SU503151A1 - Device for measuring torque in dense environments - Google Patents

Description

one

The invention relates to the field of measurement technology and can be used for testing rolling bearings and gears.

The known devices for measuring toughness, its torque in dense environments, containing an elastic element with measuring disks at the ends, sensors of the angular position of the shaft and the measuring device, when used in dense environments for measuring small torques at elevated rotational speeds, give significant measurement error due to ventilation losses of the measuring disks and the elastic element, which are difficult to take into account in varying operating conditions, changes in medium density, temperature, etc.

To improve the accuracy of torque measurement in flat environments by compensating for ventilation losses in the proposed device, an additional elastic element is mounted on the drive shaft, connected at one end to the drive shaft, and the other to the measuring disk, which freely rotates on the shaft.

The drawing shows a General view of the described device, containing the main 1 and additional 2 elastic elements, measuring disks, one of which 3 is fixed at the output shaft 4, and the other

5 rotates freely on the drive shaft 6 and is connected to one end of the elastic element 2. At the other end, the element 2 is connected to the intermediate disk 7. Sensors 8, 9 of the angular position of the measuring disks are mounted on pins 10 and II attached to the housing 12.

The device works as follows.

When the drive shaft 6 rotates under the influence of a torque, the elastic element 1 is twisted, which causes the measuring disk 3 to move relative to the intermediate disk 7 by an angle proportional to the measured moment and time from the ventilation losses of the measuring disk 3 and the elastic element 1. Under this exposure to the same ventilation loss when the measuring disk 7 rotates and

additional elastic element 2 is the twisting of the latter. Due to the fact that the structures of the elastic elements 1 and 2 and the measuring disks 3, 5 are the same, and their rotation speed is the same, the moments,

arising from viscous friction (ventilation losses) are equal to each other, respectively, and the angular displacement of the measuring disks 3 and 5 relative to the intermediate disk 7, caused by ventilation losses. Thus, the measured torque Mcr on the output shaft 4 is proportional to the relative angle of rotation of the measuring discs 3 and 5. When the measuring discs rotate in the induction sensors 8 and 9, periodic signals appear that carry information about the angular position of the measuring discs relative to the sensors. The measuring device compares the phase lag of one sensor signal relative to another, which is proportional to the mutual angular displacement of the disks 3 and 5 and, consequently, to the torque on the output shaft 4.

Claims (1)

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