SU1386893A1 - Apparatus for determining microquantities of substances - Google Patents

Abstract

The invention relates to devices for determining micro-quantities of a substance using chemical indicators in the form of reactive papers, can be applied in laboratory practice, and allows an increase in the degree of sensitivity and accuracy of the rapid determination of micro-quantities of substances in the analyzed solution.

Description

one

The invention relates to devices for determining quantities of substances using chemical indicators in the form of reactive papers and can be used in laboratory practice for the rapid determination of micro quantities of substances.

The aim of the invention is to increase the degree of sensitivity and accuracy of the rapid determination of micro-quantities of substances in the analyzed solution and simplify the design.

Figure 1 shows the proposed device, a General view; figure 2 - view And figure 1.

A device for determining micro-quantities of substances contains an insert 1 with an intake tube 2 attached to one end of the control chamber 3, to the other end of which is attached a suction device designed in the form of a cylinder 4 with a piston 5 having a longitudinal through channel 6. Between the control chamber 3 and the cylinder 4 fixed flexible diaphragm 7 with a rigid center in the form of a washer B. In the upper part on the control chamber 3 and the lower part of the cylinder 4, made of a transparent material (eg glass), a box 9 is applied. Insert 1 s the intake tube 2 is attached to the control chamber 3 with a bayonet 10, the groove II of which in the insert 1 with the intake tube 2 is angled 80-82 to the longitudinal axis of the intake tube 2. Reactive paper 12 is laid between the insert 1 and the control chamber 3 immersed in the analyzed solution in the measuring cup 13.

The device works as follows.

Pre-calibrate the transmission rate of the analyzed solution at the height of the lift of the flexible diaphragm

7 with a washer 8 (when filling the control chamber) or lowering a flexible diaphragm 7 with a washer 8 (when pushing the test solution out of the control chamber 3), then reactive paper 12 is laid into the insert 1, which is fixed to the control chamber 3 with the help of the bayonet joint 10 . Immerse the intake tube 2 in the analyzed solution,

located in the measuring cup 13. The piston 5 with the open longitudinal through canap 6 (with the internal cavity of the cylinder 4 communicating with the atmosphere) is lowered into the bottom of the cylinder 4,

Close the through longitudinal channel of the bis, which is determined in advance by the height and height of the flexible diaphragm 7 with the washer 8, and which raise the piston 5.

At the same time, the analyzed solution from the measuring cup 13 is passed through reactive paper 12 and fills the control chamber 3. If it is necessary to fill the control chamber 3 with the analyzed solution, open the through longitudinal channel 6, lower the piston 5 to the bottom of the cylinder 4, close the through longitudinal channel 6, lift up

The piston 5, at the same time, from the measuring cup 13 to the control chamber 3, the next portion of the analyzed solution stops. So do as long as the color of the reactive paper 12

will become permanent. The color is then compared to a standard color scale, and thus the concentration of the substance in the analyte is determined. Since the control

chamber 3 is transparent, the color of the reactive paper is determined without removing it from insert 1. When the test chamber 3 is filled completely with the test solution and the need to continue passing it through reactive paper 12 is ejected, a flexible aperture is set in advance and controlled in height 7 with 8 speed washer. For an open through longitudinal channel 6, raise the piston 5 to the top of the cylinder 4, close the through longitudinal channel 6 and lower the analyzed solution from the control chamber 3 by lowering the piston 5, passing it through the reactive paper 12 the necessary number of times. To empty the control chamber 3, the insert 1 is removed and the analyzed solution is pushed out by the piston 5.

Fastening the insert to the control chamber with a bayonet joint greatly simplifies the design and allows you to quickly and reliably secure the reactive paper and control the change in its color without removing it from the insert. Repeated passage of the analyzed solution through reactive paper will significantly increase the sensitivity of the method. The fact that the groove of the inset with the intake tube of the bayonet joint is made to the longitudinal axis of the intake pipe at an angle of 80-82 allows you to quickly and reliably secure the reactive paper and a control chamber, since at an angle of less than 80 the bayonet connection is unreliable due to the possibility of arbitrary self-opening, and at an angle of more than 82 °, the paper is clamped between the insert and the control chamber on tightly

The technical and economic effect of the implementation of the invention lies in the possibility of express determination of concentrations, for example, under field conditions, simple in design and in operation, as well as a reliable device, while providing a high degree of sensitivity and accuracy of rapid determination of micro-quantities of substances in the analyzed solution.

Claims (2)

1. A device for the determination of trace quantities of substances containing a control chamber, an insert with a suction tube connected to one of the ends of the control chamber, and a suction device located at the opposite end of the control chamber, characterized in that, in order to increase the degree of sensitivity and accuracy of the rapid determination of micro-quantities of substances in the analyzed solution and simplify the design, the insert with the suction tube is connected to the control chamber by means of a connector, the suction device is made in the form of a cylinder with a piston, and between the control chamber and the cylinder of the suction device a flexible diameter is established a fragment with a rigid center, wherein the piston is made with a through longitudinal channel, and divisions are applied on the body of the control chamber and the lower part of the cylinder. 2. The device as claimed in claim 1, wherein the connector is made in the form of a bayonet joint, and the angle of inclination of the groove of the bayonet joint on the insert to the longitudinal axis the intake tube is within 80-82 °, Budl J3 77 Uz.l