RU2096760C1 - Device for determination of water permeability of sheet materials - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: device has test chamber, compressed air source, pipe line coupling the compressed air source to test chamber through pressure regulator. Test chamber is provided with specimen clamping mechanism and is capable of turning around horizontal axis. In one position specimen is set inwards, and liquid is in lower part of chamber. In the other position specimen under test is lowered, and test liquid is above specimen. Test chamber is coupled to pressure regulator by means of three-way air valve which allows test chamber coupling either to compressed air source or to atmosphere. EFFECT: higher measurement results. 1 dwg

Description

 The invention relates to measuring equipment, and specifically can be used for testing roofing and waterproofing materials for water permeability.

 A known device for determining the water resistance of tissue [1] Its disadvantages are the complexity of the air outlet device, as well as the likelihood of several air bubbles remaining under the test sample, which can affect the reliability of the obtained measurement results.

 The closest in technical essence to the claimed device is the selected device for determining the porosity of sheet materials [2], selected as a prototype, including the upper and lower test chambers, a source of compressed air, a reservoir for pouring working fluid into the upper chamber and a pipeline, a reservoir for pouring liquid is made in in the form of a sealed vessel, the upper cavity of which is connected to a compressed air source by a pipeline on which a pressure regulator, a switch and check valve, and the upper part of the sealed tank through an additional switch connected to the atmosphere.

The disadvantages of this known device are:
inconvenience when installing and removing the sample, requiring the discharge of fluid from the test chamber;
a decrease in the reliability of the results obtained due to the accidental ingress of water droplets onto the back surface of a material sample when it is removed;
the use of two air switches and one check valve, which complicates the installation of the sample.

 The objective of the invention is to increase the convenience of installation and removal of the test sample, spending the least amount of fluid during the test, as well as increasing the reliability of the results.

 This problem is achieved in that the device for determining the water permeability of sheet materials includes a test chamber, a source of compressed air, a pipe connecting the source of compressed air to the test chamber through a pressure regulator, the test chamber is equipped with a clamping mechanism for the sample and has the ability to rotate around a horizontal axis, while in one position, the sample is in the upper position, and the liquid is in the lower part of the chamber, in the other, the test sample is in the lower position, and test fluid above the sample, the test chamber being connected to a pressure regulator using a three-way air valve, allowing the test chamber to be connected either to a source of compressed air or to the atmosphere.

 Comparative analysis in the prototype shows that the inventive device has a new ability to rotate the test chamber in order to fill the test sample with liquid or to separate it from it.

 Thus, the claimed device meets the criteria of the invention of "novelty."

 Comparison of the proposed solution with other technical solutions [2] shows that the removal of the air layer between the sample and the liquid by turning the test chamber over allows you to abandon complex air outlet devices, while removing and installing the sample occur in a convenient position when the test sample is over the liquid. This allows us to conclude that the technical solution meets the criterion of "significant differences".

The drawing shows a sketch of a device for determining the permeability of sheet materials, where:
1 test chamber (IR);
2 sample clamping mechanism (MLM);
3 flexible pipeline (GT);
4 three-way air valve (TCE);
5 pressure regulator (RD);
6 source of compressed air (WIS);
7 test sample (AI).

 The device operates as follows.

 In IR 1, which is in the position when the sample clamping mechanism 2 (MLO) is in the upper position (position N 1), liquid, for example water, is poured to approximately the middle of IR 1. After this, test sample 7 is installed, and mechanism 2 clamping the sample provides a snug fit of IO 7 to IR 1.

IR 1 is turned 180 ^o (position N 2), while the liquid will be above IO 7.

 Through TCE 4, the source 6 of compressed air (WIS) is connected to the test chamber 1, while the required pressure is provided by RD 5.

 After the test is completed, TCE 4 disconnects IR 1 from WIS 6 and relieves pressure into the atmosphere.

 IR 1 is set to position N 1 using MLO 2. Test sample 7 is removed from IR 1 and it is checked whether liquid has appeared on the back of the wetted side.

Compared with a device for a similar purpose (prototype), the claimed device allows you to:
dispense with a minimum amount of test fluid and eliminate its loss;
to provide the possibility of convenient removal and installation of the test sample without draining the liquid from the test chamber, and in this regard, to exclude the accidental ingress of liquid droplets onto the controlled side of the sample, which increases the reliability of the results.

Claims (1)

 A device for determining the water permeability of sheet materials, including a test chamber, a source of compressed air, a pipe connecting a source of compressed air to the test chamber through a pressure regulator, characterized in that the test chamber is equipped with a clamping mechanism for the sample and can rotate around a horizontal axis, position, the sample is in the upper position, and the liquid is in the lower part of the chamber, in the other the test sample is in the lower position, and the test liquid above the sample, and the test chamber is connected to the pressure regulator using a three-way air valve that allows you to connect the test chamber either to a source of compressed air or to the atmosphere.