SU1442809A1 - Surface-contact thickness gauge for measuring moving material particularly, metal strip - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to improve the measurement accuracy. The device comprises a base 1, a pivotally mounted body 3 with guide rollers 4, a measuring unit 5, a mechanism 21 5 2 18 22 25/5 OTs ... L4 "1 balancing the measuring unit, made in the form of an emphasis 18, support rollers 19, tide 20 , rod 21 with thickening, 22 and springs 24 and 25, and control unit 6, while the height of thickening, e- 22 is less than the height of the hole in the stop 18, and the stiffness of the spring 25 is greater than the spring 24. Measurable tape 28 are placed on rollers 4, and the probes 8 and 12 are constantly in contact with the surface of the belt 28. Depending on the thickness of the moving the tape probe 12 is moved up or down and the measuring unit 5 turns on the rollers 19 relative to the housing 3, respectively, clockwise or against, compressing the spring 24 or 25. The digital device 28 shows the nominal size of the tape thickness 28 set during adjustment, and the dial gauge 26 shows the deviation of the tape thickness from the nominal size. 1 il. W (L 26 4 th 00 about with

Description

The invention relates to a measurement technique and can be used to continuously measure the thickness of moving metal strips and strips during rolling.

The aim of the invention is to improve the measurement accuracy.

The drawing shows the structural scheme of the contact thickness gauge.

The contact thickness gauge of the motion material consists of a base 1, a housing 3 mounted on a hinge suspension 2 with guiding rollers 4, a measuring unit 5, a balancing mechanism for the measuring node and a control unit 6.

The measuring unit has a pivoting double-arm lever 7 with a measuring probe 8 on one shoulder, located at the ends of the spring lever 9 and limiters 10 of the lever rotation, the deformation sensor 11 installed with the ability to interact with the other lever arm 7, the second measuring probe 12 installed coaxially with the measuring probe 8 in a micrometric bushing 13 with a limb 14, kinematically connected through gears 15 and 16 with a stepper motor 17.

The balancing mechanism of the measuring unit 5 is made in the form of a stop 18 with a cylindrical bore mounted on the measuring node and support rollers 19 for engagement with the surface of the body 3 placed on the body 3 of the tide 20, the rod 21 with a thread at the ends and a cylindrical thickening 22 in the middle fixed rigidly with one end on the tide 20 with the placement of the bulge 22 in the hole of the stop 18, the nut 23 mounted on the other end of the rod 2-1, the spring 24 placed on the rod 21 between the stop 18 and the tide 20, and the spring 25 placed ezhdu abutment 18 and the nut 23. The height of the thickening 22 on the rod 21 is less than the height of the openings 18 in abutment, and the spring constant of the spring 25 Large Live hardness 24.

The control unit 6 has a measuring pointer device 26 associated with the sensor 11 and a digital device 27 associated with the stepper motor 17.

The adjustment of the contact thickness gauge is made as follows.

The lever 7 is exposed parallel to the lower plane of the measuring unit 5 by deforming the springs 9, and moving the rod 21 in the tide 20 sets the upper plane of the measuring node 5 parallel to the upper plane of the housing. The sensor 11 is installed so that when it touches the measuring tip with the lever 7, the arrow of the measuring device 26 is on the zero division of the scale, and the measuring probe 8 is mounted on the

five

0

o 5 o

dg

about 55

7 on the same level with the supporting rollers 4. Then, by deforming the springs 9, the lever 7 is rotated, moving the measuring probe 8 to the maximum deviation of the thickness of the measured tape from the nominal value, which is measured by the deviation from the zero position of the instrument 26, The measuring probe 12 is installed with the help of a stepper motor 17 on the nominal size of the measured tape using a digital device 27.

The contact thickness gauge works in the following way.

The measuring tape 28 is placed on the support rollers 4, and as it moves, the test leads 8 and 12 are constantly in contact with the surface of the tape.

If the thickness of the tape 28 is larger than the nominal size, the probe 12 moves upward and the measuring unit 5 rotates on the rollers 19 clockwise relative to the housing 1, compressing the spring 25, and the measuring tip of the sensor 1 moves inward of its case, and the arrow 26 in “plus.

 When the thickness of the tape 28 is less than the nominal, the measuring unit 5 is rotated counterclockwise under the action of the spring 25, the measuring tip of the sensor 11 is moved out of its body and the arrow of the device 26 is deflected to minus.

With a nominal ribbon thickness of 28, the instrument 26 is in the zero position.

During the measurement of the spring 24 and 25, the oscillations of the probes 8 and 12 from the vibrations, shocks and impacts are extinguished, thereby ensuring high measurement accuracy.

The control unit 6 simultaneously with the continuous output to the switch instrument 26 of the indication of the deviation of the thickness of the measured tape 28 from the nominal size issues a command to the rolling equipment management system.

A contact thickness gauge of a moving material, predominantly a metal tape, containing a base, an articulated body mounted on it with leveling rollers, a measuring assembly with contact probes and a sensor placed in the housing, and a Q control unit, in which equipped with a balancing mechanism for the measuring unit, made in the form of an emphasis with a cylindrical bore placed on the measuring unit and two support rollers located on either side of the abutment on one what is the distance from it with the possibility of 1442809

34

interaction with the core surface at the other end of the rod, and

Pusa, tide, placed on the body, mounted on the rod of two springs,

one end of a rigidly fixed one of which is placed between the stop

tide rod with a thread at the ends and tide, the other - between the stop and

a cylindrical thickening in the middle, a nut, and the height of the thickening on the rod

placed in the stop hole, nut, less than the height of the hole in the stop.

Claims (1)

Claim Contact thickness gauge of a moving material, mainly a metal tape, containing a base, a hinge-mounted housing with guide rollers mounted on it, a measuring unit with contact probes and a sensor placed in the housing, and a control unit, characterized in that, in order to increase the accuracy of measurement, it is equipped with a balancing mechanism measuring unit made in the form of an abutment with a cylindrical hole placed on the measuring unit and two support rollers located on both sides of the abutment at a wide distance from it with the possibility of interaction with the surface of the body, a tide placed on the body, one end of a rod rigidly fixed to the tide with a thread at the ends and a cylindrical thickening in the middle, _R placed in the stop hole, a nut installed on the other end of the rod, and installed on the rod of two springs, one of which is placed between the stop and the tide, the other between the stop and the nut, and the height of the bulge on the rod is less than the height of the hole in the stop.