SU1117509A1 - Device for measuring molecular weight by thermoelectric method - Google Patents

Abstract

DEVICE FOR MEASURING THE MOLECULAR WEIGHT THERMOELECTRIC METHOD

Description

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The invention relates to a measurement technique, namely, devices for measuring molecular weight, and advantageously can be used to determine the molecular weight of polymers.

Mechro lab Clncorporation A. Thomas Go, Knaer Co. instruments for measuring molecular weight by thermoelectric methods are known. The latter device has a measuring cell with thermal sensors placed in the thermostat lj.

The closest technical solution to the invention is a device for measuring the molecular weight by thermoelectric method containing a measuring cell in a thermostat, a thermal sensor connected to the recording system, a system for introducing the analyzed substances into the cell. The measuring cell of the device is a glass beaker with pockets for thermistors (thermal sensors) connected to a recording device, and the system for input of substances is made in the form of a pipette with which a sample is applied to thermistors.

In the known device, the process of measuring molecular weights consists in the fact that after the saturation pressure of the measuring cell is installed, solvent vapor poured on special balconies drops a solution on one of the two coils placed on pockets for TepNMCTopOB, and a drop of solution on the other. Spiral pockets have good thermal contact with thermistors. Due to the lower vapor pressure of the solvent above the solution, the solvent vapor begins to condense from the volume of the glass cell. The temperature gap generated by the condensation heat generated by T is used to calculate the molecular weight of the test substance 2j.

The disadvantages of this known device are the lack of reproducibility of the results obtained due to the difficulty of simultaneously applying the same solution and solvent droplets and their inaccurate temperature control, the selection of a pair of thermistors for sensitivity and temperature coefficient, limited by the power of 75091.

thermistors and, therefore, limited sensitivity.

The aim of the invention is to increase sensitivity, reproducibility of measurement results and ease of operation.

This goal is achieved by the fact that in a device for measuring a molecular-weight by a thermoelectric method containing a cell placed in a thermostat, an input system of the analyzed substances into the cell, a thermal sensor connected to the recording system, the thermostat is inserted into the second identical cell with the input system of the analyzed substances The cells are interconnected in the bottom part by a non-heat conductive channel filled with a fluid chemically inert with respect to the substance under study, the specific weight of which exceeds the specific gravity of the test. direct substance, wherein the thermostat vsholnen vizmozhnostyu rotation with respect to the horizontal axis together with the cells.

1 shows the device in the initial position, a general view; FIG. 2 - also in working position.

The device contains two identical cells 1, between which thermal sensor 2 is located. The cells are interconnected by a non-heat conducting channel 3, which is filled with, for example, mercury 4. The solvent and the analyzing solution are placed into the cells with external dispensers 5 through the input capillaries 6. The level of capacity. in the cells, the output capillaries of which are located 7 end faces are located inside the cells. The cells are placed in a thermostat 8, which can be turned over with the cells around the axes 9 with the aid of the actuator 10. The device also contains an amplifying unit 11 and a recorder 12.

The device works as follows

In the initial position, mercury 4 is in the canape 3 and divides both cells into two closed volumes. Using dispensers, 5 cells are simultaneously filled with solvent and solution. When the thermal equilibrium of the cells with the thermal sensor is reached, the thermostat is inverted with the help of the actuator 10. The cells in the inverted position are shown in Fig. 2. Mercury from channel 3 is drained to the bottom

Claims (1)

DEVICE FOR MEASURING MOLECULAR WEIGHT BY THERMOELECTRIC METHOD, containing a cell placed in a thermostat, a system for introducing analytes into a cell, a temperature sensor connected to a recording system, characterized in that, in order to increase the sensitivity, reproducibility of the measurement results and ease of use, the thermostat is introduced the second identical cell with the input system of the analytes, the cells are interconnected in the bottom of a non-conductive channel filled with a chemically inert in relation to the study liquid, whose specific gravity exceeds the specific gravity of the test substance, while the thermostat is made with the possibility of rotation relative to the horizontal axis with the cells.