SU602801A1 - Rotor balancing apparatus - Google Patents

Description

one

The invention relates to balancing technology and can be used in machine building

SRI.

A device for balancing rotors is known, comprising a mechanical moving system for mounting the rotor and a measuring device including an imbalance measurement measurement sensor connected to a measurement unit and an imbalance measurement sensor of a reference signal associated with an angle measurement unit

unbalance, one of the inputs of which is connected to the output of the unbalance measurement unit 1.

The disadvantage of the device is a large scatter of the readings of the measuring instrument due to the unstable rotation frequency of the rotor.

Another rotor balancing device is known, comprising a mechanical movable system for mounting the rotor and an electronic measuring device, including an imbalance sensor, an unbalance measurement unit and an unbalance indicator, connected in series, the measurement cycle control unit, the first input of which is connected to the input of the unbalance measurement unit, the reference signal generator connected by the output to the second input of the control unit of the measuring unit and fixing the angle of the unbalance NSA, the input of which is connected to the output of the control unit, and the generator of the reference frequency, the output of which is connected to the third input of the control unit 2

This device is the closest IMD to the invention of the technical essence and the achieved result.

Its disadvantage is low accuracy in determining the unbalance angle at an unstable rotor rotation frequency due to the constant frequency of the reference frequency supplied from the generator of the reference frequency to the third input of the control unit.

The purpose of the invention is to increase the nausea of determining the imbalance angle of rotors with an unstable rotation frequency.

This goal is achieved in that the device is equipped with a clock pulse generator, which is mechanically coupled to the rotor-balanced rotor. owls, the output of which is connected to the third input of the control unit.

The drawing shows a block diagram of the described device.

Usgra: supports mechanical movement) s) system I for installing the rotor (not rolled in the drawing) and an electronic measuring device that includes an imbalance sensor 2, unit 3 and 1.me}) unbalance value and an imbalance indicator 4 connected in series among themselves, the measurement cycle control unit 5 whose first input is connected to the output of the measurement unit 3 is the imbalance, the reference signal generator 6 connected to the second Bxo / jy control unit 5, the unbalance angle measurement and fixation unit 7, whose input oedinen yield the control unit 5, and mechanically coupled to the rotor to be balanced clock pulse generator 8, whose output is connected to the third input of the control unit 5.

The device works as follows.

The oscillations of a mechanical moving system with a balanced poTOjWM installed on it are converted into an electrical signal by a sensor 2, the values of D11balance, measured by the unbalance measurement unit 3, and recorded by the indicator 4 unbalance values.

The unbalance angle is determined by measuring unit 7 and fix.a1. utla In this case, the signal of the unbalance value enters the measurement cycle control unit 5, and is formed into a starting pulse determining the origin of the angle measurement. From this point on, in block 7 of measurement and fixation of the angle, the signals which are sent from the generator of 8 clock pulses, which consumes n pulses per revolution of poToj a, are summed up. The command on the termination of the account gives a pulse coming from the generator 6 of the reference signal, generating one pulse per rotor rotation.

The number of clock pulses measured by the unit for measuring and fixing the angle and multiplied by ia determines the angle of the imbalance with respect to the reference mark on the rector.

Claims (2)

1.Samsaev Yu. A ,, Frolov KV. Features of balancing and speeding rotor X rotors on the example of turbomachine. Sat Hovering and balancing rotors, M., Science, 1973, p. 135-139. 2. USSR author's certificate No. 310150, class G 01 M 1/22, 1969. one 2 R