RU1803780C - Device for determination of mechanical properties of torsion springs - Google Patents

Abstract

The invention relates to tests. The purpose of the invention is to increase the information content when determining the mechanical characteristics of torsion springs due to the possibility of taking into account not only axial forces, but also forces displaced relative to the axis, as well as expanding the technological capabilities of the device due to the possibility of testing springs not only with ends, bent in the axial direction, but also of any shape. The device comprises a base 1. a rotary mechanism 2 mounted on the base 1 with a driving spindle 3, a rack 4, a driven spindle 5 fixed on the rack 4, a spring loading indicator 6. 7. also a cable block placed on the spindles 3 and 5, mounted on the base 1 - loading system 8 of the driven spindle 5 and installed between the spindles 3 and 5, a mandrel 9 coaxial with them, designed to accommodate the test spring 7. The device also contains supporting flanges 10 and 11 with annular spindles 3 and 5 grooves 12 and 13, mustache anovlennye on the supporting flanges 10 and 11 of the rotary disks 14 and 15 with fingers 16 and mounted on the drive spindle 3 a movable scale 17 of its angle of rotation. At the end 18 of the support flange 10, placed on the driven spindle 5, an annular groove 19 is made, in which three 20 of the cable system 8. 1 is placed. ate with

Description

The invention relates to measuring technique and can be used to determine the mechanical characteristics of torsion springs during testing.

The aim of the invention is to increase the information content when determining due to the possibility of taking into account not only axial forces, but also forces displaced relative to the axis, as well as expanding the technological capabilities of the device due to the possibility of testing springs not only with ends bent in the axial direction, but also of any shape.

The drawing shows a diagram of the device, side view.

The device comprises a base 1, a rotary mechanism 2 with a leading spindle 3 and a rack 4 mounted on the base. A driven spindle 5 is mounted on the rack 4, and a load indicator 6 of the test spring 7 is mounted on the base 1. The driven spindle 5 is mounted coaxially with the leading spindle 3 The device also comprises a cable-mounted system 8 for loading the driven spindle 5 fixed on the base 1 and a mandrel 9 mounted between the spindles 3 and 5 and designed to receive the test spring 7 on it,

On the spindles 3 and 5, support flanges 10 and 11 with annular grooves 12 and 13 are placed. On the support flanges 10 and 11, rotary disks 14 and 15 are installed with pins 16 placed in the grooves 12 and 13 of the support flanges 10 and 11 with the possibility of movement along the axes grooves 12 and 13 and mounted on the leading spindle 3 with a movable scale 17 of the angle of rotation. At the end 18 of the support flange 10, placed on the driven spindle 5, an annular groove 19 is made, in which the cable 20 of the cable-block system 8. is placed. The mandrel 9 is cylindrical. A platform 21 with weights 22 is fixed on the cable 20. On the base 1, a pointer 23 for scale 17 is fixed, and a pointer 24 on the driven spindle 5.

The device operates as follows.

When determining the mechanical characteristics, the test spring is placed on a bracket 9 installed in the bores of the drive spindle 3, mounted in the rotary mechanism 2 and in the driven spindle 5. In this case, the end turns of the spring 7 are fixed on the supporting flanges 10, 11 of the drive spindle 3 and the driven 5 at a predetermined distance from the longitudinal axis of the tested spring 7 fingers 16 moving in the annular grooves 12 and

13 support flanges 10, 11 by means of rotary disks 14, 15 with their subsequent fastening in a predetermined position by screws (not shown in the drawing).

Next, on the platform 21, mounted on the cable 20 of the cable block system 8 for loading the driven spindle 5, a predetermined load 22 is installed and by rotating the drive 3 and the driven 5 spindles by rotating the handle (not shown) of the rotary mechanism 2 provides a slight tension on the cable 20 located in the annular groove 19 of the supporting flange 13 of the follower

spindle 5. ..

After presetting the movable scale 17 by turning it to align the zero reading with the pointer 24, fixing the rotation angle

the driving spindle 3, by turning the handle (not shown) of the rotary mechanism 2 gradually begin to load the test spring 7. As the spring 7 is loaded, the torque through the fingers

16 rotary disks 14, 15 are transmitted to the driven spindle 5. In this case, the cable 20 with the load 23 fixed thereon, covering the support flange 10 of the spindle 5, will experience increasing tension.

The moment of lifting the platform 21 with the load 22, fixed by a pointer 24 and the movable scale 17 of the load indicator 6 of the tested spring 7, corresponds to the maximum twist angle

springs 7 at a given load determined by the load 22 distance. application of torque to the end turns of the spring relative to its longitudinal axis. Knowing the twist angle of the spring 7, the magnitude of the applied load to the spring 7 and the distance of the application of force to the end turns of the spring 7 relative to its longitudinal axis, the mechanical characteristics of the torsion spring to be tested are determined.

Claims (1)

SUMMARY OF THE INVENTION A device for determining the mechanical characteristics of torsion springs, comprising a base mounted on the base is a rotary mechanism with a leading spindle and a rack mounted on a rack, a driven spindle mounted coaxially with the leading spindle, a spring loading indicator, placed on spindle x fixed on the base of the cable block system for loading the driven spindle and a mandrel mounted between the spindles; designed to house the test spring, different the fact that, in order to increase information content when determining due to the possibility of taking into account not only the axial force, but also the forces displaced relative to the axis, as well as expanding the technological capabilities of the device due to the possibility of testing springs not only with ends bent in the axial direction, but also of any shape , it is equipped with supporting flanges placed on the spindle with annular grooves mounted on the supporting 0 the flanges with rotary disks with fingers placed in the grooves of the support flanges with the possibility of moving along the axis of the grooves and a movable scale of the angle of rotation mounted on the leading spindle, an annular groove is made in the end of the support flange mounted on the driven spindle, in which the cable of the cable system is placed and the mandrel designed to accommodate the test spring thereon is cylindrical.