SU1089437A1 - Device for measuring spring tensile characteristics - Google Patents

Abstract

A DEVICE FOR MEASURING ELASTIC SPRING CHLARASTERISTICS, containing a loading mechanism, two stops, one of which is stationary, and the other is rigidly connected to the mechanism of loading, and load indicators and displacements of the second stop, tl, and so on, in order to expand the functionality, the movable stop is provided with articulated cams and a vernier knot with an annular protrusion in contact with the cams, and an unsupported emphasis is made in the form of a rod with end protrusions, located in the gaps between the cams. .

Description

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: about ip

o The invention relates to instrumentation, in particular, devices for measuring the elastic characteristics of springs, and can be used, for example, in petroleum engineering to measure the force of the triggering of ring split springs in load-carrying fuses. A device for measuring elastic deformations of springs, containing a sleeve, worn on a rod and provided with rollers with supports for installing a spring, a clock type indicator, a load cell consisting of a double arm, a scale-And an elastic element made in the form of a stretched curled flap, is known. You, in the middle part of which the arrow Cl 1 is fixed. The disadvantage of this device is the low accuracy of the measurement of displacement, since the deformation of the spring is not measured directly, but is calculated from the difference escheny urging the sleeve and the end of the lever siloizmeritelej. The closest in technical essence and the achieved effect to the proposed is a device for measuring the elastic characteristics of springs, containing a loading mechanism, two stops, one of which is stationary, and the other is rigidly connected with the loading mechanism, indicators for ruzki and movement of the second stop 12.1. A disadvantage of the known device is the impossibility of measuring the elastic, characteristics of annular split springs under conditions simulating operational ones, for example, in preload conditions. The purpose of the invention is to expand the functional capabilities of the device. To achieve this goal, in the device for measuring the elastic characteristics of the springs, containing a loading mechanism, two stops, one of which is stationary, and the other is rigidly connected with the loading mechanism, load indicators and displacements of the second stop, the movable stop is equipped with a ball-connected cam Kami and Vernier node with annular protrusion in contact with. Cams and fixed stop vyssshnen in the form of a rod with end protrusions located in the gaps between the cams. FIG. 1 shows a device for measuring the elastic characteristics of springs, a longitudinal section; in FIG. 2, section A-A in FIG. one; in fig. 3 section bb in Fig.1. The device comprises a loading mechanism 1, which is hydraulically connected with the load-bearing element 2 and having a load-bearing indicator 3. A bottom abutment 4 is fastened on the force-measuring element 2 with a vernier device 5 for measuring the angle of inclination of the guide surface of the cams 6 pivotally fixed in the annular groove 7 of the abutment 4, which enter with radial grooves 9 of the lower abutment 4 and are spring-loaded with a retaining ring 10. The jaw surface of the cams 6 is located under test by a ring sprint spring 11, bounded above by top 10 of the upper stop 13, in, the gaps between which the cams 6 freely enter, and one of the projections 12 has an opening for guiding of the rod 14, fixed to the force-measuring element 2. The upper stop 13, Zann communication with the restriction screw 15 reguliruemm handwheel 16 is connected with a rack 17 on which the LED 18 is fixed chasovo- movement. A type with a movable rod 19 abutting against a bracket 20 attached to the measuring element 2 of the device. The operation of the device for measuring the elastic characteristics of the springs is carried out in the following manner. Using the vernier device 5, the required angle of inclination of the guiding surface of the cams 6 is set, on which the test plate is mounted the spring 11. By turning the handwheel 16, the stop screw 15 pushes the top stop 13 until the protrusions 12 touch the test spring 11, and the guide rod 14, fixed on the force-measuring element 2, the passage into the hole of one of the bikes 12, provides for free passage of the cams 6 in the gaps between the bikes 12. The retaining ring 10 does not allow for achkam 6, the incoming pivotably into the annular groove 7, the stop 4, come out of the latter, and slots 8, which

The cams 6 enter into the radial grooves 9 of the lower stop, ensure the rotation of the cams in a strictly defined plane.

When a fluid is supplied under pressure by the measured load indicator 3, the element 2 of the loading mechanism 1 through the lower abutment 4 and pivotally connected with. There, the cams 6 transfer force to the test annular split spring 11, which moves along the guide surface of the cams 6, compressing in the radial direction.

An upwardly mounted bracket 20 attached to element 2 moves the movable rod 19 of the displacement indicator 18 fixed on the rack 17. Indicator 18 determines the response time of the test spring 11.

The use of the proposed technical solution allows to expand the functionality of the device, since it is possible to measure on it the elastic characteristics of both cylindrical compression springs at the cadre opening of the cams, as well as ring springs in conditions close to operational, for example, in fuses for the load.

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Claims (1)

DEVICE FOR MEASURING ELASTIC SPRING CHARACTERISTICS, containing a loading mechanism, two stops, one of which is stationary, and the other is rigidly connected to the loading mechanism, indicators of load and movement of the second stop, which include, in order to expand the functionality , the movable stop is equipped with cams pivotally connected to it and a vernier assembly with an annular protrusion in contact with the cams, and an invisible stop is made in the form of a rod with end protrusions, spread out in the gaps between the cams. 00 m 1089437 2