RO122427B1 - Apparatus for determining the resistance of flat textile materials to water penetration - Google Patents

Abstract

The invention relates to an apparatus for determining the resistance of flat textile materials to water penetration by using the hydrostatic pressure test method, with a view to characterizing the effectiveness of finishing treatment and the usage value of textile articles. According to the invention, the apparatus comprises a textile material testing block (G), whereon a textile test piece is placed and secured, an air preparation block (D), a pressostat (2), an air distributor (3) and a proportioning valve (4), as well as a test vessel (6), a pressure vessel (11) and a compensating tank (9), a separating membrane (5) being mounted inside the pressure vessel (11), and a level detector (7) inside the compensating tank (9), the water passing from the compensating tank (9) into the test vessel (6) upon actuation of an electromagnetic valve (8) and a programmable automatic device (H), an automation block (B) being supplied with stabilized voltage from a supply block (A) and taking over the signals from a pressure transducer (E), a temperature transducer (F), a pressostat (2), the level detector (7) and a programming and display device (I) and discriminating the commands to a pressure control block (C), depending on the initial data which are input from the programming and display device (I).

Description

The invention relates to an apparatus for determining the resistance of flat textile materials to water penetration.

The device is used to characterize the effectiveness of finishing treatments and the value of use of textiles that must be resistant to water penetration, using the hydrostatic pressure test method.

An apparatus for determining the resistance of fabrics to the penetration of water under pressure is known, made by the company SDL ATLAS - England, the fabric being caught in a test ring of 100 cm ² . The water pressure is achieved by compressed air and distilled water in a range of 0 ... 1500 cm, with a tolerance of ± 0.1%, being displayed on a digital screen. The growth rate is adjustable by a digital control device and is recorded in centimeters per minute.

There is also a device made by the company Metrimpex - Hungary, for determining the water permeability of fabrics for sportswear or technical waterproof articles, impregnated or covered with synthetic materials. The size of the exposed surface is 100 + 1 cm ² , and the nominal pressure, measurable and adjustable, is 196 ... 29400 Pa, with a division of 200 Pa. The pressure increase speed is 980 ... 5880 Pa / min.

There is also known a device made by the company Branca Idealair SA S - Italy, which allows the control of water impermeability of textiles either to determine the minimum pressure when passing water through the sample, or to determine the impermeability time at a known pressure. The technical characteristics of this device are: pressure: 0 ... 9999 mm / H ₂ 0; pressure increase speed: 60 cm / min and 10 cm / min.

These devices have the disadvantage that they have relatively complicated constructions and do not provide the necessary precision to determine the water pressure that passes through the fabric.

The problem solved by the invention is to establish the constructive elements, their geometry and their arrangement, in order to determine the resistance of flat textile materials to water penetration, by using the hydrostatic pressure test method.

The flat textile specimen is subjected to water pressure, which gradually and evenly increases on one side of the fabric, under standardized conditions, until the water enters three points. According to the specific standard, the parameter to be determined is the water pressure at the moment when the water settles through the fabric in the third point.

The apparatus for determining the resistance of flat textile materials to water penetration, according to the invention, consists of a textile testing block, which has the role of ensuring the fixing of the textile material, a pneumatic installation, which has the role of operating a hydraulic installation that performs the pressure required to penetrate the water through the textile test tube. The device also consists of an automation installation, which consists of a programmable automaton, which takes the information from a pressure transducer and a temperature transducer, and which, depending on the test parameters entered by the user, operates the electrohydropneumatic installation .

The test block consists of a test vessel in which distilled water is introduced and on which the test piece is placed, as well as an upper tank, which has the possibility of moving vertically, with the role of ensuring the fixing of the textile material and to eliminate any deviations from the flatness of the seating surface, which could lead to leaks.

The pneumatic system of the appliance consists mainly of the air preparation block, an air distributor and a proportional valve. The air preparation block has the role of filtering the air from mechanical impurities, reducing humidity and regulating the pressure, being a compact group consisting of a manually operated coupling valve, impurity filter and pressure regulator with manometer. A pressure switch shuts off the system at a certain time

RO 122427 Β1 preset pressure and signals the presence of air pressure in the pneumatic installation. 1 The role of the air distributor is to operate the proportional valve, which controls the air pressure in the installation. 3

The hydraulic system of the device consists of a pressure vessel, the test vessel and a compensation tank. A pressure transducer and a temperature transducer are mounted on the pressure vessel.

A separating membrane of the pneumatic distillation plant 7 is mounted inside the pressure vessel. A water level sensor is mounted in the compensation tank. The passage of water from the compensation tank into the test vessel is carried out by means of an electromagnetic valve.

The electrical installation supplies electrical power to the appliance and provides protection 11 against short circuit and overload. The automation system is based on a programmable automaton that takes the information from a pressure transducer and a temperature transducer, and which, depending on the test parameters entered by the user, operates the pneumatic installation. The PLC has implemented a special software developed for this application, 15 monitoring and controlling the entire testing process. The automation block is supplied with stabilized voltage by the supply block and takes over the signals 17 from the pressure transducer, the temperature transducer, the pressure switch, the level sensor and the programming and display console, and detects the commands to the pressure control block 19, depending on the initial data entered. The input data is entered from the programming and display console, on which the following 21 can be viewed: temperature from the temperature transducer, pressure in the system, from the pressure transducer, pressure rise speed, controlled by the block 23 pressure control, the number of the test being performed and the occurrence of any non-conformities produced in the system (lack of water, temperature below the level required by the specific 25 standards, faulty regulation). By connecting the machine to a printer, the analysis bulletins are printed. 27

The apparatus for determining the resistance of flat textile materials to water penetration according to the invention has the following advantages: 29

- simple construction, relatively easy to reproduce and made of materials easy to obtain;

- convenient service; 31

- the precision and reproducibility of the working parameters, the observance of the imposed standards, specific to the determination of the resistance of the flat textile materials to the water penetration; 33 - the mobility of the assembly, in the sense of the possibility of its location in any testing laboratory; 35

- ergonomic service; - reliability in operation.37 In the following, an embodiment of the apparatus according to the invention is given with reference to fig. 1 ... 4, which represents: 39

- fig. 1, side view of the apparatus for determining the resistance of flat textile materials to water penetration;

- fig. 2, block diagram of the apparatus for determining the resistance of flat textile materials to water penetration;

- fig. 3, block diagram of the automation system; - fig. 4, partial view front panel device.45

The apparatus for determining the resistance of flat textile materials to water penetration (figs. 1, 2, 3 and 4), according to the invention, consists of a textile test block G, 47 a pneumatic installation which has the role of operating an installation hydraulic that achieves the pressure necessary for water to penetrate through the textile test tube. The appliance is made up 49

RO 122427 Β1 and from an automation system, consisting of a programmable controller H, which takes information from a pressure transducer E and a temperature transducer F, and which, depending on the test parameters entered by the user, actuates the pneumatic installation.

The textile test block G has the role of ensuring the fixing of the textile test tube and consists of a test vessel 6 in which distilled water is introduced, and on which the test tube and an upper tank 1 are placed, which has the possibility of vertical movement.

The pneumatic installation of the appliance consists mainly of the air preparation block D, the air distributor 3 and the proportional valve 4. The air preparation block D has the role of filtering the air from mechanical impurities, reducing humidity and adjust the pressure. It is a compact group, consisting of a manually operated coupling valve, impurity filter, pressure regulator with manometer. A pressure switch 2 switches off the system at a certain preset pressure and signals the presence of air pressure in the pneumatic system. An air distributor 3 supplies air to the proportional valve 4, which is actuated by the programmable controller H and which has the role of controlling the air pressure in the installation.

The hydraulic system of the device consists of the pressure vessel 11, the test vessel 6 and the compensation tank 9. A pressure transducer E and a temperature transducer F are mounted on the pressure vessel 11.

The pressure vessel 11 consists of two compartments, which are separated by a separating membrane 5, of the pneumatic distilled water installation.

The air pressure in the pneumatic system is transmitted to the pressure vessel 11, from the hydraulic system and implicitly to the test vessel 6. During the test runs, losses of distilled water occur, which are compensated by means of the compensation tank 9. in the pressure vessel 9. test 6, a level sensor 7 is mounted, with the help of which the water level is controlled.

The passage of water from the compensation tank 9 to the test vessel 6 is achieved by operating the solenoid valve 8.

The electrical installation supplies electrical voltage to the appliance and provides short-circuit and overload protection. Thus, the voltage coming from the electrical network is taken over by the supply block A, ensures the energization of the device, realizes the electrical protection against short circuit and overvoltage, distributes for the other functional blocks the voltages and currents necessary to obtain the necessary technical parameters. The power supply consists of the following functional modules: transformer mode (which transforms the voltage level to the one accepted by the consumer), rectifier module (transforms the alternating current generated by the transformer into direct current), voltage stabilizer mode (which stabilizes the voltages provided for the others functional blocks).

The automation system is based on the PLC H, which takes the information from the pressure transducer E and the temperature transducer F, and which, depending on the test parameters entered by the user, operates the electrohydropneumatic system. The H programmable controller has implemented a software developed for this application, monitoring and controlling the entire technological process. Automation block B takes the signals from the pressure transducer E, the temperature transducer F, the pressure switch 2, the level sensor 7, as well as from the programming and display console I, and detects the commands to the control block pressure control C, depending on the initial data entered.

RO 122427 Β1

The pressure control block C receives the electrical control from the 1 automation block B, changing the pressure in the installation by controlling an electropneumatic system. This block is composed of the proportional valve 4 and the air distributor 3. The precision 3 of the pressure variation in the system is thus adjusted in closed loop mode, in order to be able to obtain the necessary parameters. 5

The pressure and temperature transducers F located on the pressure vessel 11 provide real-time information to the H programmable controller. 7

The pressure transducer E ensures the control of the pressure in the installation. The pressure transducer E ensures the correlation between the pressure exerted and the electric current generated at the outlet. 9

The temperature transducer F is based on a heat-sensitive element capable of correlating and transforming the ambient temperature into electric current. The value of the temperature measured in the system is essential in the calculation and validation of the tested sample.

Another element that provides signals to the H PLC is preset 2, which has the role of initializing and monitoring the work program after reaching the inlet pressure. 15

The input data is entered from the programming and display console I, on which the following can be viewed: the temperature coming from the temperature transducer F, 17 the pressure in the installation, coming from the pressure transducer E, the pressure increasing speed, controlled by the pressure control unit C, the number of the test being performed 19 and the occurrence of any non-conformities in the system.

The sequence of operations to ensure the operation of the apparatus is as follows: 21 the textile specimen is placed smoothly and centered on the test vessel 1 within the textile test block G. 23

After connecting the appliance to the electrical and pneumatic system, press the General power button, enter the input data via 25 programming and display console I. Pressure switch 2 will check the operation of the compressed air preparation block D. Fill with water compensation tank 8, up to 27 when the level 7 sensor is actuated.

Press the ON button (so that the lower face of the textile test piece 29 comes into intimate contact with the distilled water), the aim is to eliminate all the air at the material test tube, through the hole made at the base of the test vessel 6. After performing 31 of these initial operations, the ON button is pressed again, to start the actual determination. Throughout the test, the following parameters are displayed on the programming and display console I, 33: the temperature from the temperature transducer F; pressure in the system, measured by the pressure transducer E, the pressure rise speed, 35 controlled by the pressure control block C, the number of the test being performed and the occurrence of any non-conformities in the system (lack of water, lack of air, temperature below 37 level imposed by specific standards, faulty adjustment). After completing a test or group of tests, by connecting the machine to a printer, the analysis bulletins are printed.

Claims (1)

Claim 43 Apparatus for determining the resistance of flat textile materials to water penetration, characterized in that they consist of a textile test block (G) which 45 has the role of ensuring the fixing of the textile material, consisting of a test vessel (6) in which distilled water is introduced and on which the test piece is placed, and from an upper tank (1) which has the possibility of moving in a vertical plane, with the role of ensuring the fixing of the textile material and EN 122427 Β1 to eliminate possible deviations from the flatness of the seating surface, which could lead to leaks, a pneumatic installation which has the role of operating a hydraulic installation and consists of an air preparation block (D), a pressure switch (2), an air distributor (3) and a proportional valve (4), a hydraulic system which achieves the pressure necessary for water to enter through the textile test tube and comprises the test vessel (6), a pressure vessel (11) ), a compensation tank (9), inside which the pressure vessel (11) is mounted a separating membrane (5) of the pneumatic system of distilled water, and in the compensation tank (9) a level sensor (7) is mounted ), the passage of water from the compensation tank (9) to the test vessel (6) is carried out by actuating an electromagnetic valve (8), an automation installation consisting of a programmable automaton (H) which takes the information from a pressure transducer ( E) and a temperature transducer (F) and which, depending on the test parameters entered by the user, operates the electrohydropneumatic installation, the programmable controller (H) having implemented a software developed for this application, monitoring and controlling the entire testing process and an automation block (B) which is supplied with voltage stabilized by the supply block (A), which picks up the signals from the pressure transducer (E), the temperature transducer (F), the pressure switch (2) , from the level sensor (7) and from a programming and display console (I), and which detects the commands to a pressure control block (C), according to the initial data entered from the programming and display console (I), showing the temperature from the temperature transducer (F), the pressure in the system from the pressure transducer (E), the rate of increase of the pressure, controlled by the pressure control block (C), the number of the test being performed and the occurrence of any non-conformities in the system.