SU1052974A1 - Transducer for inspecting current conduction of material - Google Patents

Description

The invention relates to a measurement technique, in particular to sensors for signaling measurement and control devices, and can be used in instrument making, woodworking, machine tool and other industries. A known sensor for measuring the moisture content of materials, containing a rigid electrode holder, made of a material that is structurally similar to the test sample, and installed in the holder with insulators l.J. This sensor can only be used to measure the moisture content of materials and has a complicated manufacturing technology, since the sample holder is made from a material that is structured like the hydration potential tested and the same. Closest to the present invention, there is a sensor for monitoring the conductivity of a material, which contains two coaxially arranged and separated by an insulator electrode: an internal platinum electrode and an external electrode made of Eikkel as a Cz capler J. However, the known sensor cannot be used to control for the continuity of the application of the conductive composition to the substrate. In addition, it is unstable in work and for manufacturing: expensive and scarce materials are needed. The purpose of the invention is to simplify the design. The goal is achieved by the fact that in the sensor for monitoring the conductivity of a material containing two coaxially arranged electrodes, the inner electrode is made of an elastic material, and the length of the outer electrode is longer than the inner one by the value of v -., The inner electrode; R2 is the outer radius of the external electrode, the external electrode being made of a non-rigid material impregnated with a conductive compound. The outer electrode is made predominantly of a cotton lamp wick impregnated with an anti-electrostatic composition. FIG. 1 shows the proposed sensor, general view, longitudinal section in FIG. 2 - sensor switching circuit The sensor contains an electrode 1 made of an elastic material (for example, elastic rubber, steel wire, etc.), and an electrode 2 coaxially arranged with it, an electrode 2, you are made of a non-rigid material impregnated with conductive composition (for example, a cotton tube wick. impregnated with anti-electrostatic composition). The length of the external electrode is greater than the length of the internal /.-R/ - .. by the value of R - the radius of the central electrode; R is the outer radius of the external electrode. The sensor is connected, for example, to the signaling device 3 and is brought into contact with the test material 4, on which the conductive composition 5 is applied. The electrical circuit is closed, the electric current flows through the sensor and the signaling device 3 is turned on. When the conductive composition is shut off, the electrical conductivity of the material is broken, the electrical circuit is opened and the signal device 3 is turned off. The proposed sensor has a simple design, is simple to manufacture and does not contain expensive and scarce materials. The central electrode, made of an elastic material, provides rigidity to the sensor and makes the sensor elastic. The external electrode, made of a soft POROUS material, provides a Soft touch to the surface of the test material, impregnating the external electrode with a conductive property and ensuring its operability , and the use of a conductive composition applied to the material being subjected to impregnation leads to lower material costs and eliminates the need for additional sensor fabrication. The difference between the length of the external and central electrodes is optimal, since an increase in the length of the external electrode can lead to a violation of the elasticity and deformation of the external electrode, and 1: therefore, to unstable operation of the device or to deactivate it. Reducing the length of the external electrode can damage the surface of the controlled material with a centrifugal electrode. I Connecting the sensor to a signaling device provides control over the continuity of the conductive composition, which guarantees the quality control of electrically conductive materials. And connecting the sensor to the measuring devices makes it possible to determine the electrical parameters of the materials.

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Claims (2)

1. MATERIAL SENSITIVITY CONTROL SENSOR, comprising two coaxially spaced electrodes, characterized in that, in order to simplify its design, the inner electrode is made of elastic material, and the length of the outer electrode is longer than the length of the inner one by C = 2ll? „+ · R ~ R \ +2 1) where B _l is the radius of the inner electrode; R ₂ is the radius of the external electrode, and the external electrode is made of a non-rigid material impregnated with a conductive composition. 2. The sensor according to claim 1, in that the external electrode is made primarily of a cotton lamp wick soaked in an anti-electrostatic composition. S ω FIG. 1