SU1206823A1 - Device for simulating three-dimensisonal homogeneous flows - Google Patents

Abstract

The device can be used to solve the problems of aerohydrodynamics. The invention allows to increase accuracy and speed due to the possibility of simultaneous setting of constant and variable angles of flow incidence. The device contains a block for specifying the components of a three-dimensional flow, a block for specifying constant flow angles, and a block for specifying variable flow angles. 1 hp f-ly, 2 ill. to about Oi СХ) ND СО

Description

one

The invention relates to analog computing, is intended to simulate three-dimensional homogeneous flows, and can be used to solve problems of aero-hydrodynamics.

The purpose of the invention is to increase accuracy and speed.

FIG. 1 shows a block diagram of the device, FIG. 2 is a block diagram of the task of the components of a three-dimensional stream.

The device contains rods 1 - 3 magnetic cores, windings 4-6 inductances, model of a streamlined body 7, measuring induction sensors 8 control three-component induction sensor 9, registration unit 10, BSD 11 specifying three-dimensional flow components, containing ultrasonic frequency generator 12, respectively, first The second and third matching amplifiers 13-15, respectively, the first, second and third blocks 16-18, form a signal phase, respectively the first, second and third amplitude-phase-inverting knobs 19-21, switch readers 22-24, sources 25-27 DC, block 28, assigning constant flux measurement angles, block 29, assigning variable angles of flux incidence.

The device works as follows.

When solving problems, the hydrohydromechanics include an ultrasonic frequency generator 12, from which a sinusoidal signal is fed to three identical chains consisting of matching amplifiers 13-15 blocks 16-18 and amplitude-phase-inverters 19-21. Through matching amplifiers 13 - 15, having high impedance input resistances, are produced by separating the syringes to eliminate mutual interference. In blocks 16-18, the phases of the transmitted signals are set to be the same, since phase differences are possible due to the presence of non-linear elements in the electrical circuits. From the outputs of the blocks 16-18, the signals are fed to the information inputs of the amplitude-phase-inverse controllers 19-21, in which, when the polarity of the control signal Uy is applied to their control inputs 068232

current, the phase of the load current at the output changes by 180, and an increase in the absolute value of the signal U leads to an increase in the amplitude of the signal at output. The bias inputs of the amplitude-phase-inverse regulators 19-21 are supplied, respectively, plus and minus the respective sources of constant voltage. The signals Uy to the process control inputs of the regulators 19-21 are supplied via the moving contacts of the two position switches 22-24. The sinusoidal signals of the ultrasonic frequency

15 from the outputs of the regulators 19-21 are supplied respectively to the windings 4-6 of the inductance of the magnetic cabin, in which a translational-circulation magnetic flux is created. This

20, the flow does not penetrate into the model of the streamlined Body made of a diamagnet due to surface currents induced by the flow, but flows around the model like a flow of an ideal fluid. The flux incidence angle to the model will depend on the amplitudes and phases of the currents flowing in the windings of the inductance. The block 28 is designed to set constant angles of incidence.

30 flow, and block 29 is intended to set variable angles of flow incidence.

By varying the stationary and nonstationary flow parameters with the power of these blocks 28 and 29, the device allows simulating any nonstationary flows that flow around the model under study.

Application of the proposed device40

It provides an opportunity with greater accuracy and with improved speed in comparison with the known devices to conduct studies of unsteady flow around the bulk models, which expands the solution of the range of aerohydromechanics problems.

Claims (1)

Invention Formula g A device for simulating three-dimensional homogeneous streams, containing a block for specifying components of a three-dimensional stream, consisting of three amplitude-phase-inverters controllers and three blocks for forming a signal phase, three matching amplifiers and an ultrasonic frequency generator, the output of which is connected 3 to the inputs of the first, third and third matching amplifiers, a model of a streamlined body made of a diamagnetic, magnetic circuit made in the form of three mutually perpendicular rods of a magnetic metal, on each of the rods is an inductance winding, the first terminals of all windings of the inductance are connected to the bus the zero potential, the second terminals of the inductance windings are connected to the outputs of the corresponding amplitude-phase-inverse regulators, the register unit, the first and second measuring induction modules The ticks, the outputs of the torpedoes are connected respectively to the first and second inputs of the registration unit, the control induction sensor whose output is connected to the third input of the registration unit, each rod of magnetic conductor material is made in the form of a three-section parallelepiped, the outer sections of the parallelepiped are solid, and the internal - hollow and in the center of them a model of a streamlined body is placed, characterized in that, in order to increase accuracy and speed, a block of assigning fixed angles of incidence is entered in it 823 current, the unit for setting variable angles of flux, and the unit for specifying the components of the three-dimensional flow are three constant-voltage sources and three switches, a pair of outputs each of which are connected to a pair of flow control inputs of the first, second and third amplitude-phase-inverted 10 controllers, the outputs of the first, second and third matching amplifiers are connected to the inputs of the first, second and third signals, respectively, of the phase shaping units, the outputs 15 of which are connected to the information inputs of the itepBoro, respectively, of the second and third amplitude-phase-inverters regulators, pairs of bias inputs each of which are connected to 20 a pair of outputs of the corresponding source of constant voltage, the first, second and third pairs of outputs of the block for setting the steady flux angles are connected to the first pairs of information inputs of the first, second and third switches respectively, the second pairs of information inputs of which are connected respectively to the first, second and 30 third pair of block outputs for setting variable angles of flux incidence. Fut