SU1573365A1 - Apparatus for investigating non-stationary aerohydraulic connection of objects in transverse flux - Google Patents

Abstract

The device makes it possible to increase the accuracy of characterization in the study of the unsteady aerohydrodynamic connectivity of objects, in particular, heat exchange elements in the transverse flow. In the working part of the aerohydrodynamic pipe 1, the objects under study 5 are placed. On the one hand, the exciter 2, which includes the drive 3, the base 4, and the vibration transmitting unit from the drive 3, are attached to the pipe 1 to the objects 5, consisting of an elastic element 6 and a roller 7 with an eccentric . On the opposite side of the pipe 1, there is an autonomous vibration exciter 10 mounted on a vibration-isolated base 15. A measurement element 12 is connected to the vibration exciter 10 by an elastic element 11. A through-hole 8 is installed perpendicular to the axis of the pipe 1 to be installed in the pipe 1 of a measuring object 12. On an elastic element 11 posted by the load cell. The vibration exciter 10 and the elastic element 11 with the measuring object 12 are mounted for movement in three mutually perpendicular directions. 1 hp f-ly, 1 ill.

Description

The invention relates to test equipment and can be used in the study of oscillations of various objects, in particular elements of heat exchangers in a cross flow.

The purpose of the invention is to improve the accuracy of characterization.

The drawing shows the proposed device.

A device for studying the unsteady aero-hydrodynamic connectivity of objects in a transverse flow contains the working part of the aero-hydrodynamic pipe 1, on one side of which is attached an array exciter 2, including drive 3, base 4 and a transmission unit of vibrations from drive 3 to the studied.-Objects 5, consisting of elastic element 6, mounted on the base 4, and a roller 7 with an eccentric located perpendicular to the upper platform of the crossbar of the elastic element 6 between its legs. The rollers 7 are connected to each other and the drive 3 by gears (not shown). The objects under investigation 5 are introduced into the working area of the pipe 1 through the windows 8.

On the opposite side of the pipe 1 there is an additional assembly 9 containing an autonomous vibration exciter 10, for example, an electrodynamic and elastic element 11 with a measuring object 12. A sensor 13, for example strain gauges, is placed on the lower part of the legs of the elastic element 11.

The elastic element 11 and the vibration exciter 10 are mounted with bolts 14 on a vibration-insulated base 15 and can move in a horizontal plane perpendicular to the axis of the working part of the pipe 1 along the groove 16. The vibration-insulated base 15 can be installed, for example, at least on two springs 17, which are adjusted bolts 18 having vertical movement are located on the platform 19. Platform 1 9 with a vibration-insulated base 15 can move in a horizontal plane perpendicular to the direction of the grooves 16. Lock int 20 serves for fixing the platform 19 with the vibration-isolated base 15 in position.

Research using the proposed device is as follows

4 'in the best way. An object 5 is selected, for example, a central one, whose unsteady aero-hydrodynamic connectivity needs to be determined, it is removed from the working part of the pipe 1 through the corresponding window 8, and a measuring object 12 is introduced into its place with the help of an additional node 9. Vibration exciter 10 excites vibrations of the measuring object 12 by mechanical drive 3 through a roller 7 with eccentrics, vibrations of objects 5 of the array under study are excited, 'and a flow of liquid or gas is supplied to the working part of the pipe 1 (the direction is shown by the arrow). I an array of objects 5 through the flow acts on the oscillating measuring object 12. The value of unsteady aerohydrodynamic connectivity resulting from this action is determined in accordance with the readings of the strain gauge 13. The position of the measuring object 12 is controlled by the gap of the windows 8 with a special probe (not shown) and a stop screw 20.

In a similar way, one of the objects 5 of the array is examined, setting in its place with the help of an additional node 9 a measuring 'object 12.

The use of the invention allows to significantly improve the accuracy of characterization by eliminating the mechanical connectivity between the oscillating studied array of objects 5 and the measuring object 12. Significantly expand the functionality by moving the measuring object to any point of the investigated array in the working part of the pipe 1 by vertical movement of the horizontal in two mutually perpendicular directions.

In addition, this device, due to the exception of mechanical connectivity between the measuring object 12 and the array, allows to obtain with high accuracy data for strength and structural calculations of objects 5 of real structures by establishing, for example, the optimal thickness of the tubes of heat exchangers, the distance between the tubes, the choice of material and geometry, identify objects experiencing the greatest unstable

1573365 6 stationary loads, identify the most unfavorable modes of operation, predict the warranty period.

’real estate construction’

Claims (2)

Claim 1. A device for studying the unsteady aero-hydrodynamic ₁ ^ connectivity of objects in a transverse stream, Containing the working part of the aero-hydrodynamic tube with objects located inside and an exciter, oscillations, including a drive, a base and ₁ vibration transfer unit from the drive to the objects, consisting of an elastic element and a roller with eccentric, characterized in that, in order to improve the accuracy of determining the characteristics, it is additionally equipped with an autonomous vibration exciter fixed to a vibration-insulated base and connected to the last elastic element with the measuring object, and in the pipe wall perpendicular to its axis, the main windows are made for installation in the measuring pipe of the object, while a strain gauge is placed on the elastic element of the vibration exciter. 2. The device according to claim 1, characterized in that the vibration exciter and the elastic element with the measuring object are mounted to move in three mutually perpendicular directions.