SU110901A1 - Instrument for determining thermophysical constants of materials, for example, fur, clothing fabrics, etc. - Google Patents

Description

The subject of the invention is a device for determining thermophysical constants of materials, for example, fur, fabrics for clothes and the like, using the method of a regular mode using a calorimeter and differential thermocouples blocked with a galvanometer.

Known for this purpose, devices have a complex structure and are inconvenient to use.

The peculiarity of the proposed device is that, in order to simplify the design and ease of use, the calorimeter is suspended on a vertical axis driven in rotation inside a horizontal wind tunnel and is made in the form of a hollow cylinder with spherical caps mounted on the ends and made of a dielectric and filled with insulating material.

An induction was applied to heat the calorimeter located outside the wind tunnel along the axis of the calorimeter suspension.

The drawing shows a general diagram of the device.

The calorimeter U is made in the form of a hollow metal cylinder 2 with spherical caps 3 fixed at its ends, made of a dielectric and filled with thermal insulating material. In the upper cap there is a loop 4 for which the calorimeter 7 is placed on the end of the hollow axis 5; the latter is fixed in a strictly upright position by means of guides and supporting sub-carriers. The floor axis is 5, and through it the calorimeter / is driven into rotation by the electric motor 5.

The calorimeter is located horizontally inside the wind tunnel 7.

In the lower part of the pipe 7 there is an opening valve 8 through which the calorimeter 1 can be lowered and inserted through the lifting mechanism 9 and introduced into the induction coil Yu, located outside the wind tunnel 7 along the axis of the calorimeter.

No. 110901

Maintaining a constant air temperature inside the wind tunnel 7 is performed by the heater // with regulation using an autotransformer 12. The air velocity in the wind tunnel 7 is measured using an IOT tube and a micromanometer 13. The control measurement of the air temperature in the wind tunnel is carried out by means of thermocouples 14.

The temperature difference between the calorimeter and air is measured by differential thermocouples 15. Thermocouple wires pass through the nipples of the calorimeter and the hollow axis 5 to the collector coil 16. From the collector tube, the thermal currents are transferred via sliding contacts to the measuring galvanometer via sliding contacts 18 nineteen.

The operation of the device is as follows.

The test material 20 (fur, clothing fabric, etc.) is put on the side surface of the metal cylinder 2, after which the calorimeter (by means of a lifting mechanism 9) is lowered inside the induction coil 10 into the position indicated by dotted line 21. A current is applied to the winding of the coil. After warming up, the calorimeter / rises into wind tunnel 7 to its working position. Axis 5 is connected from the electric motor 6 to the floor, and through it the calorimeter / is driven into slow rotation in order to obtain uniform cooling of the calorimeter during the test. The flow of the regular cooling mode of the calorimeter is recorded by a galvanometer 19 interlocked with differential thermonars 15. The total thermal resistance of the test material 20 characterizing its thermophysical constants is calculated from the change in temperature difference between the calorimeter and the air environment.

Subject invention

Claims (2)

1. An instrument for determining thermophysical constants of materials, for example, fur, fabrics for clothing, etc., by means of a regulative mode using a calorimeter and differential thermocouples interlocked with a galvanometer, in order to simplify the design and ease of use , the calorimeter is suspended on a vertical axis driven in rotation inside a horizontal wind tunnel and made in the form of a cylinder with spherical caps fixed at its ends made of a dielectric, filled thermal insulation material. 2. The form of the instrument according to claim 1, characterized in that an induction coil is used to heat the calorimeter, located outside the wind tunnel along the axis of suspension of the calorimeter.