RU2157525C1 - Plate for assessing components of liquid media by test method - Google Patents

Abstract

FIELD: analytical methods. SUBSTANCE: invention relates to devices for analyses of components of liquid media employing indicator elements impregnated with reagents changing their coloration when chemically interacted with aforesaid components. Analytic plate has a series of indicator elements impregnated with different reagents and separated from each other by polymer film. Indicator elements are placed in two layers communicating with each other through layer of transparent film, on condition that indicator elements in each layer are laid with gaps between them and elements in one layer are arranged against those in another layer. EFFECT: enabled simultaneous analysis of several components in liquid. 4 cl, 3 dwg, 1 tbl

Description

 The invention relates to devices for determining the concentration of components of liquid media by the test method using indicator elements impregnated with reagents that change color during chemical interaction with the determined components.

 A known plate for the analysis of liquid media by the test method, containing an indicator element of a capillary-porous material (paper), fixed between two layers of a polymer film or foil (see Germany patent N 2015271, NPK G 01 N 31/22). In a known plate, the indicator element is brought into contact with the test solution and the concentration of the component to be determined is judged by the intensity of the color that occurs.

 A disadvantage of the known plate is that with its help it is not possible to determine several components simultaneously in the test solution.

 Closest to the technical nature of the proposed plate is a plate for analyzing the components of liquid media by the test method, containing an indicator element of a capillary-porous material (paper), impregnated with a reactive substance and placed between layers of a transparent polymer film (see RF patent N 2103677, G 01 N 31/22, 1998).

 The known plate adopted for the prototype also does not provide the ability to simultaneously determine several components of the test fluid.

 The objective of the invention was to develop such a plate for the analysis of components of liquid media by the test method, in which it is possible to simultaneously determine several components in the test liquid.

 This problem is solved by the fact that the proposed plate for the analysis of components of liquid media by the test method, containing an indicator element of a capillary-porous material, impregnated with a reactive substance and placed between layers of a polymer transparent film, in which according to the invention there are several indicator elements impregnated with various reactive substances moreover, the indicator elements are isolated from each other by layers of a polymer film.

 Another difference of the proposed plate is that the indicator elements are placed in two layers that are in contact with each other through a layer of polymer transparent film, and in each layer the indicator elements are located with a gap relative to each other, and the indicator elements of one layer are located opposite the gaps between the indicator elements of another layer. This provides a compact device and ease of use of the plate.

 In one of the possible embodiments of the two-layer plate, the indicator elements are in the form of rectangular strips and are parallel to each other.

 In another possible embodiment of the plate, the indicator elements have a square shape and are staggered in each layer, and a hole is made in the polymer film that insulates the indicator elements from the environment, opposite the central part of each indicator element, which serves to ensure contact of the test liquid with the indicator element .

 The invention is illustrated by drawings. In FIG. 1 shows an embodiment of a two-layer plate with parallel indicator strips (plan view); in FIG. 2 is a cross-sectional view of a plate; in FIG. 3 shows an embodiment of a plate with indicator elements having the shape of a square.

Depicted in FIG. 1 and 2, one of the possible embodiments of the proposed plate is characterized in that it contains three layers of a transparent polymer film 1, 2 and 3, between which indicator elements 4 are placed in two layers, having the shape of rectangular strips and made of capillary-porous material. As a capillary-porous material, paper (filter), capillary-porous plastic, or a thin layer of sorbent particles (silica gel) can be used. In each layer of the plate, the strips of indicator elements 4 are located in parallel with the gap between them, equal to their width. Indicator elements 4 of one layer are located opposite the gaps between the indicator elements 4 of another layer. To make this variant of the plate, indicator elements 4 are laid on the polymer film 1 with a gap between them equal to their width. Top cover with another film 2, then lay in the gaps a second row of indicator elements 4, close with a third film 3 and seal with heat at 100 - 150 ^o C.

 When analyzing the plates, 1 mm is cut from both ends and lowered by one of them into the test liquid. The solution rises along the indicator strip due to capillary forces. After the solution reaches the second end of the test strips, the lengths of the painted or bleached zones of the strips are measured. The lengths of the stained or discolored areas of the test strips are proportional to the concentration of the components of the test solution.

 An example of the determination of Cu (II), Cd (II), Zn (II), Cl with their joint presence. An absorbent filter paper of 70 mm / 10 min or a thin layer of absorbent material is impregnated sequentially with reagents to deposit poorly soluble lead diethyl dithiocarbaminate, zinc dithisonate, chromium dithisonate and silver chromate in its pores. From the obtained papers, test strips of size (3-4) / (80-90) mm are cut out and thermally sealed in a three-layer film as shown in FIG. 1 and 2. The resulting indicator plate is cut 1 mm at both ends and lowered by one of them into the test fluid. After raising the liquid to the second end, the length of the stained area is measured in brown for copper, orange for cadmium, red for zinc and a bleached zone for chlorides. Concentration is determined by pre-constructed calibration graphs.

 An example of the determination of Hg (II), Fe (III), F, Cu (II) in their joint presence. Use paper impregnated with copper dithisonate, copper hexacyanoferrate (II), zirconium alizarinate, zinc diethyldithiocarbaminate. Before determination, the analyzed solution is acidified with a 2 M hydrochloric acid solution to pH 1. Next, the determination is carried out similarly to the first example.

 Depicted in FIG. 3, the embodiment of the proposed plate differs from the one described above in that the indicator elements 4 are square in shape and are staggered in each layer of the plate. In FIG. 3 indicator elements 4 of one layer (lower) are shaded to distinguish them from indicator elements 4 of another layer (unshaded elements of the upper platinum layer). At the same time, in the polymer films 1 and 3, which isolate the indicator elements 4 of the lower and upper layer of the plate from the environment, opposite the central part of each indicator element 4, holes 5 are made, which serve to ensure contact of the test liquid with the indicator element.

For manufacturing according to this embodiment, the squares of the indicator elements 4 are staggered onto the polymer film 1 with a gap between them equal to or greater than the area of the indicator element 4, closed with a polymer film 2 on top, the following rows are staggered in the gaps between the indicator elements 4 of the lower layer indicator elements 4, sealed with a thermal method at 100 - 150 ^o C. Above each indicator element 4 in the layer of the polymer film a hole is made with a diameter of 0.3 - 0.7 mm.

 In the analysis, the resulting plate is lowered into the test fluid, or a layer of the test fluid is poured onto the plate. The test solution through the holes in the film is absorbed by the indicator element 4. Qualitative analysis is carried out on the occurrence of a characteristic color of the indicator layer, quantitative - on a proportional dependence on the intensity of the color or diameter of the stained spot.

 When choosing the optimum size of the hole diameter, indicator paper was used impregnated with silver chromate and used to determine chlorides by the area of the bleached zone of brick red paper. The optimum size of the hole in the plate is determined by the absorption rate and the shape of the resulting discoloration zone (see table).

 As follows from the table, the hole with a diameter of 0.3 - 0.7 mm is optimal.

 An example of a qualitative and quantitative analysis of liquid samples.

 An absorbent filter paper of 70 mm / 10 min was impregnated with silver chromate, lead diethyl dithiocarbamate, lead alizarinate, chromium dithisonate, zinc dithiozonate, copper dithisonate, copper hexacyanoferrate (II) for the detection and determination of Cl, Cu (II), F, Zn (II) ), Cd (II), Hg (II), Fe (III), respectively.

 Small squares (0.5 - 3) x (0.5 - 3) cm in size are cut out of the resulting paper and sealed in a three-layer film, as shown in FIG. 3. A hole with a diameter of 0.5 mm is made over each indicator element 4 in the polymer film. In the analysis, the plate is lowered into the test fluid until the indicator elements are saturated. The colors that appear on the indicators judge the presence of chlorides (discoloration), copper (brown zone), fluorides (yellow zone), zinc (red zone), cadmium (orange zone), mercury (red zone), iron (blue zone). And the concentration is determined by the area or diameter of the resulting spot, using pre-built calibration graphs for standard solutions. For example, on 3x3 cm paper, the diameter of the colored zone for Fe (III) and Cu (II) at a concentration of 0.1-100 mg / L varies from 1 to 21 mm.

Claims (4)

 1. A plate for analyzing components of liquid media by a test method, containing an indicator element of a capillary-porous material impregnated with a reactive substance and placed between layers of a transparent polymer film, characterized in that it has several indicator elements impregnated with various reactive substances, the indicator elements insulated from each other by layers of polymer film.  2. The plate according to claim 1, characterized in that the indicator elements are placed in two layers separated from each other by a layer of a transparent polymer film, and in each layer the indicator elements are arranged with a gap with respect to each other, and the indicator elements of one layer are located opposite the gaps between the indicator elements of another layer.  3. The plate according to claim 1 or 2, characterized in that the indicator elements are in the form of rectangular stripes and are located parallel to each other.  4. The plate according to claim 1 or 2, characterized in that the indicator elements have a square shape and are staggered in each layer, moreover, in the polymer film that insulates the indicator elements from the environment, openings are made opposite the central part of each indicator element to ensure contact of the test fluid with the indicator element.

Images