SU838436A1 - Device for measuring stiffness of articles - Google Patents

Description

one

This invention relates to load measuring technique.

A device for controlling the elasticity of springs is known, comprising a base plate with an object stage, a loading mechanism with a lever, an eccentric and a centering bush supported on an eccentric and a dial gauge type 1,

The disadvantage of such a device is that it is cumbersome in its construction and is intended to determine the elasticity of only helical springs. .

Closest to the proposed device for testing compression springs, comprising a housing, a loading mechanism with a cylindrical slider, and a load scale ft deformable 2,

A disadvantage of the known device is that it is single-purpose and, in addition, difficult and cumbersome in design.

The purpose of the invention is to expand the functional possibilities and simplify the design.

To achieve this goal, a spring-loaded rod is inserted into the device, coaxial fixed

and a movable sleeve, on the outer surfaces of which a scale is applied, while the fixed sleeve is connected at one end to the housing, and the second end is installed in the movable sleeve, which is placed in the spring-loaded slider and connected to the stem through a finger, which is placed in the slots of the fixed sleeve .

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FIG. 1 shows schematically the proposed device, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The device for measuring the stiffness of products comprises a housing 1 in which a wedge groove 2 is made with a wedge 3 placed therein and fixing bolts 4. In the body is made

0 also has a groove 5 in which a fixed sleeve is placed relative to the body and fixed to it, the end face of the sleeve 6; In the cavity of this sleeve there is a spring-loaded impacting rod 7, 5 which abuts against the pin 8 connecting the fixed sleeve 6 and the movable sleeve 9. the sleeve 6 has longitudinal diametrically arranged grooves 10 in which the finger 8 can move.

On the outer diameter of the movable sleeve there is a slider 11, constantly pressed by the spring 12 and resting on the end of this sleeve. The slider 11 has a recess 13 in which the end of the screw 14 of the loading mechanism 1 is screwed in. The screw 14 is placed in a threaded hole in the housing. The wedge 3 is fixed on the bracket 15.

The spring-loaded rod 7, in its initial position, holds the sleeve 9 with the slide 11 and the spring 12 from free fall. On the outer surface of the sleeve b, the deflection scale of the test product is measured in millimeters, and on the outer surface of the sleeve 9 the load measurement scale corresponding to the force is developed. spring 12 when it is deformed. When measuring small deflections of the tested products, a dial indicator is installed instead of a spring-loaded stem 7 of the impact (not shown in the drawing).

The device works as follows; in a way.

The bolts 4 are released and the device moves along the wedge 3 until the rod touches the surface of the test product. After this, bolts 4 fix the device to the bracket. Further, by turning the screw 14 clockwise, the test article is loaded. The magnitude of the load is measured on the scale of the load, and the magnitude of the deformation (deflection) is measured on the scale of the deflection applied to the outer surface of the sleeve 9. The load deforming the product per unit length is the rigidity of the product, and the amount inverse to the stiffness is the elasticity of the product.

The proposed device makes it possible to measure the stiffness of not only coil springs, but also leaf springs or springs, as well as tensioned nets, belts, and other similar products.

Claims (2)

1. USSR author's certificate number 433365, cl. G01L 1 / 04,14. 03..72 2. USSR author's certificate number 647558, cl. GiOlL 1 / 04,14.09.77 (prototype).