SU563890A1 - Device for automatic balancing of rotating rotors - Google Patents

Abstract

DEVICE FOR AUTOMATIC BALANCING ROTORS DURING THEIR ROTATION, containing an optical quantum generator, a hollow 1 | cylinder mounted for rotation, a drive for its rotation, mounted at one end of the cylinder reflector. Made for example in the form of a prism with a 45 angle, and the deflecting optical system, placed on the cylinder, from the fact that, in order to increase the accuracy and productivity of balancing large-sized rotors, the deflecting optical system is designed as a console mounted At one end of the cylinder on which the reflector is installed, bowls with a reflecting inner surface, for example conical, the hollow cylinder are mounted with another end in bearings on the optical quantum generator, and in the hollow cylinder opposite the reflector an opening is made for the passage of the light beam from the optical quantum generator. Lsel05co00co > &

Description

The invention relates to the field of instrumentation, in particular to the design of devices for automatic balancing of rotors during their rotation. A device for balancing rotational bodies containing an optical quantum oscillator (a laser with a focusing system and an unbalanced mass position sensor) is known. In this device, a trace in the form of an arc, the length of which is limited depending on the required balancing accuracy, remains on the surface of the rotor. since in order to ensure high accuracy it is necessary to obtain minimum arc sizes, the necessity arises to limit the duration of the laser pulse and thus decreases The removal of the mass upon a single pulse, therefore, the efficiency of the process is low. It is also known a device for automatic balancing of rotors during their rotation, which contains an optical quantum generator (an oscillating laser mounted on a rotary cylinder, a reflector made, for example, in the form of a prism with a reflection angle of 45, and a deflecting optical system placed on a cylinder. This device is the closest in technical essence to the described invention. Jun. However, it is intended primarily for balancing small rotors (weighing up to 200 g and 50-60 mm in diameter). The ability to balance large-sized rotors is limited due to the design difficulties encountered in the manufacture of the device. The dimensions of the rotating optics increase significantly, and consequently, the balancing accuracy decreases. The aim of the invention is to improve the accuracy and productivity of balancing a large-sized rotor. This goal is achieved by the fact that the clone optical system is designed as a cantilever mounted at one end of the cylinder on which the reflector is mounted, with a reflecting inner surface, for example, a conical hollow cylinder. mounted in bearings on an optical quantum generator, and in the hollow cylinder opposite the reflector there is a hole for the passage of the light beam from the optical quantum generator. The drawing shows a diagram of the device. The device for automatic balancing of the rotors during their rotation comprises an optical quantum generator 1, a hollow cylinder 2 installed rotatably, a cylinder rotating drive 3, a reflector mounted at one end of the cylinder, made, for example, in the form of a prism 4 with a reflection angle of 45 °, and a deflecting system, made in the form of a cantilever mounted at one end of a cylinder 2 on which a reflector is mounted, of a bowl 5 with a reflecting inner surface 6, for example conical. The hollow cylinder 2 with the other end is mounted in bearings 7 on an optical quantum generator, opposite the reflector in the cylinder there is an opening for the passage of the light beam from the optical quantum generator 1. The device also contains a focus system 8, a sensor 9 designed to determine the position of the rotating system (hollow cylinder 2 with a bowl 5), a sensor 10 for detecting the position of the unbalanced mass of the balanced rotor 11, a coincidence and synchronization unit 12 with the master synchronization unit 13. The operation of the device is as follows. The ballant rotor 11 and the bowl 5 with the focusing system 8 are independently rotated in one direction. The passage of the bowl 5 of a certain angular position is recorded by the sensor 9, and the passage of the same angular position by the rotor's fixed position is recorded by the sensor 10. When the signals from the sensors 10 and 9 coincide, the block 12 triggers the signal to start the radiation source - the optical quantum generator 1. the system — a prism 4, a reflecting surface 6, a focusing system 8, is focused on the heavy position of the rotor, producing a predetermined amount of mass.

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Comparative analysis confirms that the surface practically does not exceed the usefulness of the device that measures the size of the area over which it is. The device allows the radiation to be localized, allowing the movement of the pulse to be monitored and prolonged.

th place rotor. Providing ra-. without increasing the footprint. The relative speeds move the efficiency of the process of equalizing the point at which the rotors' new settings are located (the advantage of radiation, and the rotor's heavy but large-sized place), the accuracy of the bavalife at which the area of the track of the race becomes larger.

Claims (1)

DEVICE FOR AUTOMATIC BALANCING OF ROTORS DURING THEIR ROTATION, containing an optical quantum generator, a hollow cylinder mounted for rotation, a drive for its rotation mounted on one end of the cylinder, a reflector made, for example, in the form of a prism with a reflection angle of 45, and a deflecting optical a system located on the cylinder, characterized in that, in order to improve the accuracy and performance of balancing large-sized rotors, the deflecting optical system is made in the form of a cantilever hydrochloric at one end of the cylinder on which the reflector bowl with a reflecting inner surface, for example a conical, hollow cylinder at the other end is mounted in bearings on the optical quantum generator, and in the hollow cylinder opposite the reflector an opening for the passage of the light beam from the optical maser. 068C9e'7i5