DE3942361A1 - Water suction rate measurer for textiles - has specimen clamp above water containers and reflection light barriers with motor drives following water front - Google Patents

Abstract

An arrangement for determining the water suction rate of flat textile specimens enables observation of water front motion in specimens (1) held in clamps and contains a water vessel (2). A reflection light barrier (3) associated with each specimen has a light source switchable between red and green. Each light barrier is moved along the specimen by a controlled drive enabling movement synchronous with the water front. A displacement sensor enables the water height to be measured against time. USE/ADVANTAGE - Measuring textile water suction rates against DIN 53 924 less manually intensively than with conventional arrangements.

Description

The invention relates to a device for determining the suction speed of textile fabrics against water by observation the fluid front moving in this structure, with an on direction for clamping at least one of these samples and min least a container for the water.

Assessing the effectiveness of pre-treatment agents, equip equipment and finishing agents for textiles are among others by measuring the wettability of the textiles treated in this way or textile-like goods. These measurements are carried out in accordance with the DIN 53 standard 924. After that, the determination of the rising height of water made on the textile samples visually at certain times. The time is determined with a stopwatch. The simultaneous observ watch out for the stopwatch, the wandering liquid front and that on the Probe attached to the sample leads in particular to several samples Reading errors. Measuring several samples at the same time is all the more  more problematic than the norm stipulates that the simultaneous ab reading must be guaranteed. The procedure according to this standard is manual measurements are very time-consuming as the standard prescribes 5 samples each from the longitudinal and transverse directions of a sample sen.

To avoid the disadvantages mentioned, the measurements cannot can be easily done by means of a light barrier, as these in usually cannot detect the liquid front. The problem the often small contrast difference between the moist and the dry sample has already been addressed in the standard mentioned and also leads to manual and visual processes Problems.

The invention has for its object in a device to avoid the aforementioned disadvantages and at the same time to meet the conditions of the named standard.

According to the invention, this object is achieved by each sample assigned and directed to this reflection light barrier, whose Light transmitter can be switched from red to green and vice versa, one each Drive each light barrier, which along the assigned Sample is movable, one control of each drive, by each Photoelectric sensor synchronized with the liquid front during the measurement is movable along the sample, and with a height of the liquid front depending on the time-sensing displacement sensor. Through the red or green transmission light and the possible switchover in between is the contrast between the wet and the dry Sample increased significantly, so that the light barrier the liquid can detect front.  

In order to be able to measure several samples in a shorter time a device for clamping several samples and an equal number of reflections associated with these samples light barriers, drives and controls proposed.

The invention also relates to a method for determining the Saugge Speed of textile fabrics compared to water with egg a device of the type mentioned. To improve the measuring accuracy, which also depends on the accuracy of the time measurement, it is proposed that in such a procedure before the start of the Determine the lower edge of the sample above the water surface and the respective light barrier between this edge and the water are arranged that the determination with the lowering of the Samples is started in the water and that the timing starts when the lower edge passes the light path of the light barrier.

To improve measuring accuracy and reproducibility visually the displacement measurement is proposed that the displacement measurement be starts when the liquid front blocks the light path of the light barrier happens.

An exemplary embodiment of the invention is described below with the aid of the single drawing ( FIG. 1).

The device shown in FIG. 1 is able to carry out the standard climbing height determination on six samples. The device is constructed between a base plate 5 and an upper plate 6 . Along each of these plates 5 , 6 arranged six spindles 7 , a reflection light barrier 3 is movable by means of a motor 8 each. The geared motor 8 rotates the spindle 7 assigned to it , as a result of which the reflection light barrier 3 is moved up or down along an adjustment path 9 .

Each sample 1 is fastened in a holder 10 , with all six holders being able to be moved simultaneously in the vertical direction via a connecting rod 11 by means of a lifting cylinder 12 . The path of movement is shown at reference number 13 . A container 2 for holding the water is located directly below half of each sample 1 .

The sample preparation takes place in the upper position of samples 1 . The samples 1 are pneumatically or mechanically lowered into the preferably colored water by an electronic start command. The start of the time measurement is triggered by the falling sample from above, in that the light beam emitted by the reflection light barrier 3 is reflected back. This represents the zero point of the time measurement. This reflection light barrier 3 is suitable for detecting the liquid front rising as a result of the wetting.

If the ascending liquid front passes the upper edge of the liquid container 2 , the path measurement begins. This sets the zero point of the distance measurement. The reflection light barrier 3 is moved upwards along the sample 1 , the movement being registered by a displacement sensor.

The measuring duration is freely programmable. For the height measurement however, the measurement duration is limited to 120 seconds. Then the device switches automatically.

The time and route data received are stored on a small computer represented graphically on a plotter.

Preferably, a limit switch for the drive at the upper end of the path 9 of the reflection light barriers 3 is seen easily.

Reference symbol list

1 sample
2 containers
3 retro-reflective sensors
4 lower edge
5 base plate
6 top plate
7 spindle
8 gear motor
9 adjustment path
10 bracket
12 lifting cylinders
13 movement path

Claims (4)

1. Apparatus for determining the suction speed of textile surface structures against water by observing the fluid front moving in this structure, with a device for clamping at least one of these samples ( 1 ) and at least one container ( 2 ) for the water, characterized by each Sample ( 1 ) assigned and directed to this reflection light barrier ( 3 ), the light transmitter of which can be switched from red to green and vice versa, one drive for each light barrier ( 3 ), which can thereby be moved along the assigned sample ( 1 ), one controller for each Drive, by means of which each light barrier ( 3 ) can be moved along the sample ( 1 ) synchronously with the liquid front during the measurement, and a height sensor of the liquid front depending on the time it detects. 2. Apparatus according to claim 1, characterized by a device for clamping a plurality of samples ( 1 ) and an equal number of these samples ( 1 ) assigned reflection light barriers ( 3 ), drives and controls. 3. A method for determining the suction speed of textile fabrics against water with a device according to claim 1 or 2, characterized in that before the start of the determination, the lower edge ( 4 ) of the sample ( 1 ) above the water surface and the respective light barrier ( 3rd ) are arranged between this edge ( 4 ) and the water surface, that the determination is started with the lowering of the samples ( 1 ) into the water and that the time measurement begins when the lower edge ( 4 ) passes the light path of the light barrier ( 3 ) . 4. The method according to claim 3, characterized in that the path measurement begins when the liquid front passes the light path of the light barrier ( 3 ).