SU1656438A1 - Device for examining liquid media - Google Patents

Abstract

The invention relates to medical technology, namely to devices for researching biological objects. The purpose of the invention is to provide research opportunities with simultaneous registration of the physicochemical characteristics of biological objects. The invention makes it possible to improve the operational properties of a device for studying liquid media by radially placing the measuring elements in the housing 1 of the cylindrical measuring cell 2, which is thermostatically pumped by a thermostatic fluid through the cavity 8 made in the housing 1, in which there are through channels 3 with electrodes 4 and channels 5 for the photodiode 6 and the light guide 7. As a result, it is possible to manipulate the sample under study during the measurement, it is provided The possibility of separate processing of measuring elements and their replacement in case of damage, as well as the possibility of using electrodes with both solid and liquid filling. The cover 16 is made of a transparent material in the form of an orifice cylinder that is chamfered from the bottom end and allows continuous visual monitoring of the sample, provides the possibility of manipulations with it and reduces the working volume of the measuring cell 2. 5 Il. SL C G4 4 about ate QS -N CO 00 Fig1

Description

The invention relates to medical technology, namely to devices for researching biological objects.

The purpose of the invention is to provide the possibility of conducting research with simultaneous recording of the physicochemical characteristics of biological objects by manipulating the sample under study during the measurement.

FIG. 1 shows the proposed device, a top view with a partial section; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 — means for recording optical characteristics, section; in fig. 5 - measuring electrode, speech.

The device consists of a housing 1, which is a monolithic block of biochemically inert material (Plexiglas or Teflon) of cylindrical shape, in the center of which the actual measuring cell 2 of cylindrical shape is machined. The housing 1 has through channels 3 for placing and securing the electrodes 4 and through channels 5 for the photodiode 6 and optical fibers 7, and a cavity 8 for the thermostatic liquid in the lower part of the case.

Channels 5 for placing the light guides 7 and photodiode 6 are radially relative to the measuring cell 2 parallel to the plane of its base), Channels 3 for electrodes 4 are also radially relative to the measuring cell 2 and at an angle of 20 ° to the plane of its base. Channels 3 and 5 are made at the entrance to the cell of conical shape, and their opposite ends are threaded 9, Each measuring element is provided with an elastic gasket 10, is enclosed in a fluoroplastic sleeve 11 and is equipped with a flare nut 12. The cavity 8 for the thermostatic liquid is designed to ensure flow around measuring cell 2 liquid from both the lateral surface and from the bottom. For pumping a thermostatic fluid through the cavity 8 in the housing 1, corresponding ports 13 and 14 are provided, equipped with fittings. The cavity 8 is hermetically sealed at the bottom with a lid 15 made of brass. The measuring cell 2 is provided with a lid 16 made of a transparent material in the form of a beveled

from the lower end of the cylinder with a flange 17. The lid 16 contains two diametrically arranged channels 18 and 19, respectively, for the selection of the test sample and

drainage.

The device works as follows.

A mixing element is placed in the measuring cell 2 (sealed in

glass steel wire) magnetic stirrer (not shown) and pour the test solution or suspension Measuring elements are connected to the recording device and through the cavity 8 using a pump

(not shown) begin to pump thermostatic liquid. The measuring cell 2 is closed with a lid 16, while air and excess liquid exits through the drainage channel 19 in the lid 16. Conducted

necessary measurements. At the same time, the state of the test liquid is observed through the transparent cover 16, and the necessary samples are taken through the channel 18 in the cover 16 and / or the necessary samples are added

research reagents.

Thus, the device allows manipulations with the test sample directly during measurements, eliminates the need to monitor the cleanliness of optical surfaces directly during measurements, eliminates the need for external temperature control of the device, and ensures safety

elements from mechanical damage during the measurement.

Claims (1)

The invention of the device for the study of liquid media consisting of a housing, a measuring cell with a lid and measuring elements in the form of electrodes and means for recording optical characteristics, characterized in that, in order to provide research capabilities with simultaneous recording of the physicochemical characteristics of biological objects, it is provided with a cavity for a thermostatic fluid made in the lower part of the housing / housing and the measuring cell have a cylindrical shape, while the cell is located in the central part of the housing, and through channels are made in the housing radically relative to the cell, to accommodate measuring elements in them, and in the lid there is a channel for taking the sample under study and a drainage channel. m S.8 9-9 91  FF G / Schig4 Yu