 , springs 11 and a multistage transmission mechanism 12 with a pin. The installation works as follows. A drive 10 (for example, a kinematic shaker) through a cable 9, looping around the shchik 12 at the base of the tank, informs the tank 1 of a rotational-oscillating movement around the axis 7. The spring I serves to create a restoring force. The model of the damping rib 5, connected by means of the force sensor 4 to the holders 3, together with the shell oscillates with respect to the liquid filling the tank. The forces of resistance and inertia of the fluid acting on the model of the damping rib are sensed by the sensors 4 and transmitted in the form of an electrical signal to the apparatus 6 (amplifier, oscilloscope, analyzer, etc.). Testing models of damping ribs can be performed in forced oscillations at a given amplitude, when the drive (kinematic shaker) is connected directly to the cable, or at a given force, when the drive is a dynamic vibrator (Fig. 2) in the mode of free damped oscillations, when the cable ends through the springs are connected to fixed supports (fig. 3), and in the mode of stationary rotary motion when using a corresponding drive (fig. 4). A multi-stage transmission mechanism 12 in the base of the tank allows the oscillation amplitudes and the rotational speed to vary widely. tank. Thus, this device allows an experiment to determine the hydrodynamic characteristics of the models of damping ribs under conditions as close as possible to full-scale ones, when the ribs are fixed on the tank walls; does not require attachments for fastening the holders, as they are fastened directly to the wall of the tank, and free from the harmful effects of dry friction in the support unit; It has a wide range of oscillation amplitudes and allows you to determine both the frequencies of the damping coefficients, the inertial coupling coefficients and the moments of inertia, as well as the resistance coefficients and the added masses. Formula of the problem of installation for determining the hydrodynamic characteristics of the models of damping ribs, including a hydrodynamic channel, a multistage transmission mechanism, a support system, holders for attaching the studied model, force sensors and recording equipment, which is different in that conditions of the experiment to natural, hydrodynamic channel is made in the form of a tank. About interchangeable shells, corresponding in shape to full-scale containers, the holders are connected by force sensors to the model under study and fixed directly to the inner wall of the shell, the multi-stage transmission mechanism is made together with the bottom and the axis of the tank, and the support system is made in the form of a pneumatic radial-resistant support. , moreover, the lower plane of the transmission mechanism serves as the reference plane of the pinchworm. Sources of information taken into account during the examination 1. USSR author's certificate number 23114, cl. G 01 M 10/00, 1929. 2. USSR Author's Certificate No. 340926, cl. G 01 M 10/00, 1970 (prototype). Thebes. 2 -. ...,: .. , one | C; h -; - H “IJ- 728021