RU1796892C - Method for surface roughness determination - Google Patents

Abstract

The invention relates to measuring and control equipment and can be used in the metalworking and engineering industries. It is an object of the invention to simplify a method for determining surface roughness by eliminating the cost of cooling a conductive fluid in contact with a surface. When implementing the method, an electro-rheological liquid is placed in the dielectric tube, it is mounted on a controlled surface and a high-voltage direct current voltage is applied between them. Under the influence of an electric floor. hardening of the electrorheological liquid takes place, after which the leakage current is measured between the electrodes mounted on the tube and the metal object and, based on its value, the roughness of the controlled surface is judged, 1 zp f-ly, 1 silt, ate

Description

The invention relates to a measurement and control technique and can be used in the metalworking and engineering industries to determine surface roughness. :

A known method for determining the surface roughness is that a high-voltage direct current voltage is applied between the electrode and the surface to be monitored, the leakage current is measured and the surface roughness of the surface to be monitored is measured.

The disadvantage of this method is the low accuracy of determining the roughness.

The closest in technical essence to the proposed solution is a method for determining the surface roughness, which consists in the fact that a hardenable electrically conductive liquid is placed between the electrode and the controlled surface, a high-voltage DC voltage is applied between them, the leakage current is measured and its value the roughness of the controlled surface pre-cooled to a temperature below the freezing temperature of the electrically conductive liquid is judged.

The disadvantages of this method are the presence of costs associated with the formation of a solid phase of an electrically conductive liquid, namely, cooling the controlled surface, which ultimately complicates the control process.

The purpose of the invention is to simplify the method of determining roughness by eliminating the cost of creating a solid phase contacting the conductive fluid in contact with the surface.

This goal is achieved by the fact that a conductive liquid capable of curing is placed between the electrode and the surface being monitored, a high-voltage direct current voltage is applied between them, the leakage current is measured and the surface roughness of the surface being monitored is measured, and as an electrically conductive fluid, a fluid is used that changes its viscosity under the action of 5 | gender, for example, rflogical fluid.

The drawing shows a device for; the implementation of the method for determining surface roughness:

The device consists of a tube 1 for supplying ELECTRIC fluid 2, mounted above a supervised surface 2 of the object, and electrodes 4 and 5, to which a high-voltage voltage is supplied for a certain Other current ;; At.

The method for determining the ujeppxdBaTocTH of the metal surface of an object is carried out as follows, B. an electrorheological liquid 2 is placed in the tube 1 and placed above the controlled surface 3 of the metal object. When a contact occurs, liquid 2 instantly hardens due to the action of an electric field formed by electrodes 4 and 5, to which a high-voltage DC voltage is preliminarily applied. Between the electrodes 4 and 5, the leakage current is measured and the surface roughness is judged by its magnitude.

The invention allows to significantly reduce the cost of monitoring electrically conductive surfaces by eliminating auxiliary means for creating a solid phase of an electrically conductive fluid, as well as by increasing the speed of control due to instant solidification of the fluid.

FORMULA AND ZOBRETIN

Claims (2)

1. Sporrb determination of surface roughness, Zak. The reason is that a solidifying, electrically conductive liquid is placed between the electrode and the surface to be monitored, a high-voltage DC voltage is applied between them, and the leakage current is measured and. by its value, Judgings on the roughness of the controlled surface, which includes the fact that, in order to simplify the method, a fluid that changes its viscosity under the influence of an electric field is used as an electrically conductive liquid; :: 2. The method according to claim 1, with the fact that in the strength of the electrically conductive fluid, which changes the viscosity according to the effect of the electric field, an electrorheological fluid is used.