SU1633346A1 - Device for measuring coefficient of resistance to rotation - Google Patents

Abstract

The invention relates to the investigation of materials and is proposed for measuring the coefficient of resistance to rotation, for example, in roller conveyors. The aim of the invention is to increase accuracy by reducing vibrations and maintaining a stable load. The load on roller 1 is created by means of an electromagnet 4, which is connected to block 5 to set and maintain a load, which, in turn, supports the load by means of sensors 3, roller supports 1. The load sensors 3 control the magnitude of the current of the electromagnet 4 so that the load remains constant. 1 il. And O SB with about

Description

The invention relates to the study of materials and is intended to measure the coefficient of resistance to rotation, for example, in roller conveyors.

The aim of the invention is to improve the measurement accuracy of the rotational resistance coefficient by reducing the vibrations leading to changes in the magnitude of the load and, therefore, to distorting the measurement results and maintaining the stability of the load.

The drawing shows a block diagram of the proposed device.

The device comprises a roller 1 with bearing assemblies 2 supported on load sensors 3. The load is created by the electromagnet 4, and its value is set by the unit 5 to set and automatically maintain the load. The load sensors 3, the electromagnet 4 and the block 5 form a closed system. Roller 1 is wearing a gear sensor b, which is paired with a 7-speed receiver, which is connected to an electronic unit 8 that generates start-up and stop pulses of a stopwatch 9, which records the free run-out time.

The coefficient of resistance to rotation is determined by the formula

sh -

where I is the moment of inertia about the axis of rotation of the roller with a weight attached to it;

m is the mass of rotating parts;

D is the outer diameter of the rotating parts;

y is the upper limit of the rotation frequency;

phg lower limit of rotation frequency;

t is the time of free runaway of the roller from the frequency of rotation f to fg.

The device works as follows.

A roller sensor 6, which is paired with a rotation speed receiver 7, is mounted on roller 1, and roller 1 is brought into rotation. The coefficient of resistance to rotation of the roller is determined by the formula (1). The values of I, m and D are known before the measurement, the values and p2 are programmed as an electronic unit 8, which includes

the stopwatch 9 at time t from the moment when the angular velocity is equal to pi to the moment when the angular velocity decreases to fn.

The unit 5 to set and automatically maintain the load sets such a current.

an electromagnet 4, in which the magnetic force developed by them would be equal to the magnitude of the required load on roller 1. Under the action of this force, the roller is pulled to the electromagnet 4 and acts on the sensor

3 loads. The signal from the latter is used to indicate the magnitude of the set load, as well as in the feedback circuit of the automatic load support. When roller 1 rotates due to eccentricity, the gap between the fixed electromagnet 4 and the surface of roller 1 changes. The force acting on roller 1 from the side of electromagnet 4 and, therefore, coming from sensors 3

The signal is inversely proportional to the gap. The signal from the load sensors 3 controls the magnitude of the current of the electromagnet 4 so as to keep the set load stable.

Claims (1)

Invention Formula A device for measuring the coefficient of rotational resistance, comprising a roller, a loading element, bearing assemblies in which the roller is mounted, a gear sensor mounted on the roller, and a series-connected rpm receiver, an electronic unit and a time meter, characterized in that, in order to improve accuracy the loading element is designed as an electromagnet installed so that the magnetic lines of force are closed at the roller, and the gap between the electromagnet and the roller is more than the roller’s eccentricity value, The unit is equipped with load measurement sensors, on which the corresponding bearing angles are mounted, and a unit for setting and automatically supporting the load to which electromagnet and load measurement sensors.