SU714195A1 - Stand for graduating multicomponent dynamometers - Google Patents

Description

(54) STAND FOR GRADING MULTICOMPONENT. DINAMOMETERS,

I

The invention relates to the field of measurement technology, in particular to devices for the calibration of multi-component dynamometers, such as multi-component aerodynamic scales.

There are stands for calibration, multicomponent dynamometers, in which the effects of the force-generating devices on the calibrated dynamometer are transmitted through exemplary dynamometers {1.

However, such stands cannot be used for the calibration of multi-component dynamometers, designed for low loads, commensurate with their own weight of exemplary dynamometers, since the graduated dynamometer is constantly affected by the total weight of the model danometers.

The closest to the present invention is a stand for the calibration of multicomponent dynamometers, which contains a transfer element fixed on a calibrated dynamometer, connected with controllable power sensors by means of control and dynamic reference devices 2,

This stand does not provide satisfactory accuracy. When loading the scale, significant movements of the place of application of the load relative to the base occur, and the direction of the applied load also changes. In addition, part of the weight of the calibration device (weight of the transfer element and t g) is perceived as exemplary dynamometers included in the upper rods, which makes it necessary to apply rather coarse dynamometers and also leads to loss of accuracy at low loads.

The aim of the invention is to improve the accuracy of calibration at low load values.

This goal is achieved by introducing a rigid case into the stand, on which model dynamometers connected with the transmission element are placed on their bases, and the straps connected to the specified case are provided with elastic deformable elements.

The drawing shows the stand.

A bench for calibrating multicomponent airflows with single-dynamic weights contains a rigid base 1, in which the weighed weights 2 are fixed. The exemplary dynamometers 3 with their foundations are placed on a rigid case 4, which encloses the sensitive elements of exemplary dynamometers, a rigid casing of b b, in which deforming & elastic elements 7 are included, is connected to a force-generating .8 device (for example, of screw type) with a drive E 9, steerable, signalagda EXEMPLARY dynamometers Silozadayuschie device 8 takyse baziruyuts on rigid base

SteNd works as follows,. . - .. .V-:

Using devices 8, an exemplary dynamometric system is oriented (housing 4, exemplary dynamometers 3 and the transfer element 5} are axially with a hole for fixing the balance 2 in the bases 1, the 5 element is fixed in this 5Tw terminal, the balance element 5 is fixed on the balance 2 In this case, the load axes of the coordinates of weights 2 are oriented along the axes of the element 5. The production and balancing (setting to zero) of the measuring circuits of calibrated weights 2 and exemplary dynamometers 3. According to the appropriate program, the manipulator The operation of the force-shaking device 8, provides the necessary loading of the aerodynamic balance.

The loads from the devices 8 through the elastic elements 7 and the connecting rods 6 are transferred to the corresponding places of the housing 4 and through the exemplary dyuyumetry 3 and the transmission element 5 to the graduated scales 2, while the pulling and loading of the scales 2 body movements .4,

The setting of the loads can be carried out according to the following drive scheme, using the signals of the corresponding dynamometers 3 to control the output of the 9.

The calibration characteristic of the scales under study 2 is determined by comparing the readings of the weight sensors with those of the corresponding dynamometers 3.

The design features of the proposed bench increase the accuracy of calibration at low load values, since the sample dynamometric system through which the loads are transferred moves with the deformable scales. Minimizing the parts of the stand, with its weight acting on vertically positioned model dynamometers (in this device it is only the transfer element 5, which can be made quite light with low loads), increases the sensitivity of these dynamometers, which also contributes to an increase in accuracy,

Claims (1)

1. USSR author's certificate No. 402772, cl. C, 01 M 9/00, 1971, 2, USSR Copyright Certificate 254167, cl, C | 01 L 25/00, 1967 (prototype),