SU987522A1 - Device for destruction testing of flexible material by aerosol formations - Google Patents

Description

The invention relates to textile and sewing materials science, in particular to devices for testing; on the destruction of textile material for aerosol formations, and can be used at enterprises ^{5 of the} textile industry.

A device is known for determining the degree of aerosol formation of materials in which the test specimen is destroyed as a result of the creation of friction-slip deformation [1].

The disadvantage of this device is that it does not provide ₁₅ necessary mechanical deformations in the sample.

Closest to the invention in technical essence is a device for testing paper for dust by aerosol formations, comprising a chamber equipped with holders for testing a sample, an inlet of purified air, an outlet inlet connected to a device for measuring the concentration of aerosol formations. The air supplied to the chamber is cleaned with a filter. Aerosol formations are sucked off into a measuring device - a photoelectronic counter using a vacuum pump (2 3.

A disadvantage of the known device is that it does not provide the necessary mechanical deformations in the sample, typical for operating conditions.

The aim of the invention is to expand the functionality of the device by making it possible to test the sample under conditions of strain deformation and mechanical vibrations. This goal is achieved in that a device for testing the destruction of flexible materials by aerosol formations, containing a chamber equipped with holders for the test sample, an inlet pipe for purification of 10th air, an outlet pipe connected to a device for measuring the concentration of aerosol formations, is equipped with a vibrator and a unit for creating tension of the test material, ₅ and the holders are made with the possibility of movement, moreover, one of them is connected to a vibrator, and the other to a node for creating tension using puffed sample.

In addition, the cleaned air inlet pipe is branched, with its exits located at the opposite ends of the chamber, and the outlet pipe is placed in its central part, which improves the reliability of the evaluation of test results by reducing the deposition of aerosols on the sample and the chamber walls.

The drawing shows a diagram of a device.

The proposed implementation of the device provides forced vibration (pulling) of the sample, leads to the destruction of its structure due to uneven stretching of the fibers of the sample and intense internal friction. Destruction products in the form of fine aerosols simultaneously with various inclusions and additives (antistatic agents, dye, etc.) are released into the environment, captured by the stream of purified air and sent to a device for measuring the concentration of aerosol formations.

The drawing shows a diagram of a device.

The test sample 1 is fixed with one edge in the holder 2, which is connected to the working element 3 of the vibrator 4, and the other in the holder 5, which is connected to the meter 6 of the amplitude of oscillation and the clamp 7 to create a preliminary tension. Kro- ₄₅ IU, the apparatus comprises a unit for tensioning the specimen 8, a chamber 9, a housing 10, two outlets 11a and nozzle 116 entering purified air 12 ,. the outlet pipe 13, a device for measuring the concentration of aerosol formations 14, means for air flow 15 and an adjustable pump 16.

The device operates as follows.

After specimen 1 is installed using the holders 2 and 5 in the chamber 9 and pre-tensioned with the help of the clamp 7, the adjustable pump 16 is turned on and air begins to circulate in the direction indicated by arrows NN ¹ . The vibrator 4 is driven, as a result of which the working element 3 of the vibrator 4 performs reciprocating vibrations, which, through the body of the holder 2, give longitudinal vibrations to the test sample 1, and the amplitude of the vibrations is controlled using a measuring device 6 of the oscillation amplitude. Constant tension of the sample 1 in the case of its extension, it is automatically carried out by the unit to create tension, sample 8, and by the position of the clamp 7, you can control the tensile rate of the sample 1 during its testing.

As a vibrator, an electromechanical device is used, the power of which is carried out directly from the 220 V network and, thus, its working element performs longitudinal vibrations with a frequency of 50 Hz. Depending on the test conditions, the vibrator can also be powered by an autonomous frequency generator and, thus, any operating frequency can be set. To enhance the efficiency of the device in another. variant of its execution, you can use two vibrators installed on both ends of the sample

A device for aerosol radios to be applied from is based on any measurement of aerosol concentration.

By measuring the concentration of aerosol formations, one can judge not only the mechanical strength of the sample - a textile material, but also determine the suitability of its use by the aerosolization parameter.

About the measurement of concentration can numbers known and known principle

Claims (2)

(5) A DEVICE FOR DESTRUCTION OF FLEXIBLE MATERIALS BY AEROSOL EDUCATION The invention relates to textile and sewing materials science, in particular to devices for testing the destruction of textile material by aerosol formation, and can be used in enterprises of the textile industry. A device for determining the degree of aerosol formation of materials is known, in which a test sample is subjected to destruction as a result of the creation of a friction-slip deformation 1 3. The disadvantage of this device is that it does not provide the necessary mechanical deformations in the sample. Closest to the invention, the invention is a device for testing paper dustiness by aerosol formation, comprising a chamber equipped with holders for the test sample, a clean air inlet nozzle, an outlet nozzle connected to an apparatus for measuring the concentration of aerosol formations. The air supplied to the chamber is cleaned with a filter. Aerosol formations are sucked into a measuring device — a photoelectric counter using a C2 3 vacuum pump. A disadvantage of the known device is that it does not provide the necessary mechanical deformations in the sample, which are characteristic of the operating conditions. The aim of the invention is to expand the functionality of the device by allowing the sample to be tested under conditions of strain and mechanical vibrations. The goal is that the device for testing the degradation of flexible materials by aerosol formation, containing a chamber equipped with holders for the test sample, the inlet of purified air, 87, the outlet, connected to the device for measuring the concentration of aerosol formations, is equipped with a vibrator and an assembly for tensioning the test material and the holders are movable, one of which is connected to the vibrator, and the other to the assembly to create tension on the test specimen. In addition, the cleaned air inlet pipe is branched, its outlets are located at opposite ends of the chamber, and the outlet pipe is located in its central part, which improves the reliability of the evaluation of test results by reducing the deposition of aerosols on the sample and the chamber walls. The drawing shows a diagram of the device. The proposed implementation of the device provides forced vibrations (pattern jitter, leads to destruction of its structure due to uneven stretching of sample fibers and intense internal friction. Destruction products in the form of fine aerosols simultaneously with various inclusions and additives (antistatic agents, dye, etc.) into the environment, are captured by a stream of purified air and sent to a device for measuring the concentration of aerosol formations. the device. The test sample 1 is fixed with one edge in the holder 2, which is connected to the working element 3 of the vibrator i, and the other to the holder 5, which is connected to the vibration amplitude measuring device 6 and the latch 7 for creating pre-tension. contains a unit for generating sample 8, a chamber 9, a housing 10, two Pa outputs and 116 a clean air inlet nozzle 12 an outlet nozzle 13, a device for measuring the concentration of aerosol formations H, a means for air flow 15 and an adjustable pump 16, The device works as follows. After installing sample 1 using holders 2 and 5 in chamber 9 and preloading with clamp 7, the adjustable pump 16 is turned on and air starts to circulate in the direction indicated by the arrows N-N. The vibrator 4 is activated, as a result of which the working element 3 of the vibrator C combines reciprocating vibrations, which, through the body of the holder 2, produce longitudinal vibrations - the test sample 1, and the amplitude of the oscillations is controlled with a meter 6 oscillation amplitude, Constant tension of the sample 1 in case of its extension, it is automatically carried out by the unit for creating tension, sample 8, and according to the position of the fixer 7 it is possible to control the indicator of the tension of sample 1 during its testing. An electromechanical device is used as a vibrator, the KOTOpoj-o is powered directly from the 220 V network and, thus, its working element performs longitudinal oscillations with a frequency of 50 Hz. Depending on the test conditions, the vibrator can also be powered by an autonomous frequency generator and, thus, any operating frequency can be set. In order to increase the efficiency of the device in another version of its design, two vibrators can be used, installed at both ends of the sample. A device for measuring the concentration of aerosol formations can be applied from the known ones and is based on any known principle of measuring the concentration of aerosols. Thanks to measuring the concentration of aerosol formations, one can judge not only the mechanical strength of a sample of textile material, but also determine the suitability of its use by the aerosol formation parameter. Claim 1, A device for testing the destruction of flexible materials by aerosol formation, comprising a chamber equipped with holders for the test sample, a cleaned air inlet nozzle, an outlet nozzle connected to the device for measuring the concentration of aerosol formations, characterized in the purpose of expanding its functionality, the device is equipped; a vibrator and a unit for creating tension on the test specimen, and the holders are movable, one of which is connected to the vibrator and the other is connected to the unit for generating tension on the test specimen. 2. The device according to claim 1, in order to increase the reliability of the evaluation of test results, the inlet pipe of purified air is made branched, with its outlets located at opposite ends of the chamber, and the outlet pipe is located in its central part. Sources of information taken into account in the examination 1. USSR author's certificate in accordance with IP 33079W28-12. . cl. G 01 N 33/36, G 01 N.3 / 56, 10.11.81. . 2. USSR author's certificate ff 297922, cl. G 01 N 33/3, 1971 (prototype). 11o