CS217812B1 - Apparatus for automatic metering the sorption capacity of textile material,mainly sanitary for the conductive liquids - Google Patents

Description

The invention relates to an apparatus for automatically measuring the sorption capacity of textile materials, in particular medical, for conductive liquids, by which the sorption properties of textiles can be evaluated under preselected conditions.

The marginal sorption capacity of textiles, textile raw materials and medical textiles for water, aqueous solutions and other electrically conductive liquids under defined conditions is among the important utility properties of said materials. Also, the kinetics of sorption with respective partial processes of activated diffusion in the structure of the polymeric material and convection in the passage capillaries provide characteristic results for said types of materials. The mechanism and kinetics of diffusion sorption and convection are determined by chemical and supramolecular structure. The type and concentration of functional groups along the macromolecular chains, the volume fraction and the arrangement of the crystalline phase, the degree of porosity, the manner and extent of fiber modification, the content of additives and the degree of cross-linking are considered to be critical. The physical sorption of liquid molecules in polymeric materials is explained by the occupation of intermolecular structural defects resulting from the thermal movement of macromolecular segments and is virtually independent of the external pressure action. Capillary sorption refers to the filling of microscopic and macroscopic cavities with liquid. This process is largely dependent on pressure, the maximum capillary sorption proportional to the applied pressure decreases. According to the results of numerous experiments and in accordance with theoretical considerations, the rate of sorption at the molecular level increases exponentially with temperature.

Laboratory apparatuses for evaluating the sorption properties of polymeric materials and textile fibers in an improved design generally allow selection of conditions, particularly temperature and concentration. Technical instruments and methodologies for assessing the sorption properties of textile materials, including medical textiles, should also respect these requirements. The unique test instruments described in the literature, operating under geometry close to the actual application, are based on volumetric or gravimetric determination of the limit weight of the liquid sorbed by the material sample. Constructions of similar devices include a cylindrical container with a breakthrough partition where the bottom of the container is tapered into a neck for a rubber hose. The other end of the hose is connected to the burette, the cylinder or burette being vertically oriented. The burette is sliding, the sample measuring cylinder is equipped with a pressing weight. A number of other constructions are known on a similar principle, but they are all marked by the aforementioned disadvantage, namely that the measurements cannot be performed at a defined temperature.

The object of the present invention is to eliminate the disadvantages of the known apparatus, which consists in the fact that in a specific part of the apparatus, which is formed by a standing, hollow measuring block equipped with at least two heating elements, a temperature sensor placed in close proximity to the measured sample. and one of the two or more heaters arranged symmetrically with respect to the vertical axis of the measuring block and the specific liquid inlet provided in the central portion of the bottom of the measuring block, a thin-walled metal container with a bottom provided with at least one specific liquid inlet on the bottom. the surface of the sample to be measured, the upper surface of which is contacted by a contact electrode cylinder of electrically non-conductive material, in the lower surface of which a central and peripheral indicator electrode is arranged, which are connected by conductors to terminals located in the upper surface of the contact electrode about war.

The thin-walled metal container is replaceable.

The bottom of the thin-walled metal container is provided with a set of openings which are arranged in concentric circles, or the container has a bottom of porous material.

The contact electrode cylinder is preferably of a transparent, non-conductive material.

The main advantages of the proposed solution lie in the possibility of controlling the temperature of samples and specific liquid, even liquid supply, choice of pressure force, visual control of the sample top surface and automatic indication of sorption and saturation by changing the electrical resistance of the sample. line recorders.

An exemplary embodiment of an apparatus for automatically measuring the sorption capacity of textile materials, in particular medical, for conductive liquids is shown in the accompanying drawing in cross-section, namely the measuring part of the apparatus formed by a standing, detachable measuring block 1 which is hollow and provided with two heating elements. 2, which are embedded in the material of the measuring block 1 and arranged symmetrically with respect to the vertical axis of the measuring block i by a temperature sensor J, which is mounted in the bore of the block in close proximity to the measured sample 4 and one of the two resistive heaters 2. thermistor. In the central part of the bottom of the measuring block 1 there is a supply 6 for the measuring liquid. In the hollow part of the measuring block J, a thin-walled metal container 2 is placed on the seal 6, which can be used with an O-ring, the bottom of which is provided with an opening 8 for supplying specific liquid to the lower surface of the measured sample 4. The sample 6 is pressed by the contact electrode cylinder 2 ^{of an} electrically non-conductive and transparent material. In the lower surface of this material that abuts the measured sample 4, a central indicating electrode 10 and a substantially annular circumferential indicating electrode 10 are mounted. The central electrode 10 is connected by a conductor 12 to the terminal 15 and the peripheral electrode 11. is connected by a conductor 13 to a terminal 14. which are embedded in the material of the upper surface of the contact electrode cylinder 2.

In addition, the following units are not connected to the instrument. A constant speed motor-driven dosing hose pump connected to a specific liquid reservoir at one end of the tubing, the other end of which is connected to the inlet 2 at the bottom of the measuring block 1. The temperature sensor J, the thermistor, is connected to an electronic controller temperature. A DC voltage source separated from the AC power supply is connected to the electrical saturation indication circuit of the sample and its zero is connected to the housing of the measuring block JL and the +3 V voltage is applied via the indicating electrodes 60 to 11 to the electronic line recorder. The regulation range is from 20 to 50 °.

The proposed apparatus according to the invention is operated as follows: a sample of textile or dressing material having a diameter of 50 mm and a thickness of 1 to 50 mm and a known weight is tempered in the cavity of the measuring block 1 maintained by the thermostat at a constant temperature. The sample 6 is loaded by means of a contact transparent electrode cylinder 2 provided with indicating electrodes 20 11. The state of the upper surface of the sample 6 during the measurement can be checked by viewing the electrode cylinder 2. The selected specific liquid, water, aqueous salt solution, isotonic solution, citrate blood or plasma is pumped at a constant rate from the reservoir by the metering pump to the tempered measuring block 1 and from there through the bottom of the metal container 2 with different flow geometries to the lower surface of the sample. The transport of liquid from the reservoir to the measuring block 1 is ensured by a single continuous hose made of chemically resistant silicone rubber. The flow rate can be adjusted by changing the tubing diameter and the pump speed. The indication of sorption and saturation is ensured by connecting the DC voltage between the two sample surfaces with the help of electrodes 1 0. 11. The voltage divider and the line recorder are connected to the circuit.

The measuring instrument is actuated by a thermoregulator and line recorder switch. Switching off the control lamp indicates reaching the selected temperature of the measuring block 1 and the possibility of starting the actual sorption measurement. After insertion of the sample into the cavity of the tempered measuring block and the instrument and its loading by the contact electrode cylinder 2 with contacts of the electric circuit, the switches controlling the dosing pump drive and the paper recorder of the line recorder are simultaneously pressed at any time. After a period of time characteristic of the material, the deflection of the line recorder begins to increase in proportion to the decrease in electrical resistance due to the gradual sorption of the conductive liquid up to a maximum value corresponding to saturation. The sorbed mass is the product of the known constant flow rate of the specific liquid and the time from the start of the measurement until the maximum deflection of the line recorder has been reached.

When the indication is triggered, the instrument operates completely automatically and eliminates the undesirable influence of the operator on the accuracy of the results.

Claims (5)

SUBJECT OF THE INVENTION Apparatus for the automatic measurement of the sorption capacity of textile materials, in particular medical, for conductive liquids, characterized in that in a specific part of the apparatus formed by a standing, hollow measuring block (1), provided with at least two heating elements (2), (3) located in close proximity to the sample to be measured (4) and one of two or more identical heaters (2) arranged symmetrically with respect to the vertical axis of the measuring block (1) and a specific liquid inlet (5) provided in the central part of the bottom a thin-walled metal container (7) with a bottom having at least one aperture (8) for the supply of specific liquid to the lower surface of the measured sample (4), on whose upper surface the contact electrode cylinder bears (9) of an electrically non-conductive material, into the bottom surface of which a central (10) and a perimeter indicator electrode (11) are arranged, which are the conductors (12, 13) are connected to terminals (14, 15) arranged in the upper surface of the contact electrode cylinder (9). Apparatus according to claim 1, characterized in that the thin-walled metal container (7) is replaceable. Apparatus according to Claims 1 and 2, characterized in that the thin-walled metal container (7) has a bottom provided with a set of holes arranged in concentric circles. 217B12 4. Apparatus according to claim 1, characterized in that the thin-walled metal container (7) has a bottom made of porous material. Apparatus according to Claims 1 to 4, characterized in that the contact electrode cylinder (9) is made of a transparent, electrically non-conductive material.