SU1760460A1 - Maximal overload - Google Patents

Abstract

Usage: the invention relates to a measurement technique. The essence of the invention: the maximum overload sensor comprises a housing in which the inertial element on the springs is located and measuring transparent tubes, the springs and tubes being fixed in the housing. To the inertial element from opposite sides, in the direction of the axis of sensitivity, they are attached by one ends of the thread with indicator meters, which are located in the measuring tubes, and the other ends of the threads are free. 1 il.

Description

The invention relates to a measurement technique and can be used to determine the effective overloads on transport and other units subjected to dynamic loading during operation.

A known sensor (accelerometer) containing a sensitive inertial element suspended on two springs to the body, and a measuring element made in the form of a potentiometer and rigidly fixed to the sensitive inertial element of the slider, connected to a power source and additionally installed recording equipment.

In addition, for many units it is often necessary to know not the whole range of values of operating overloads during operation, but only the maximum value of overload. In these cases, especially when the operation period of the units is calculated in years, the application of the known sensor is hardly justified, since the unit must be equipped with a set of measuring and recording equipment (amplifier, oscilloscope with large stocks of photo paper, etc.).

Also known is a sensor (accelerometer with direct indication), containing a similar sensitive inertial element suspended on springs to the body, and the measuring element - indicator, is made in the form of sliders placed inside a transparent tube closed at the ends, which serves as the body of the device.

The disadvantage of this sensor is low measurement accuracy due to the inertia of the sliders. In addition, when vibration loads can occur spontaneous movement of the sliders, which also leads to a decrease in the measurement accuracy of the sensor, especially when measuring overload in the vertical direction.

The specified sensor is a prototype

The aim of the invention is to improve the measurement accuracy, reliability of operation.

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 o o n o o

This goal is achieved by the fact that in the maximum overload sensor consisting of a body, an inertial element spring-loaded relative to it and an index element, the index element is made in the form of threads with index marks that are located inside the measuring transparent tubes, and the threads are attached to opposite sides of the inertial element in the direction of the axis of sensitivity, and the other ends are free.

The drawing shows the mechanical sensor maximum overload.

The sensor consists of a body 1, springs 2 of an inertial element 3 connected to it, to which threads A are attached with indicating marks 5, passed through through holes in transparent measuring tubes 6 attached to the body. The yarns 4 are tensioned, the index marks 5 are in the extreme starting positions.

In the case of a load directed along the axis of sensitivity, the inertial element 3 acquires acceleration, as a result of which it will shift from the middle position. The free part of the thread 4 on the side of the springs 2, which experience compression, will sag, and the part of the thread 4 with the mark-indicator 5, placed in the measuring transparent tube G, will remain in the initial position, and on the side of the springs 2, the thread 4 will move with the pointer 5 relative to the transparent measuring tube b along the line of action of the force.

The displacement of the thread 4 with the label-index 5 will be equal to the maximum displacement of the inertial element 3 and, therefore, is proportional to the magnitude of the current overload. The new position of the marker 5 will show its value.

During subsequent loads, the displacement of the string 4 with the index marker 5 will occur only if the value of the effective overload is greater than the value of the previous maximum overload.

Thus, thread 4 with a label 5 will always show the maximum value of the overload along the axis

sensitivity tested by the unit for all the time of dynamic loading.

The sensor is installed on the original bed by moving the pointer 5 on the thread x 4 to the extreme zero.

position by moving the threads 4 at the free ends 7. The number of cycles of the maximum overload sensor is practically unlimited.

Technical and economic efficiency

The present invention consists in the fact that its use allows to increase the accuracy of measurements, reliability due to the use of non-aeroertial yarns, and also to simplify the design by using only kinematic connections of the elements (there are no electrical connections).

Claims (1)

Claims of the maximum overload sensor, comprising a housing, an inertial element spring-loaded relative to it, and a pointing element, characterized in that, in order to increase accuracy and reliability, dimensional transparent tubes are inserted into it, fixed in the housing, and the pointing element is designed as threads with index marks, which are located inside the measuring transparent tubes, with the filaments attached by their ends to opposite sides of the inertial element in the direction of the axis of sensitivity, and the other tzu free.