RU2182322C1 - Rotor balancer - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: device is designed for use in balancing facilities for rotors. Holder with rollers for rotor is freely suspended on horizontal axles inside beam coupled with base through screw and support bearing. Beam is installed on base through roller supports which are fitted on horizontal axles of beam for turning around the axles. Holder is installed for displacement in vertical. EFFECT: improved reliability of balancer, simplified design and enhanced accuracy of balancing. 2 dwg

Description

 The invention relates to balancing equipment and can be used for balancing rotors of turbines of power systems.

 Known balancing device (patent US 3452604, 03/13/1966, CL 73-475), containing a base with rollers, on which through the vertical axis with an adjusting screw and a thrust bearing mounted support beam with the possibility of rotation in a horizontal plane, and inside pivotally rotatable around the horizontal axes, a cage with rollers for a balanced rotor is suspended.

 This device has several disadvantages.

 1. The complexity of the design due to the fact that the details of the base with rollers must be made of high strength materials with high manufacturing accuracy. Otherwise, there will be a violation of the mobility of the system, which will lead to errors in the calibration of products.

 2. The entire load of the support beam, the cage with the rollers, of the rotor lies on one vertical axis, during oscillations of which jamming of the beam rotation limiters can occur (pos. 21, 22), which will lead to its deviation from the vertical and the occurrence of an off-design resonance of the system and , therefore, to a balancing error.

 3. In order to compensate for the difference in the diameters of the necks of the rotors, it is necessary to rotate the jack nuts together (pos. 33), otherwise the rotor may skew, which will lead to the deviation of the support from the vertical and to an emergency.

 4. With an increase in the mass of the rotor, the friction force in the horizontal rollers increases, which will lead to a decrease in the sensitivity of the device.

 The technical problem posed before the invention is to increase the operational reliability of the device, simplifying the design and improving the accuracy of balancing.

 This technical problem is solved in that in a device for balancing rotors containing a holder with rollers for rotors, freely suspended on the horizontal axes inside the beam, connected with the base of the screw and the thrust bearing, the beam is mounted on the base by means of roller bearings placed on the horizontal axes of the beam with the possibility of rotation around them and made in the form of housings with rollers, and the said clip is mounted on the beam with the ability to move it vertically.

 The proposed design has a simple, operational reliability with sufficient rigidity of the system, eliminates measurement errors during balancing of the rotors by eliminating distortions during installation.

 Figure 1 shows the device is a front view, figure 2 is the same - view A. figure 1.

 The device consists of a base 1, on which a beam 4 is mounted by means of roller bearings 2 placed on the horizontal axles 3. Roller bearings 2 are made in the form of housings 5 in which the rollers 6 are placed.

 Cases 5 have the ability to rotate around the axles 3 of the beam 4. From the bottom in the middle of the beam 4 is supported on the base 1 using the adjusting screw 7 and the support bearing 8.

 Inside the beam 4, on the axles 9, a cage 10 with rollers 11 for a balanced rotor (not shown) is suspended. The clip 10 freely moves on the axes 9 and can be moved vertically by means of sliders 12 and screws 13 mounted on the beam 4. On the base 1, dynamometers 14 are installed under the roller bearings 2.

 For balancing, the rotor with its necks is mounted on the rollers 11. The rotor skews in the vertical plane, arising due to errors in the diameters of the necks, are selected due to the swinging of the yoke 10 on the axes 9. In this case, the rotor axis is self-aligning horizontally.

 The distortions of the rotors in the horizontal plane, arising due to misalignment of the necks, are selected by turning the beam 4 on the roller bearings 2 on the base 1. Thus, possible runout of the rotor during its rotation is eliminated.

 To ensure the rigidity of the system and eliminate possible deflections of the base, beam 4, it is supported from the bottom by a screw 7 and a support bearing 8. In this case, the load on the beam 4 is distributed at three points - a pair of roller bearings and a support bearing, which provides sufficient rigidity and stability of the system.

 With different diameters of the necks of the rotor provides for raising and lowering the cage 10 using screws 13 and sliders 12.

 The rotation of the housing 5 of the roller bearings around the axles 3 allows you to compensate for the non-planar support surface of the base 1.

 The proposed device allows you to balance the rotors with diameters of the necks from 100 mm to 400 mm and weighing from 7 to 32 tons, and self-supporting bearings exclude possible runout, which increases the accuracy of measurements.

Claims (1)

 A device for balancing rotors, comprising a holder with rollers for the rotor, freely suspended on horizontal axes inside the beam, connected to the base with a screw and a thrust bearing, characterized in that the beam is mounted on the base by means of roller bearings placed on the horizontal axes of the beam with the possibility of rotation around them and made in the form of housings with rollers, and the said clip is mounted on the beam with the possibility of moving it vertically.

Images