RU189446U1 - DEVICE TO CONTROL DYNAMIC LOADING PARAMETERS - Google Patents

Abstract

The invention relates to measurement tools and can be used in any field of engineering to study the dynamic properties and behavior of structural elements under the influence of external mechanical loads. The device for controlling dynamic loading parameters contains primary transducers (PIT), the sensitivity axes of which are oriented in three orthogonal directions, equipped with an additional PIT, the sensitivity axis of which coincides with the loading direction of the product, with an overlay configured to be installed in a controlled place of the product and equipped with four platforms for installation of each PIP. The technical result is to provide installation in a given place of the object transducers, providing measurements on three coordinate axes and in the direction of loading the object, increasing the amount of dynamic research in a controlled place of the product. 2 Il.

Description

The invention relates to measurement tools and can be used in any field of engineering to study the dynamic properties and behavior of structural elements under the influence of external mechanical loads.

It is known “Device for vibration diagnostics” (USSR author's certificate 1099219 IPC G01M 7/00, publ. 23.06.84, Bull. No. 23) containing piezo transducers placed on the object of diagnostics along three orthogonal axes, matching amplifiers and signal processing circuit elements . This device is selected as a prototype.

A disadvantage of the known device is the absence in the controlled place of the product of the primary transducer (PIP), the sensitivity axis of which coincides with the direction of the main loading of the product, and also due to the design features of the product it is often not possible to install all sensors in one place (in close proximity on the other), and at the same time meeting the requirements for their mutual orientation.

Currently, the described problems are solved constructively by changing and refining the details of the object, which leads to a change in its design, the location of sensors at different parts of the object being monitored, and sometimes, without finding a constructive solution, the number of sensors used is reduced, which leads to a decrease in test performance.

The technical problem that the claimed utility model is intended to solve is to provide a measurement of the volumetric loading at a given location of the object.

The technical result is to provide installation in a given place of the object transducers, providing measurements on three coordinate axes and in the direction of loading the object, increasing the amount of dynamic research in a controlled place of the product.

The technical result is achieved due to the fact that the claimed device for monitoring dynamic loading parameters containing primary transducers (PIT), the sensitivity axis of which is oriented in three orthogonal directions, unlike the prototype, is equipped with an additional PIT, the axis of sensitivity of which coincides with the loading direction of the object, and lining, made with the possibility of installation in a controlled place of the product and equipped with four platforms for the installation of each PIU.

The use of the entire set of features of the proposed utility model allows for an increase in the volume of dynamic studies in a controlled place of the product, the study of the dynamic properties and behavior of structural elements under the influence of external mechanical loads by ensuring that transducers are installed at a given location of the object, providing measurements in three coordinate axes and in the direction of loading object.

The utility model is illustrated by figures: FIG. 1 shows a general view of the claimed device, FIG. 2 shows the location of the device at a controlled place of the object

The device for monitoring dynamic loading parameters contains primary transducers 1, the sensitivity axes of which are oriented along three orthogonal directions X, Y, Z, additional PIP 2, the sensitivity axis of which coincides with the direction N of loading the object 3, and the overlay 4 configured to be installed in a controlled site of the object 3 and equipped with four sites 5 for the installation of each PIP.

Plate 1 is made (from PCB or aluminum alloy of any standard grades) in the form of a polyhedron, has five platforms (working surfaces): a platform for installation in a controlled place of the product, three platforms 5 for installing PIP 1, the relative orientation of which ensures the orientation of PIP relative to the coordinate axes products, as well as a platform 5 for the installation of additional PIP 2, which controls the level of the main loading.

In this exemplary embodiment, the structure of the patch 4 is designed in such a way that the direction of the main loading N is at the same angle to the three coordinate axes X, Y, Z.

The sensitivity axis N of the additional PIP 2 coincides with the direction of the conditionally shown main loading 6 (Fig. 2). The fastening of the lining 4 to the object 3 can be accomplished with the help of adhesive bonding, and also the organization of a stronger screw joint is possible. For the screw connection in the surface on which the patch is attached to the object, a threaded hole is made, the parameters of which are selected from structural considerations.

To test the performance of the proposed device, a series of shock tests were carried out, in which piezoaccelerometers were used as a PIP.

The device for monitoring the parameters of dynamic loading provides for the installation of transducers in a given place of the object, which provide measurements along three coordinate axes and in the direction of loading of the object.

Claims (1)

Device for monitoring dynamic loading parameters containing primary measuring transducers (PIT), the sensitivity axes of which are oriented in three orthogonal directions, characterized in that it is equipped with an additional PIT, the sensitivity axis of which coincides with the direction of loading of the product, with an overlay configured to be installed in a controlled place products and equipped with four sites for the installation of each PIP.

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