SU757883A1 - Rotary dynamometer of n.i.habrat's desing - Google Patents

Description

The invention relates to load technique and can be used to measure the torque on the single-pulley pulleys 5 V-belt drives.

Designs of devices for measuring torque on pulleys of belt drives are known, containing an intermediate pulley installed between the driving and driven pulleys so that the driving and driven branches. the belt was wrapped around the intermediate pulley at the same angle, and the load meter, which measures the resultant tension force of the driving and driven branches, by which the magnitude of the measured moment is judged.

However, such devices require the installation of an additional pulley in the kinematic chain.

The closest in technical essence to the proposed is a rotary dynamometer for measuring the torque on the pulleys of the V-25 belt drives, which contains a pulley mounted on the shaft, an elastic element connected at one end with the shaft, and the other with a pulley, a stroboscopic device with an illuminating

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lamp and pointer of the angle of twist of the elastic element ..

In this dynamometer, the pointer is oscillating, which reduces the accuracy of measurements.

The aim of the invention is to improve the accuracy of measurements of the average torque.

To do this, in the proposed dynamometer, the pulley is made in the form of two autonomous conical disks, one of which is rigidly fixed on the shaft, and the other is mounted on the shaft movably in the tangential direction and is connected with it by an elastic element.

The drawing shows the proposed rotary dynamometer.

It contains tapered discs 1 and 2, the first of which is fixed to the shaft 3 rigidly with a pin 4, the second is mounted on rolling bearings 5 and connected to the shaft 3 with a flexible element 6 (spring) of the hub 7 and pin 8. On the hub 7, the arrow 9 is fixed — the indicator of the magnitude of the twisting angle of the flexible element b, proportional to the torque transmitted by the pulley.

On the tapered disc 2 applied scale

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10 magnitude of the twist angle of the flexible element. On the shaft 3 there is a drum 11 made of electrically insulating material with an electrically conductive plate 12, the closing brush 13 of the stroboscopic device 14 with a lighting lamp 15. To transfer the power flow to the pulley, made composite of two conical disks, wear a V-belt 16.

Works rotary dynamometer as follows.

When a belt drive is loaded, the transmitted power from the belt to the shaft is transmitted via two streams (hereinafter, the description [of the rotary dynamometer made for the driven V-belt drive pulley is described).

Part of the transmitted power from the belt is transmitted to the tapered disk ·

1 and further through pin 4 on the shaft. The power from the belt is transmitted to the tapered disk 2, then through the elastic element b, the hub 7 and the pin 8 to the shaft 3, where both power flows are summed up into a common one.

At steady state operation of the rotary dynamometer and at constant load, the latter is equally distributed among the individual cone disks. The increase in the load transmitted by the belt drive leads to the fact that most of it is transmitted by a tapered disk 1 fixed on the shaft

3. At the same time, the load transmitted by the side surface of the belt in contact with the tapered disc 1 is greater than the load transmitted by the second side surface of the belt in contact with the tapered disc 2 connected to the shaft by means of a spring. As a consequence, a shift in the belt cross-section occurs, leading to a twisting of the elastic element 6 at an angle when the moments transmitted by the tapered disks 1 and 2 ^ do not equalize.

When reducing the transmitted load, the main part of it will be transmitted by a tapered disk 2. A shift in the cross section of the belt in this case causes the tapered disk 2 to turn away at that angle * when the loads transmitted by both tapered disks are aligned.

The intensity of changes in the load transmitted by the tapered disk 2, lags far behind the intensity of change in workload. The constant change in the working load within one or several revolutions of the pulley of the rotational dynamometer leads to the fact that the elastic element is wrapped with a tapered disk 2 at such an intermediate angle, which determines the value of the average torque.

Belt shear deformation is used as a damper that smoothes extreme torque values. The arrow pointer of the average torque value when illuminated with a stroboscopic lamp is almost immobile.

Claims (1)

Claim Rotary dynamometer containing a pulley mounted on a shaft, an elastic element connected at one end with a shaft and the other with a pulley, a stroboscopic device with a lighting lamp and an arrow indicator of the angle of twist of the elastic element, characterized in that medium torque, in it the pulley is made in the form of two autonomous conical disks, one of which is rigidly fixed on the shaft, and the other is mounted on the shaft movably in the tangential direction and is connected with it by an elastic element. 757883 Type A y s 16