SU1364921A1 - Arrangement for checking tension of flexible elements - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to increase the accuracy of checking the tension of flexible elements. A resilient element in the form of a flat spring 9 is hinged on the body. The ends of the spring 9 are supported on the supporting shelves 10 of the rotary sectors 6, 7, ensuring their constant contact with the surfaces of the controlled belt. Upon reaching a predetermined force applied to the handle 16, the cone sleeve 4 placed on the rod 3 comes into contact with the lever 5, which under the action of the spring I2 rotates and presses the friction lining to the ends of the sectors 6 and 7, angled to the angle of the belt deflection . The position of the edge 14 of sectors 6, 7 relative to the calculated lines of 15 characterizes the degree of tension of the controlled belt. 3 il. with (L

Description

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The invention relates to a measurement technique, in particular, devices for monitoring the tension of the belts during their installation and operation in the transmission of various machines, for example combine harvesters,

The aim of the invention is to increase the accuracy of the device.

FIG. 1 given the device, a general view; in fig. 2 - the same view of the spring sectors; in fig. 3 - the mechanism of indication and fixation.

The device comprises a hollow body 1 with a supporting end 2, a loading mechanism with a movable rod 3, a tapered bushing 4, a single-arm lever 5 and two rotatable sectors 6 and 7

In addition, on the supporting end 2 are hinged by a screw 8 sectors 6 and 7 and along the axis of symmetry a flat spring 9 (elastic element), the ends of which rest on the support flanges 1 of the sectors.

The taper sleeve 4 is fixed to the rod with a screw 11, and the single-arm lever 5 is hinged at the upper end of the housing 1 and additionally connected with it by means of springs 12, while the friction lining 13 is fixed to the contact plane of the lever 5c by the upper bead edges of sectors 6 and 7.

On the rotary sector, along the edge 14, the calculated scale of the VII belt section is applied, and on sector 7, the calculated lines 15, limiting the optimum angles of deflection corresponding to the admissible limits for the use of specific belts. At the end of the stem 3, the handle 16 is fixed. The hinge 17 of the lever 5 is fixed on the upper end of the body.

The devices are calibrated for a predetermined force by displacing the cone sleeve 4 along the stem 3 up or down relative to the lever 5 and fixing it in a predetermined position with a screw 11.

The supporting end 2 of the housing 1 is installed in the middle of one branch of the controlled belt, with sectors 6 and 7 pressed against the upper and side surfaces of the belt by the planes of the supporting shelves 10. Under the action of the belt force at the point of contact of the supporting end 2 it bends, and the rod 3, overcoming the resistance of the spring of the loading mechanism, is displaced together with the sleeve 4 in the direction of the applied force relative to the housing 1. Upon reaching the specified force, the taper sleeve 4 will come into contact with the lever 5, which It is deflected from the rod 3 in the opposite direction, passes a point of static equilibrium, and under the action of springs 12 turns sharply on hinge 17 and presses the friction lining 13 to the beaded upper ends of sectors 6 and 7, which by this time turned to the angle corresponding to the deflection angle of the belts. In this case, the friction lining 13 will fix the position of the sectors relative to each other, and the characteristic click of the lining from the surface of the upper ends of the sectors serves as a signal of termination

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The degree of tension of the controlled belt is determined by the position of the edge of 14 sectors relative to the maximum allowable lines on sector 7.

In the event that, when loading or unloading, its longitudinal axis deviates from perpendicular to the controlled branch of the belt in the plane of the belts, this will cause an increase in the angle of rotation of one sector, while the second sector will tend to detach from the surface of the belt . But under the influence of the flat spring 9, the support flanges 10 of both sectors will be constantly pressed against the surfaces of the controlled belt and the deviation from the perpendicularity of the device within the guide grooves will not cause an increase in the angle of rotation of the sectors.

Claims (1)

Invention Formula A device for checking the tension of flexible elements, comprising a housing with two rotary sectors hinged on it, a load mechanism with a movable rod and an indicator of force, characterized in that, in order to improve accuracy, an elastic element is inserted into it hinged on the housing and connected with rotary sectors, and the indicator of effort performed in the form of a tapered bushing mounted on the rod 31364921 with the possibility of contact with fixed, with the edges of the turning sectors HhiM is hinged on the case by a spring-loaded lever with a friction lining, bent in an arc of one radius relative to the hinge. at the same time the edges of the turning sectors bent in an arc of one radius relative to the hinge. 7ff