SU667880A1 - Sensor for measuring electroconductivity - Google Patents

Description

(54) SENSOR FOR ELECTRICAL CONDUCTIVITY MEASUREMENT

Claims (2)

The invention relates to the field of physicochemical studies and can be used for measurement, the conductivity of a liquid, as well as for determining other parameters, such as gas content. A known sensor for measuring electrical conductivity, comprising annular electrodes separated by insulating sections 1. The ring-shaped electrodes are made of noble metals or stainless steel. Between the electrodes are annular segments of an insulating material or they are inserted into a pipe of an insulating material. . However, these sensors are very expensive from a design point of view. The pipeline sections are coaxially connected to each other. friend by welding or gluing. For constructive reasons, this sensor has a complicated and expensive manufacture. The purpose of the invention is to simplify the design of the sensor. The goal is achieved by the fact that in the proposed sensor the electrodes are fabricated. are made of electrically conductive polytetrafluoroethylene, and the separating electrodes are an insulating portion of non-conductive polytetrafluoroethylene. The electrodes and the insulating portion, by heating to a temperature above the melting point of the crystals on their end sides, are tightly coupled to each other by pressure. The drawing shows an example of the proposed sensor. The tubular sensor consists of an annular electrode 1 made of electrically conductive polytetrafluoroethylene. Above the electrode 1 is an insulating area 2. Insulating teaching, drain 2 is made of non-conductive polytetraftrrethylene. Above the insulating section 2 is the second electrode of the electrode pair, electrode 3, which fully corresponds to electrode 1. Electrode 1 and insulating section 2 and electrode 3 and insulating section 2 are rigidly connected to each other along their ends using sintering, so-called free sintering, those. sintering without a special device at a temperature of about 385 ° C. .. Sintering is carried out directly after the forming pressing. The electrical conductivity of tetrafluoroethylene is achieved by mixing about 20% by weight of graphite. Electrical conductivity can also be achieved due to other concentrations of graphite or due to other fillers. Contacting is performed using simple contacts, such as a plug or spring contact. Thus, the sensor is easy to manufacture, replaceable, and contact options are not difficult. The sensor in the gas content measurement mode operates as follows. A voltage is applied to electrodes 1 and 3. An electrically conductive fluid gives between electrodes i and 3 a certain resistance, which is reproduced by the electrical circuit. If there is now air inside the area of the liquid 04 that is located on the electrodes 1 and 3, then the resistance between these electrodes changes. This change in resistance affects the operation of the measuring circuit. Claims for measuring electrical conductivity, comprising annular electrodes separated by insulating sections, which are distinguished by the fact that, in order to simplify the construction, the electrodes are made of polytetrafluoroETHYT, and the insulating portions of nonconductive polytetrafluoroethylene, attention during examination 1. Laying out description of the invention to the accepted application of the Federal Republic of Germany No. 2038426, cl. 21 a, 27/24, 1970.