SU1285330A2 - Arrangement for studying quette flow of liquid - Google Patents

Abstract

The invention relates to a device for the investigation of the Kouette fluid flow and is an additional invention to the basic invention according to the author. No. 519606. The purpose of the invention is to improve the accuracy of the determination of flow parameters. An axially symmetric disk 6 mounted on the shaft 7 coaxially with the disk 1 is located in the cavity 5 of the vessel. On the planes of the disk 6, hollow thin-walled cylinders 10 and 11 are mounted. The cylinders 10 and 11 isolate the liquid rotating in the annular gap from the gas space inside the disk 1, which prevents its self-emission. I il. cl

Description

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The invention relates to the measurement of parameters of fluid flow, namely, the installation for the investigation of the Kouette fluid flow, and is an improvement of the installation according to the author. No. 519606.

The purpose of the invention is to increase the accuracy of flow parameters determination.

The drawing shows an installation for the investigation of the Kouette fluid flow.

The installation for the investigation of the Kouette fluid flow contains a container made in the form of a hollow separable disk 1 mounted on shaft 2 in bearings 3. At the end of shaft 2 there is a pulley 4, which serves to drive the disk 1 to rotate or to measure the torque on it when it is stopped.

In the cavity 5 of the container is located the body, telling the movement of fluid. This body is made in the form of a solid axisymmetric disk 6 mounted on shaft 7 in bearings 8 coaxially with disk 1. Pulley 9 is located at the end of shaft 7, the function of which is similar to pulley 4. On two planes of axisymmetric disk 6 there are two hollow thin-walled cylinders 10 and 11 coaxially with the shaft 7, each of them with one, the base fixedly mounted on the disk 6. The other bases of the cylinders rotate in special grooves 12 made in the upper and lower halves of the disk 1, which are sealed, in the upper and lower half

the disk 1 has holes 13 and 14, respectively, for filling the water and discharging the air.

The installation works as follows.

Through the opening 13, fluid is supplied to the annular gap. At the same time

the cut 14 exits the air that previously filled the annulus. After the annular space is completely filled with liquid, the holes 13 and 14 close (not shown). The disk 6 receives rotation from the drive, and the capacity 1 is motionless. In this case, the fluid driven by the rotation of the disk 6, due to its viscosity, transmits the disk 1 a torque, which is measured on the pulley 4 by any known method. In the case of the rotation of the disk 1, the fluid being driven, due to its viscosity, transmits the torque to the disk 6, which is measured on the shaft 7 by any known method.

In either case, the cylinders 10 and 11 isolate the fluid rotating in the annular gap from the gas space inside the disk 1, which prevents it from self-emitting, and the seals 12 are designed in such a way that they prevent the flow of liquid from the annular gap into the cavity 5, - and the ingress of air into the annular gap of the cavity 5.

Claims (1)

Invention Formula Installation for the study of the Couette fluid flow, auth.St. No. 519606, in order to improve the accuracy of determining the flow parameters, it is equipped with cylinders mounted in a hollow disk coaxially with its vertical axis, each fixed by one of its ends in a solid disk and freely positioned by other ends in hollow disks sealing grooves, wherein the hollow disk is made with through holes in the upper and lower portions of the wall located on the outer side of the cylinders.