SU767540A1 - Apparatus for regulating jet profile - Google Patents

Description

The invention relates to devices for hydro-aerodynamic tests and can be used for graduation of converters of the velocity of fluid or gas flows. 5

A device for regulating the velocity profile of the jet pu. Thus, the harmonic movements of the test object over the flow [Ϊ].

The disadvantage of this device is J0 limited frequency range reproduced with its help ripple speed.

It is also known a device for regulating the profile of the jet, containing15 nozzle and means for regulating its flow area by transverse movement of one of the walls of the nozzle f2j. The disadvantage of this device is the low uniformity of the profile of 20 speeds at the nozzle exit.

The purpose of the invention is to increase the uniformity of the velocity profile for the cut nozzle. ''

This goal is achieved by the fact that the output part of the nozzle is made in the form of a series of elastic, strips of magnetic material, the space between which is hermetically filled, with elastic material> and the regulation device 30 is made of an annular, electromagnet placed around the annular part of the nozzle.

The drawing shows a diagram of a device for regulating the profile of the jet in relation to the stand for hydroaerodynamic tests.

The device contains a system 1 for supplying a working fluid or gas, a working section 2, including a nozzle 3 made of inlet and outlet sections 4 and 5, a chamber b for accommodating the test object, a diffuser 7 and a system 8 for removing the working fluid or gas. The split sections of the nozzle exit section are filled with elastic material 9, and ring electromagnets 10 connected to the current source 11 of variable amplitude and frequency are placed around the nozzle exit section.

The device operates as follows.

The flow of liquid or gas from the system 1 for supplying a working fluid or gas, flowing out of the nozzle. 3, forms in the chamber 6 of the working section a flooded stream flowing into the diffuser 7 of the working section. * The test object is installed at a small distance from the nozzle exit, where a uniform plot of the velocity distribution over the jet cross section is ensured.

To test an object under the influence of velocity pulsations, a variable is supplied to the electromagnets. voltage, between the electromagnets and the elements of the nozzle exit section, a magnetic interaction arises, causing them to bend, and consequently, a change in the cross-sectional area, which leads to a change in speed at the installation site of the object. The frequency of the generated ripples and their amplitude are regulated respectively by the frequency and amplitude of the alternating voltage supplied to the electromagnets.

The cutting sections of the nozzle exit section are filled with elastic material so that the jet does not crush. The speed value can be controlled by the pressure drop across the nozzle, which is certified by exemplary speed sensors.

Claims (2)

distance from the nozzle section, where a uniform plot of velocity distribution over the jet section is provided. To test the object under the conditions of the velocity pulsations, an alternating voltage is applied to the electromagnets between the electromagnets and the elements of the nozzle exit section, magnetic interaction occurs, causing them to bend and, therefore, change the cross-sectional area, which leads to a change in velocity at the installation site. The frequency of the generated pulsations and their amplitude are regulated, respectively, often by the amount and magnitude of the alternating voltage applied to the electromagnets. The cut sections of the nozzle exit section are filled with an elastic material so that the jet does not break up. The magnitude of the velocity can be controlled by the pressure drop on the nozzle, which is certified by exemplary speed sensors, and. Apparatus for regulating a jet profile containing a nozzle and means for adjusting its flow area, characterized in that, in order to improve the uniformity of the velocity profile at the nozzle cut, the nozzle exit portion is made in the form of a series of other magnetic material between which the space is hermetically filled , elastic material, and the control device is made of an annular electromagnet placed around the annular part of the nozzle. Sources of information taken into account in the examination 1.Gudkin B.G. and others. Works metr7 logical institutions of the USSR. Get one 157, 1975, p. 122-127. 2. USSR author's certificate number 514219, cl. G 01 L.27 / 00, 1976 (prototype). X