SU1375943A1 - Thickekss gauge - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention is to increase the productivity and expansion of the field of application, as well as to increase the accuracy of measurements of the thickness of the products of a complex profile and to make it possible to measure the thickness of products made from diamagnetic and paramagnetic materials. To do this, using a displacement meter located in the central part of the housing 1, the movement of a permanent magnet 5 mounted on one end of a non-magnetic brush 4, at the other end of which a pair of magnets 11 and 12 of magnetic radially centered axial stops, another a pair of magnets 13 and 14 are installed respectively in the cover 2 and the housing 1 of the thickness gauge at its non-working end. Using axial stops before measurement, the thickness gauge is pre-balanced, i.e. the position of the ferromagnetic rod 3 is ensured, at which the readings of the meter 10 are equal to zero. The movement of the permanent magnet 5 with a displacement meter is uniquely related to the thickness of the products. 2 hp f-ly, 4 ill. SL 00 SP SO phage.

Description

The invention relates to a measurement technique - to technical means for non-destructive profile control of both the thickness of insulating and metal coatings on ferromagnetic bases, and the thickness of thin-walled non-magnetic and ferromagnetic products.

The purpose of the invention is to increase productivity and expand the field of application by providing continuous monitoring of changes in thickness along the surface of the product and ensuring control of both film coatings (metallic and insulation) on ferromagnetic bases and thin-walled hollow, including fully closed, ferromagnetic products.

In addition, the aim of the invention is also to improve the accuracy of measurements of the thickness of products of a complex profile, by making magnets with concentrators, as well as the ability to measure the thickness of products from diamagnetic and paramagnetic materials by using an auxiliary magnetic element.

FIG. Figure 1 shows the design of the thickness gauge and its orientation relative to the product being monitored when measuring the thickness of protective films on ferromagnetic bases; in fig. 2 - installation of a thickness gauge at a controlled object with a single profile thickness gauge of thin-walled ferromagnetic products that do not have protective coatings; .on FIG. 3 — mutual orientation of the thickness gauge, the object to be monitored, and the auxiliary ferromagnetic element with thickness gauging of composite dia- and paramagnetic products; on firm. 4 - the shape of the sensing elements of the thickness gauge, designed to change the main magnet, if necessary, to control complex ferro- and diamagnetic products.

The thickness gauge contains a rod polp housing 1 with a lid 2 at one of its ends mounted for movement relative to the longitudinal axis of the housing 1, located along this axis a hollow ferromagnetic rod 3, a nonmagnetic rod 4 and a permanent magnet 5 installed in the central part of the housing 1 gauge movement, made in the form of three coaxially mounted windings 6-8, covering the strips 4, the average of which 7 is designed to be connected to a stabilized AC source 9, and the outer windings 6 and 8 are included . opposite and intended to be connected to the voltage meter 10, two coaxially placed magnetic radially centering axial stops, each of which is made in the form of a conical 11 (12) and a cylindrical 13 (14) with a conical opening of magnets, the conical magnets 11 and 12 are fixed on one the end of the rod 4, at the other end of which the permanent magnet 5 is fixed, and the cylindrical magnets with the cone-shaped holes 13 and 14 are fixed, respectively, in the bolt 2 and in the housing 1 at its non-working end, two displacement bodies of shielding disks 15 and 16 with central holes and anti-friction guide sleeves 17 and 18 installed in them, in which rod 4 is placed, and ferromagnetic rod 3 placed in opening of windings 6-8 displacement meter and rigidly connected with rod 4 .

The permanent magnet 5 is replaceable with a hub 19 at its working end.

The thickness gauge is provided with an auxiliary magnetic-conducting element 20 of ellipsoid or spherical shape, intended for installation in the measurement zone on the opposite side of the wall of the product 21. A diamagnetic cap 22 is installed on the working end of the housing 1.

The thickness gauge operates as follows.

If it is necessary to control the protective coatings, both insulating and metallic, on ferromagnetic bases, prior to measurements using a dial gauge, meter 10 checks the initial balance of the thickness gauge, for which the latter

vertically mounted diamagnetic cap 22 on the ferromagnetic plate, the surface of which has no coatings. If the meter reading 10 is then

zero, then the initial balancing of the thickness gauge does not need to be corrected. If the reading of the meter 10 differs from zero, a smooth rotation of the cover 2 ensures that the signal level recorded by the meter 10 is zero.

In this case, the movable ferromagnetic rod 3 is in an average suspended position, in which the action of gravity of the movable assembly composed of elements 5, 4, 3, 12 and 11, as well as the joint action of unidirectional with the indicated force of gravity of the attraction of the permanent magnet 5 the said coating-free ferromagnetic plate and the action of the buoyant axial force generated by the magnetic radial-dendriting axial stop are balanced by the resistance of the upward axial force generated by the magnet th reacting magnets 12 and 14 of the lower axial abutment.

After this preliminary control of the initial balancing of the thickness gauge, it is installed by an external thrust of the diamagnetic cap 22 on the test article 21 at the area of the protective coating to be measured normally to the plane of this area (Fig. 1).

Since the force of interaction between the permanent magnet 5 and the ferromagnetic base of the product under study 21 is smaller than the force of the interaction of the magnet 5 with a pure ferromagnetic plate during the initial balancing of the thickness gauge, when the distance between these interacting elements is minimal, the movable assembly of the thickness gauge forces this assembly under the action of the unbalanced part of the upward pushing axial force of the magnets 12 and 14 o evogo abutment is displaced upwards until a dynamic equilibrium state due to an increasing axial force upper axial stop.

The upward movement of the permanent magnet 5 and the stem 4 rigidly associated with it with the ferromagnetic rod 3 and the magnets 11 and 1.2 of both magnetic axial stops is at a specific

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divided ferromagnetic basis of all controlled products by an unambiguous function of the thickness of protective coatings, regardless of their type — both electrically conductive, including semiconductor and metallic, and insulating.

When the magnet 5 is in the process of measuring from its pre-established initial balanced state, the ferromagnetic 9, rod 3 from the initial average position in the three-section displacement meter also deviates simultaneously.

In connection with this, on its counter-connected windings 6 and 8 a difference signal is formed, which is proportional to. deviation of the permanent magnet 5 from its original position.

The difference signal from the oppositely connected windings 6 and 8 through the connector 23 enters the input of the voltage meter 10, the dial gauge indicator of which is previously calibrated with ferromagnetic plates covered with non-magnetic protective films calibrated tol1cin, in units of the parameter being monitored (thickness).

The scale of the gauge 10 calibrated by TaKiiM is universal and fair for control.

coatings with different electrophysical and chemical properties.

By smoothly moving the thickness gauge by the outer end of the diamagnetic cap 22 along a predetermined contour on the surface of the test article 21, it is possible according to the indications of the meter 10 to remove a continuous curve of variation of the coating thickness along the specified contour.

A profilogram characterizing the law of variation of coating thickness along a predetermined contour on a monitored product can be graphically recorded using a recorder 24 connected through an amplifier 25 and a detector link 26 to the input of the meter 10 (FIG. 1).

Along with the operational control of dissimilar protective coatings, the proposed device allows for the discrete and uninterrupted following thickness measurement of thin-walled ferromagnetic products — as an open

type (sheet, roll) and hollow, including fully closed (closed), which not only exclude the possibility of two-way access to the wall sections to be controlled, but which completely exclude the possibility of introducing into the cavity of the product of any auxiliary elements.

Along with the considered possibilities of discrete and continuous control of the thickness of both dissimilar non-magnetic coatings on ferromagnetic bases, and the thickness of thin-walled open and closed (hollow) ferromagnetic products 21, the proposed thickness gauge also provides additional options for discrete and follow-up control of the thickness variation. single-element and multilayer non-magnetic products of 21 different physico-chemical composition, including composite-composite products, consisting of a combination of alternating electrically conductive and insulating layers.

When inspecting such products against a diamagnetic cap 22 of a thickness gauge, installed on one side of a controlled nonmagnetic product 21 (Fig. 3), an auxiliary magnetic element 20 is placed on the other side of the product 21, the shape of which can be different depending on the type of controlled objects - open or closed (hollow).

Thus, when controlling the wall thickness of hollow diamagnetic products 21, the most optimal is the spherical shape of the auxiliary magnesium - conductive element 20, while at the profile control of open diamagnetic products - flat, sheet and rolled - the best from the point of view of technological convenience and accuracy Measurement is the flattened ellipsoid shape of the auxiliary magnetic element 20, as shown in FIG. 3

In the process of measurements. under the action of the field of the permanent magnet 5 of the thickness gauge mounted on one side of the monitored product 21, the auxiliary magnetic conductor element 20 is oriented

on the other side of the product 21, at a portion of its surface opposite to the diamagnetic cap 22. The permanent magnet 5 under the action of the forces of interaction with the auxiliary magnetically conductive element 20 is lowered downwards, away from its original (installed with a free thickness gauge, unloaded by any - tsami) the position at which the ferromagnetic core 3 is in its middle, neutral position in the displacement meter.

The axial downward movement of the magnet 5 is uniquely dependent on the thickness of the monitored non-magnetic product 21 in its test areas and is measured by a displacement meter.

The thicknesses of the examined non-magnetic products 21 are removed from the dial gauge voltage meter 10, the scale of which, previously calibrated with

A series of thickness calibrated standard non-magnetic plates directly in units of the parameter being monitored is universal and valid for non-magnetic products with an arbitrary combination of physicochemical and electrically conductive properties.

In addition, in order to increase the accuracy when it is necessary to perform one-sided discrete and continuous monitoring of open and closed complex profile ferromagnetic products 21 with a complex profile, it is advisable to carry out a permanent magnet 5 interchangeable with a hub 19 at its working end, i.e. make the tip of magnet 5 spherical or tapered (figure 4).

The change of these magnets 5 and the transition from the tip to the tip are made in accordance with the growth of the steepness of changing the profile of the wall of the product 21 to ensure maximum resolution and optimal conditions for recording the most objective profilogram of the wall of the product 21 along its controlled contour.

Claims (1)

1. A thickness gauge containing a core hollow body with a lid on one of  //////// 7 /////////// ъ 3 JPhiz .g FIG. Editor V. Bugrenkova Compiled by I. Rekunova Tehred L. Oliynyk Fig.Z Proofreader A. Zimokosov