SU435535A1 - DEVICE FOR MODELING FLAT FLOWS - Google Patents

Description

one

The invention relates to the modeling of plane flows of a liquid, as well as gas and electric current on the EGDA integrators.

ZGDA integrators are known, consisting of a current source, a model of conductive paper, probes and measuring instruments. Graphic construction of characteristic lines of currents (isopotentials, lines of equal intensities or velocities, etc.) is carried out by finding the points of these lines on the model manually using probes and electrical measuring instruments.

The disadvantage of such devices is the impossibility of automatic reproduction of currents, as well as the considerable complexity of building the characteristic flow lines manually.

The aim of the invention is to expand the functionality of the EGDA integrator: automatic reproduction of characteristic flow lines without the use of measurement probes and the numerical evaluation of their parameters.

This is achieved by adding a film thermal indicator to an electrical model made from electrically conductive paper, which uses a layer of cholesterol type liquid crystals.

The drawing shows a diagram of the proposed device.

A device for visually studying flows consists of a model 1, a current source 2 and a milliammeter 3.

The model is assembled on a substrate 4 of an insulating material and consists of a sheet of electrically conductive paper 5, a nitrolac film 6 and a thermal indicator 7 in the form of a layer of cholesteric type crystals with a color temperature higher than room temperature.

The metal tires 8 contact the conductive paper and are used to connect the model to a power source.

A nitrolac film is applied to prevent diffusion of crystals into the mass.

paper.

When electric current is passed through electrically conductive paper 5, Joule heat is generated and it is heated. The amount of heat released depends on

current density, as it is different in different parts of the model, a temperature gradient is observed on the paper surface.

Cholesteric crystals, which are the thermal indicator of the field under study, change their color in a certain range of temperatures affecting them, so the model automatically exhibits a narrow spectrum in the form of lines of equal temperatures corresponding to the color temperature.

liquid crystals. Lines of equal temperatures on the paper surface correspond to lines of equal stresses (velocities), considered flows of liquids, gases, and electric current. Thus, on the surface of the model, characteristic flow lines of liquids, gases, and electric current are automatically reproduced without the use of probes and electrical measuring instruments. Changing the current in the integrator circuit, you can get a series of these lines.

The numerical evaluation of the lines reproduced automatically is made according to the magnitude of the current at which these color lines appear, measured with a milliammeter connected in series with the model. Numerical evaluation of the lines is performed in the same way as in existing integrators, in relation to

These values are relative to the magnitude of the current required to show the color line, taken as a unit, to the current that is required to show the desired line.

(Subject invention

A device for simulating flat fluid flows containing a power source connected to conductive tires of a model from an electrically conductive medium, wherein THAT, in order to expand the functionality of the device, there is a layer of nitrolac and a layer of liquid cholesteric crystals on the model of electrically conductive medium .

ABOUT