SU1065054A1 - Load-cell strain gauge for measuring contact tensions - Google Patents

Abstract

DISSOLUTION FOR MEASUREMENT OF CONTACT VOLTAGES in the deformation center during rolling, containing a measuring and measuring roll with axial and radial channels, a housing with a measuring pin, an axially mounted strain gauge, a sensor mounted in a radial channel, and a clevis, which is connected to an axial channel, is set into an axial channel, it is a set 4 accuracy and reliability of measurements during rolling with the use of cooling rolls and technological lubrication, it is equipped with a tip mounted between the pin and the voltage sensor, and the sensor is designed as the drum with a lock of its rotation and axial movement relative to the tip, while the tip is made with a hardness exceeding the hardness of the drum. (L o :) 01 o ate 4

Description

The invention relates to rolling production and can be used in determining contact loadings in the deformation zone during rolling of simple and shaped profiles.

Known load rolls, made in whole or in part of the polarization-optical material ij.

A disadvantage of the known rolls is that it can practically not be used in industrial conditions, since the material of the rolls does not meet the requirements imposed on the rolls.

The known contact points for measuring contact stresses, comprising a load roller with axial and radial channels, a housing mounted in a radial channel with a measuring pin, a voltage sensor mounted in the axial channel, in contact with the pin 2.

The one disadvantage of this messdosen is that it does not allow to carry out load point measurements in the working cages of rolling mills, which work with technological lubrication and roll cooling, due to the ingress of working media to strain gauge voltage sensors and their electrical contact electrical circuits. , which leads to a violation of their isolation.

The purpose of the invention is to improve the accuracy and reliability of measurements during rolling using roll cooling and technological lubrication.

The goal is achieved by the fact that the gauge for measuring contact stresses in the deformation center during rolling contains a load roller with axial and radio: channels, a gauge mounted in a radial channel, a pressure sensor mounted in an axial channel, a contact with a pin the tip mounted between the pin and the voltage sensor, and the sensor is made in the form of a drum with a lock for its rotation and axial movement relative to the tip, while the tip is made with TV By the hardness, the superior drum hardness.

FIG. 1 shows the mesdoz, longitudinal section; in fig. 2 - the same cross section; in fig. 3 - the same view of the drum with the calibration

and working grooves.

The month consists of load-measuring rolling mill 1 with axial 2 and radial 3 channels, housing 4 installed in the radial channel with measuring pin 5, pressed

spring 6 to the voltage sensor 7 mounted in the axial channel of the roll Pin 5 is provided with a tip 8, made, for example, in the form of a ball or a diamond cone, and voltage sensor 7 is made in the form of a drum 9 and a clamp 10 of its rotation and axial movement relative to the tip, while the tip is made with a hardness exceeding the hardness of the drum. To measure the contact stresses arising from the rolling of metal 11, a tamper-12 and working grooves 13 are applied to the surface of the drum 9.

The device works as follows.

The medsoz mounted in the roll is loaded using a calibration device (not shown) used for graduation of the dose, after which the lock 10 is rotated through an angle of 20-30. As a result of pressing the tip 8 into the body of the drum 9, a section of the calibration groove 12 of width 8i is formed. Then the load on the pin 5 is measured (when the latch 10 is rotated at a new angle, another section of the calibration groove 12 of width 2 is obtained) In a similar way, the entire subsequent plot of the section and the calibration groove 12 is formed. The more transition areas, the more accurately the workers can work. grooves 12 Thus prepared for operation, the mesdoz together with the roller 1 is installed in the rolling stand. Calibration of the meter doze can also be carried out directly in the rolling stand. Then, a rolled strip 17 is set in the rolls 1. When the mesdoza enters the deformation zone of the rolled metal, a force is created on the pin 5, which is transmitted through the tip 8 to the drum 9, and a working groove 13 is drawn, the width of which depends on the magnitude of the contact stresses. Next, the voltages are decoded by comparing with the widths of the calibration and working grooves 12 and 13, after which the plot is plotted. To re-measure the distribution of contact stresses, the drum 9 is displaced in the axial direction by an amount 3-4 times more (the first maximum width of the calibration groove 12. The material of the drum 9 and tip 8 is chosen to depend on the properties of the rolled metal 11. During hot rolling or rolling colored metals, the drum 9 can be made of brass or aluminum, and the tip 8 is a hardened steel ball with a hardness of 400458 HB. In the case of cold rolling steel strips, it is preferable to make the drum 9 of cf. dneuglerodistoy normalized steel, as the tip is preferable to use a diamond cone.

The proposed arrangement eliminates intermediate measuring units and allows for the almost direct measurement of contact pressures, while the accuracy of measuring the groove width with an optical microscope ccfc is 0.5%. .

Claims (1)

MESDOSE FOR MEASURING CONTACT VOLTAGES in the deformation zone during rolling, comprising a force measuring roller with axial and radial channels, a housing with a measuring pin mounted in the radial channel, a voltage sensor mounted in the axial channel, contacting with the pin, characterized in that, in order to increase accuracy and reliability of measurements during rolling using roll cooling and technological lubricant, it is equipped with a tip mounted between the pin and the voltage sensor, and the sensor is made in the form of a drum with its locking rotation and axial movement relative to the tip, this tip .If _ configured tverdostyu® exceeding reel hardness. /