CS227264B1 - Apparatus for measuring heat insulation characteristics of planar textile fabrics - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for measuring the thermal insulating properties of flat fabrics, comprising a sensor encased in a sample of a fabric to be tested.

The measurement of the thermal insulation properties of fabrics, knitted fabrics and other textile fabrics is carried out in essentially three known ways:

- measuring the amount of heat required to maintain a constant temperature of the body wrapped in the fabric sample, - measuring the temperature drop of the body wrapped in the fabric sample over a predetermined period of time, - measuring the temperature difference on both sides of the fabric being examined.

An important factor when examining the thermal insulation properties of textiles is the influence of relative humidity and air movement. These influences and their interaction create a sense of comfort for the wearer; However, they are also significant, especially air humidity, for other textiles, for example, for floor textiles, blankets, textile wallpapers and the like.

Known measuring instruments and methods do not allow an objective assessment of how textiles protect against the complex effects of these phenomena, since measurements are not carried out under precisely defined climatic conditions.

This disadvantage is overcome by an apparatus for measuring the thermal insulating properties of flat fabrics, comprising a measuring probe encased in a sample of the fabric to be tested, the principle of the invention being that the sensor associated with the meter is mounted on a shaft air conditioner with adjustable temperature and relative humidity. The engine and the air conditioner can be coupled to a processor system controlling the choice of engine turnover frequency and the temperature and relative humidity of the air conditioner. In the most preferred embodiment, the meters, the motor and the air conditioner are connected to a processor system for processing the input and output measurement data.

The main advantage of the device according to the invention is the possibility of objective, accurate and reproducible measurement of the thermal insulation properties of textiles at different, well-defined temperatures, relative humidity and air velocities. By rotating the sensor in the space where the air is at rest, the airflow velocity is reversed, and in this arrangement the airflow velocity can be easily measured and thus reproduced.

Connection to the processor system enables automated measurement and processing of measurement results according to the inserted program. The mechanical processing of data opens up the possibility of further use of measurement results in graphical, tabular form, etc.

The advantages of the device according to the invention stand out in a particular embodiment, an example of which is schematically illustrated in the figure.

The sensor 4 wrapped with the fabric sample 5 is mounted on the arm 3 of the shaft 2; the arm 3 with the sensor 4 connected to the meter 7 is enclosed in the air-conditioning housing 1. The shaft 2 is driven by a motor 6 with a selectable turnover frequency.

The thermal insulation properties of the fabric are measured as follows:

On the meter 7, before the sample 5 is attached to the sensor 4, the energy required to keep the temperature of the sensor 4 at the set temperature and relative humidity in the air conditioner 1 is indicated. Then the sensor 4 is wrapped with sample 5 of the fabric under test. constant temperature of sensor 4. The measurement is repeated when changing the temperature setting, relative air humidity in the air conditioner 1 and at other shaft reversal frequencies 2, i.e. at different air velocities.

Gauge 7, shaft speed sensor 2, temperature and humidity are connected via analogue to digital converters to a processor (not shown) which, according to a given program, reads out all these values in binary decimal notation and reaches them in memory either to dump, for example, a punched tape, or to connect to an intelligent terminal with a cell calculator.

The evaluation is made from curves registering both temperature, relative humidity and shaft reversal frequency 2, and energy values required to maintain sensor temperature constant 4. In an improved embodiment, measurement is automatically performed according to a program embedded in the processor system, which also allows temperature and the air humidity in the air-conditioning box 1 as well as the frequency of the engine turn-over 6 and the subsequent calculation and processing of the measurement results.

Claims (3)

An apparatus for measuring the thermal insulating properties of flat fabrics, comprising a sensor wrapped in measuring a sample of the fabric to be tested, characterized in that the sensor (4) associated with the meter (7) is mounted on an arm (3) of the shaft (2j). and is arranged in an air conditioning box (11) with adjustable temperature and relative humidity. 2. Apparatus according to claim 1, characterized in that the air-conditioning cabinet (1) is equipped with sensors for measuring the temperature, humidity and air velocity and shaft rotation speed (2) connected by means of analogue digital converters to the selection processor. frequency of engine turnover (6), heating power and humidity generator inside the air conditioner (1 j. An apparatus for measuring the thermal insulating properties of flat fabrics according to items i and 2, characterized in that the meter (7), the motor (6j) and the air conditioner (1) are connected to a processor system processing input and output measurement data.