RU128718U1 - DEVICE FOR MEASURING VAPOR PERMEABILITY OF BUILDING MATERIALS - Google Patents

Abstract

A device for measuring the vapor permeability of building materials by the gravimetric method, which includes a cup of water sealed with a sample of the test material mounted on an electronic balance connected to a computer, characterized in that a wind tunnel with an adjustable air flow is installed at the evaporation surface of the sample, and a cup with water and sample mounted in a temperature-controlled liquid thermostat.

Description

The utility model relates to the field of building physics and is intended to measure the vapor permeability characteristics of building materials in specially simulated conditions.

A device for determining the characteristics of vapor permeability using laboratory scales, on which a cup of water is installed, closed with a sample. In this case, the cup with water is weighed after it is removed from the cabinet with the specified temperature and humidity parameters at certain intervals using operator actions [GOST25898-83].

The disadvantages of this device are: the high dependence of the measurement results on the actions of the operator, the inability to simulate special conditions, such as the movement of air of a certain speed over the sample, the temperature difference between the surfaces of the sample, the inability to follow the kinetics of the vapor permeation process.

As a prototype of the proposed utility model is a device for measuring the vapor permeability characteristics of materials by the gravimetric method, Water Vapor Permeability Tester (TSY-T1). (http://www.labthinkiestinstruments.com/water-vapor-permeability-tester-tsy-tl.html) The characteristics of the device are indicated in the application.

The device consists of a cup of water, which is hermetically sealed by the test sample. A cup of water is mounted on electronic scales, which are placed in a cabinet with preset temperature and humidity parameters. The device allows you to monitor the kinetics of the vapor permeation process i.e. the loss of mass of water passing through the sample using software installed on a computer that is connected to an electronic balance, the measurement results are almost independent of the operator’s actions.

Its disadvantage is the impossibility of modeling special conditions, such as the movement of air of a certain speed over the sample, the temperature difference between the surfaces of the sample.

The proposed utility model is aimed at modeling special conditions as close as possible to the operating conditions of the building envelope.

The technical result consists in increasing the accuracy of the obtained vapor permeability characteristics of building materials, the formation of test conditions close to the operational characteristics of the building envelope, the ability to analyze the kinetics of the vapor permeation process.

The result is achieved by the fact that in the device for measuring the vapor permeability of building materials by the gravimetric method, which includes a cup of water sealed with a sample of the test material mounted on an electronic balance connected to a computer, according to a utility model, an aerodynamic tube with a controlled flow is installed at the evaporation surface of the sample air, and a cup of water and a sample is installed in a liquid thermostat.

A utility model is illustrated in the drawing. An electronic thermostat 1 is equipped with a thermostat 2 filled with a special liquid 3. A cup 4 with distilled water 5 is fixed in the thermostat 2. A holder 6 is inserted into the hole of the thermostat 2 with a sample of the test material fixed on it 7. The holder 6 is hermetically connected to the cup 4. Sample 7 they are insulated around the perimeter with a special compound 8. A temperature controller 9 is installed in the thermostat 2. Directly at the surface of the sample 7 there is an outlet opening of the wind tunnel 10 in which the fan 11 is installed. To the electronic balance 1 the only cable connected is a computer with software for automatic recording and accumulation of measurement results.

The device operates as follows. The electronic scale 1 is connected to a computer and connected using software. After that, the thermostat 2 is installed on the scales 1 with a cup 4 with a sample attached to it 7. During the test time, water 5 loses weight due to evaporation through sample 7. This change in weight is automatically recorded by the computer and saves the readings in a text file. To simulate special conditions, the thermostat 2 is switched on during the test to create a temperature difference between the surfaces of the sample and the fan 11 in the wind tunnel 10 to create air movement over the sample. The air flow rate is controlled, for example, by a dimmer, and the temperature in thermostat 2 is controlled by the temperature controller 9. The air flow rate and temperature are set close to the operating conditions of the investigated building structure from these materials. The results recorded in a text file are processed by the software to obtain the vapor permeability characteristics of the test material.

The device allows both standard tests and tests with specially simulated conditions. Full automation of the device increases the accuracy of the obtained vapor permeability characteristics of building materials, and the software allows you to simply operate on the data, displaying them in tabular form or graphically. In this case, it becomes possible to analyze the kinetics of the vapor permeation process through a sample of the test material.

Claims (1)

A device for measuring the vapor permeability of building materials by the gravimetric method, which includes a cup of water sealed with a sample of the test material mounted on an electronic balance connected to a computer, characterized in that a wind tunnel with an adjustable air flow is installed at the evaporation surface of the sample, and a cup with water and sample mounted in a temperature-controlled liquid thermostat.

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