SU78014A1 - Balancing machine for dynamic rotor balancing - Google Patents

Description

Known balancing machines for dynamically balancing rotors are mounted on racks with the help of suspensions so that the rotor forms a pilot and can reproduce transverse oscillations.

The difference between the proposed machine and similar machines lies in determining the imbalance by measuring the centrifugal force of the balancing rotor according to the dynamometer, moved along the taller frame and designed to measure the frame pressure on the limiting stop in the machine bed and determine the minimum force, balance the hanging force and centrifugal force of the centrifugal force. His rotor in the plane of the counterweight, which simplifies the process of dynamic balancing.

The drawing shows a diagram of the proposed machine.

A matnika frame / plug to the frame on four thin steel rods x 2. In addition, it can be connected to the frame with a thin steel plate 3 against any point L located on the rotor axis. Thus, the rocking frame, together with the balancing rotor 4 placed in its bearings, can oscillate around the axis 00 located in the vertical plane of the plate 3. The amplitude and oscillation of the frame are limited by rigid stops 5 and 5, and its linear displacement near the stop is about. 0.2-0.5 mm.

A balancing rotor 4 is connected by a thin Steel rod 7 with a spindle 8, which moves from the electric motor. On the wedge: indel there is a disk 9 fixed with divisions, which makes it possible to charge and detect the angle of rotation of the rotor. This disk is illuminated by a neon lamp 10, which is turned on when the contact is closed when the plane 6 touches the rotating frame.

The mattress frame is designed to stop 5 with a special dynamometer P, which makes it possible to determine the pressure of the frame against the stop 5. The pressure meter can be moved along the frame.

Let the ends e and e of the rotor 4 be the counterbalance planes. By setting plate 3 in the plane e, 1кл, the influence of the centrifugal force C on the possible

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moving the frame around the axis 00. Then set the dynamometer // in the plane e and with the help of raUKvr 12 attract the pictorial frame / to the stop 5 with some force P. After that, the balanced rotor 4 is rotated. If centrifugal force C force P, then the tandem frame will remain pressed against the stop 5, otherwise it will begin to detach from the stop 5 and, periodically, touch the stop 6. Change the force P with the help of the nut 12, find the lowest value detached from stop 5. In this case, it can be considered what .

The position of the counterweight in the e-plane is determined by the disk 9. At the moment of touching the inner frame of Unor 6, the neon lamp 10 lights up and illuminates the disk 9, which, due to the frequent and short-duration flashes of the lalsha, appears to be stationary. Noticing division B, which is opposite to fixed arrow 13, changes the direction of rotation of the rotor and again notice division D, which is opposite to the same arrow 13. After that, stop the rotor and position the bisector of the BED angle against the arrow 13. Counterbalance B the case must lie on the radius EA1 of the intersection of the plane e with the horizontal plane passing through the axis of the rotor from the side of the dynamometer.

In a similar way, the magnitude and position of the counterweight in the plane e are determined. In this case, the dynamometer sets, s in the plane e, and the plate 3 in the plane e.

Subject invention

A balancing machine for dynamically balancing rotors, equipped with an attachment frame mounted on suspensions for mounting the rotor and a stroboscope with a neon or other similar lamp for determining the angle of rotation of the rotor during balancing, equipped with a frame movable parallel to the axis of the rotor base plate with the base of the machine tool for the implementation of the oscillatory movement of the frame with the rotor around the axis in the vertical plane of the plate, as well as eschae .mym along the pendulum frame with tensioning dinanometrom zhno minutes nut designed to measure the amount of force uravnoveschivayuschego centrifugal force of the rotating rotor, and determining based on the found values of stress imbalance in the plane balances.

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