SU1087788A1 - Device for measuring tension of flexible moving materials - Google Patents

Abstract

A DEVICE FOR MEASURING THE TENSION OF FLEXIBLE MOVING MATERIALS, containing fixed input and output rollers fixed in the body, measuring roller and dynamometer, characterized in that. in order to improve measurement accuracy by reducing the angle of coverage, rods with conical ends are inserted into it, and the measuring roller is made in the form of a shaft, the measuring cylindrical part of which has two protrusions at the ends, each of which has two slots for rods, the sockets are located so that the angle between the axes of the rods is equal to, where about the specified angle of coverage of the measuring roller material and the distance between the intersection point of the rods' axes and the center of the measuring part of the roller GS is equal to fcosul / l part of the measuring t roller.

Description

The invention relates to a powering technique, in particular to devices for measuring the tension of moving materials (tapes, threads), and can be used in those technological processes where it is necessary to constantly measure the tension of moving materials. A device for measuring tensioners of moving material is known, which consists of input and output rollers, housing, measuring, roller I and dynamometer. C The disadvantages of the known devices are low accuracy and fast abrasive wear of the rollers. The closest in technical essence to the invention is a device containing fixed input and output rollers fixed in a housing, a measuring role and a C 23 dynamometer. The disadvantages of this device are a decrease in the sensitivity of the device while reducing the angle of coverage of a measuring roller with moving material and the dependence of indications on friction coefficient values. The aim of the invention is to improve the accuracy of measuring the tension of a moving material by reducing the angle of coverage. This goal is achieved by the fact that rods with tapered ends are inserted into the device for measuring the tension of flexible moving materials containing fixedly mounted in the housing of the input and output rollers, the measuring roller and the dynamometer, and the measuring roller is made in the form of a shaft, the measuring cylindrical part of which has at its ends two protrusions in each of which there are two sockets for the rods, while the sockets are located so that the angle between the axes of the rods is equal to where the specified angle of material coverage is measured the distance between the point of intersection of the axes of the rods and the center of the measuring part of the roller paBHOv where r is the radius of the measuring part of the measuring roller. Figure 1 shows the proposed device, a longitudinal section; Fig. 2 shows a variant with an additional two-shoulder power sensing device; on fig.Z - the same, top view. The device consists of a housing I, in which the input 2 and output 3 rollers, measuring roller 4, protrusions of measuring roller 5, rods 6, two dynamometers 7, made, for example, in the form of hollow rods 8 with attached resistance strain gages 9, adjusting screws 10 with tapered jacks, tapered jacks 11 are made in the housing, and 12 - in the protrusions of the measuring roller. The device works as follows. HZ material is fixed inside the device by input 2 and output 3 rollers. At the same time, the material covers the cylindrical part of the measuring roller with the angle оС. Tensioning the ribbon T before and after it T is not equal to one another. Due to the fact that the distance between the intersection point of the axes of the rods 6 and 8 and the center of the measuring roller 4 is equal to Co 5 ° C / 2, the angle between the conical pc in the projections of the measuring roller 5 is 180 ci. the lines of action of the T-forces lie in one of the planes and are parallel to the axis of the rods 6 and 8; a force is acting along each of the rods 8, equal to 0.5Т2. The strength of these forces on both rods will be the tension force of the moving material after the measuring roller. Reducing the coverage angle by increasing the rigidity of the device reduces the ds5relative tension resulting from the interaction of the material with the device. The independence of the calibration of the device from the coefficient of friction makes it possible to exclude the operations of the calibration of the device and thereby reduce the laboriousness of the measurement when changing the conditions of the material stretching. The device for measuring the tension of the moving material shown in Fig. 2 differs from the device 1 shown in Fig. 2) in that the force TL acting along the axis of the rods 14 is transmitted to the body 15 via a two-arm lever 16, through a dynamometer 17, the quality of which you can use a magnetically elastic transducer, the position of the lever can be adjusted

Claims (1)

DEVICE FOR MEASURING TENSION OF FLEXIBLE MOVING MATERIALS, comprising input and output rollers fixed in the housing, a measuring roller and dynamometer, characterized in that, in order to increase the measurement accuracy by reducing the angle of coverage, rods with conical ends are inserted into it, and the measuring roller made in the form of a shaft, the measuring cylindrical part of which has two protrusions at the ends, in each of which two nests for rods are located, the nests being located so that the angle between the axes the distance is 180 ° -o (., where the specified angle of coverage by the material of the measuring roller, and the distance between the point of intersection of the axes of the rods and the center of the measuring part of the roller is equal to '£ = fc _O g ^g D ^e G is the radius of the measuring part of the measuring ”roller. Figure 1