SU372490A1 - | OASHTYOCHEKH1Sh '! ^^ N .I (___ B ;;! 5.L [' - Google Patents

Description

one

The invention relates to the study of the thermal qualities of clothing in a wide range of ambient temperatures.

A device for determining the thermal qualities of clothing is known, comprising a hollow dummy connected to a heat transfer network, means for monitoring temperature and controlling the flow rate of the heat transfer medium, and a removable cover.

The known device does not allow to simulate different levels of thermal regulation of the organism, for example, the limits in the direction of cooling and overheating.

In order to expand the technological capabilities of the proposed device, the dummy is made of an elastic material and is connected to the circulating system of the heat-transfer fluid, and the cover is made of an elastic water-absorbing material, which makes it possible to simulate heat transfer from the human surface by evaporation.

The drawing shows a diagram of the device. The device consists of a hollow elastic dummy. /, connected by means of insulated piping 2 with the pump 3 and the heater 4.

In a closed system consisting of a dummy, a heater, a pump, and pipelines, a fluid 5 circulates, for example, water that is under some overpressure. The temperature of the liquid at the inlet and outlet of the dummy is continuously measured by means of sensitive thermal sensors 6. The flow rate of the liquid is measured by the flow meter 7. The test clothing is worn on the dummy 8.

The average temperature of the fluid inside the dummy is maintained at the temperature of the internal organs of the person.

The dummy can regulate the thermal resistance of the walls by increasing or decreasing their thickness by putting on: or removing elastic covers, for example from rubber, tightly fitting the dummy.

A mannequin can be worn with a wet, tight cover made of elastic fabric, which allows it to simulate heat transfer by evaporation.

Testing the thermal quality of clothing is performed as follows.

The dummy is prepared according to the test conditions. When elastic covers are put on the dummy with a known thermal resistance, a predetermined thermal resistance is attached to its wall. The amount of internal thermal resistance of the human body is regulated by the body, depending on the direction and degree of intensity of thermal regulation. At elevated ambient temperatures. The organism reduces the internal thermal resistance of the body, and at lower temperatures it increases. The value of the internal thermal resistance can be determined by the formula: D th - n) P L g deg Qtkkkal where QT - heat transfer through the surface of the body, kcal. (Determined by known methods), 0, tn is the internal (rectal) body temperature and average body surface temperature, degrees, respectively. F is the heat transfer surface area, m. Methods for measuring the greatness to, tn, F are known. Approximately it has been established that when the permissible limit is reached in the direction of overheating of the body, 0.015 m hour, degree / kcal, and in the direction of supercooling, 0.1 m hour, degree / kcal. Depending on the mode in which the clothing will be tested, the corresponding thermal resistance of the walls is attached to the dummy. In the case when the tests are carried out under conditions of elevated air temperatures at which the human body releases a significant part of the heat, the moisture from the surface of the body is evaporated, and a moistened fabric cover is put on the dummy. The test clothing is worn on top of the mannequin. Then the dummy is connected to the circulation network. Using a heater, the temperature of the liquid inside the dummy is adjusted to the level of the human body's internal temperature of 38 ° C, 7 °. At the same time, the temperature on the outer surface of the dummy is automatically set to be equal to the temperature of the surface of the human body under similar conditions. Knowing the flow rate of the fluid through the dummy and its heat capacity, the transmission of the clothes through the unit of time is determined from the difference in temperature of the fluid at the Inlet and out of the dummy. Using the Q Cob formula (in f} fo kcal1 hour, you can find the generalized heat transfer coefficient of clothes. Cob, which characterizes the thermal qualities of clothes. In the above formula, Q is the heat loss through the surface of the medium, degrees; FO is the heat transfer surface, tn is the average surface temperature dummy, deg. Average temperature can be measured directly or calculated by the formula G-7 p - o-r where 0 is the temperature of the liquid inside, dummy, deg; is the thermal resistance of the dummy walls, ji h degree Determined by weighing the moisture loss with P evaporation surfaces of the dummy can be used to calculate the mass transfer coefficient of clothes. By installing sensors, temperature in the space under the yard, you can determine the ventilation rate of the space under the clothes caused by the porosity of the fabrics and the design of the clothes according to the test results. , the position of the dummy in relation to the air flow, you can determine their effect on the conditions of thermal interaction of a person with the environment in this oh clothing. Method of the invention 1. A device for determining the thermal qualities of clothing, containing a hollow dummy, included in the heat carrier network, means for controlling temperature and controlling the flow rate of the heat carrier, and a removable cover, characterized in that, in order to expand technological capabilities, the dummy made of elastic material and is connected to the circulating fluid heat transfer system. 2. The device according to claim 1, characterized in that, in order to enable the heat transfer to be simulated from the mane by evaporation, the cover is made of an elastic water-absorbing material.

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