SU840705A1 - Sensor for analysis of medium pollution - Google Patents

Description

(54) SENSOR FOR ANALYSIS OF ENVIRONMENTAL POLLUTION

Claims (3)

The invention relates to the determination of the contamination of various media and can be applied, for example, when operating a hydraulic actuator to determine the suitability for use of a working fluid by the criterion of its contamination by solid particles. A device for measuring the size of droplets of an electrically conductive liquid in a dispersed flow is known, comprising a housing coaxially with an electrode with conical ends directed towards each other, a borshtang coordinate, connecting wires, and the housing is provided with a frame in which electrodes are installed and the groove for the connecting wires is made. This device is a lack of accuracy and objectivity of measurement due to the fact that not all particles-drops of flow in the measurement process fall into the interelectrode space, the dimensions of which are limited by making the ends of coaxial electrodes directed toward each other, tapered, and with external tapers. The closest to the proposed technical effect and the achieved positive effect is a sensor for the analysis of contamination, the medium, comprising a body made of electrically insulating material, coaxial, hollow male and female electrodes, with the male body placed inside the body, which is mounted in the body. The medium being analyzed passes between the inner surface of the enclosing electrode and the outer surface of the enclosed electrode. The internal cavity of the latter is filled with an insulating material in the assembled form of the C2 sensor. However, this sensor does not allow for optimum sensitivity. by analyzing and counting particles in various media, each of which has a relatively large drop in the size of the contaminant particles. In addition, it is necessary to note the structural difficulty of fastening the male electrode and the complexity of its installation with the optimum gap for the specific medium relative to the female electrode. The purpose of the invention is to increase the sensitivity of the sensor. This goal is achieved by the fact that in the sensor for analyzing the contamination of the medium, comprising a body made of electrically insulating material and hollow coaxially arranged electrodes inside the body - covered and covering, the covering electrode is made with an internal taper, and covered with an external taper in the conical part of the covering the holes are made in such a way, while both electrodes are movably connected to the sensor body and made conical parts entering each other. The drawing shows the sensor, a longitudinal section. A sensor for analyzing the contamination of the medium, for example, a dielectric fluid flow, comprises a housing 1, made cylindrical of an electrically insulating material, covering 2 and covering 3 electrodes. Electrodes 2 and 3 are filled with hollow (cavities 4 and 5 electrodes 2 and 3, respectively) for passing the analyzed fluid through them with particles 6 suspended in it. The electrodes are placed inside the housing coaxially with each other and connected to it by means of a threaded connection. The electrodes are mutually relative to each other and form the interelectrode gap 7, which is necessary for a particular analysis. ZAZ 7 is formed between the surfaces of the parts of the electrodes entering one another, which are made with the same taper value, covered with an external cone awn, scream with inner. In the conical part of the covered electrode 5, holes 8 are made of the maximum possible diameter Ls (the structural strength of the conical part), directed into the internal cavity 5 of the electrode 3. The holes are designed to pass the test liquid FROM the internal cavity 5 of the electrode to the internal cavity 4 of the electrode 2. The sensor works as follows. The controlled medium with particles 6 suspended in it enters the internal cavity 5 of the covered electrode 3 and then through the holes B - into the interelectrode gap 7, after which - into the cavity 4 of the electrode 2 and leaves the sensor. When passing through the interelectrode gap 7, the particles 6 change the parameters of the electric field formed by the electrodes 2 and 3, as a result of which the electrical capacitance created by the electrodes 2 and 3. Each capacitance change generates electrical pulses whose magnitude (amplitude value is proportional to the parameters of the particles of the medium being analyzed. Each specific portion of the analyzed medium is passed through the sensor for the first time at a maximum electrode gap 7, then through a sensor with a smaller gap 7. This sensor design allows significantly to increase the sensitivity, setting its optimum value for each analysis of the medium, which has a relatively large scatter of particle materials. It is also convenient in operation, since the sensor consists of only three main parts of the housing and two electrodes, which, in turn, do not require complicated operations both in the manufacture and assembly of the sensor, and in the operation of them. medium knowledge, comprising a housing made of electrolysis insulation material and hollow coaxial electrodes placed inside the housing - covered and encompassing, characterized in that, in order to increase the sensitivity, the covering electrode is made with an internal cone covered with an external taper, holes are made in the tapered part of the covered electrode, and both electrodes are connected to 5840705Ь the body of the sensor and the entrances to the entrance- I. the USSR author's certificate and each other with conical parts. 9 466431, cl. G 01 N 15/02, 1972. Sources of information, 2. US Patent No. 3231815, taken into account in the examination of cl. 324-61, 1969.