RU2608561C2 - Method and device for extraction of magnetoelectric machine rotor - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, specifically to a method and device for dismantling electric machines with permanent magnets for repair and maintenance. Device for extraction of rotor with permanent magnets comprises legs, a first rotatable handle, threaded sleeve, installed on a shaft and fixing position of legs, and a second rotatable handle, wherein shaft is attached to dead end of pipe made of titanium for extraction of rotor. Method of extracting rotor comprises fixing on housing of electrical machine a device for extraction of rotor using legs by rotating first handle, placing rotor in pipe made of titanium, which is fixed in air gap, rotating second handle to push pipe rotor from stator, rotor is removed from pipe and a clamp is worn on rotor shaft, said clamp being made of ferromagnetic material for protection of permanent magnets from demagnetisation in air.

EFFECT: technical result is simplifying rotor extraction process in field conditions.

2 cl, 2 dwg

Description

The invention relates to the field of engineering, in particular to devices for disassembling electrical machines for repair and maintenance.

Currently, the dismantling of electric machines of low and medium power is carried out with bench tools and simple devices. The lack of specialized devices complicates the process of mounting and dismounting parts of an electric machine.

Known chain hoist [DE patent No. 10244865 B66D 3/20, 09/30/2004], consisting of a housing in which the load lifting mechanism is located, and a hook suspension, to which the load is suspended. The lifting mechanism is carried out with a gear and is driven by a gearbox connected to the engine. A brake is installed in the lifting mechanism to prevent spontaneous lowering of the raised load.

The disadvantages of this device are the large size and the difficulty of controlling it due to the large magnetic forces tending to attract the rotor to the stator, which increases the likelihood of damage to the electric machine itself. Another disadvantage of this device is the requirement for the presence of additional structures on which this device should be installed, as well as the difficulty of use in the field.

Known suspension lifting device telfer [Morgachev V.L. Hoisting machines. - M .: Mashinostroenie, 1964. - 155 p.], Consisting of an electric hoist and a running trolley that moves along a single-rail suspension rail, which provides a significant speed of both vertical lifting and horizontal movement.

The disadvantages of this device are the large dimensions and requirements for the presence of suspension rails. Another disadvantage of this device is the difficulty of extracting the magnetic rotor from the stator due to the magnetic forces attracting the rotor to the stator, as well as the difficulty of use in the field.

Known suspension sling [RF patent No. 2176980, IPC: B66C 1/12, F16G 11/00, 2001], containing working branches forming a loop for hanging on a hook, a piece of rope for interaction with the working surface of the hook, located under the intersection of the working branches and clamping devices connected to working branches and to the ends of the rope segment, each clamping device is made in the form of a two-sided three-jaw chuck having a through cylindrical hole located along its central axis, while the inner surface of the cams ying gear, and at the intersection of working branches to form one closed loop clamping device is mounted.

The disadvantages of this device are the difficulty of use in the field, as well as the increased complexity of the process, in which it is difficult to ensure accurate load balancing. The extraction process is also complicated by magnetic forces attracting the rotor to the stator.

A known method of extracting the rotor using an extension cord - a thick-walled pipe mounted on the end of the shaft [Pavlovich S.N., Firago B.I. Repair and maintenance of electrical equipment. - Minsk: Higher School, 2009. - 72 p.], The essence of the method is that the electric machine is installed in a strictly horizontal position, the sling, the length of which should be 4-5 times the length of the shaft, is thrown onto the shaft end and extension cord and hang from the hook. After suspension of the sling, each of its branches is regulated in such a way that during the trial tension of the sling the rotor is in a strictly horizontal position. Then, with the help of a crane, the rotor is lifted and shifted to the side until the sling comes close to the frontal part of the stator winding. The free end of the shaft is lowered onto a previously prepared sleeper layout, and the end of the rotor from the extension side to the stator core, protected by a gasket made of electric cardboard. After this, overtaking is carried out, the sling is thrown on the hook and on the rotor barrel in the center of gravity of the rotor. After reconciling the tension of the sling, the rotor is finally removed from the stator bore. This controls the air gap.

The disadvantages of this method is the complexity of the process of extracting the rotor due to repeated overturning under conditions of strong magnetic attraction from the side of the rotor and the need for constant monitoring of the air gap. Another disadvantage of this method is the difficulty of use in the field.

A known method of extracting the rotor using a bracket mounted on the rotor shaft [Pavlovich S.N., Firago B.I. Repair and maintenance of electrical equipment. - Minsk: Higher School, 2009. - 73 p.]. To remove the rotor, the gripper is mounted on the bracket so that the rotor is in a horizontal position and does not touch the stator. In the absence of a stationary lifting device for the bracket, a portable one is used, which is installed on the machine body. It consists of two channel beams, turned one to the other with their wide sides and fastened together by bolts with spacer sleeves. To fasten the beams, cargo bolts (eyebolts) are used. Under the long end of the beams fail stub. In the interval between the beams are placed two screw jacks that can move along it.

The disadvantage of this method is the complexity of the process of extracting the rotor in conditions of strong magnetic attraction, as well as in the field.

The closest in technical essence and the achieved result is a three-arm puller [Pavlovich S.N., Firago B.I. Repair and maintenance of electrical equipment. - Minsk: Higher School, 2009. - 70 p.], Which consists of paws that capture the part, the first handle made with rotation, moving the threaded sleeve to fix the high position of the paws, and the second handle that allows you to remove the part from the shaft.

The disadvantage of this device is the inability to capture the rotor due to the large dimensions of the paws and the inability to fix the device on an electric machine to create an emphasis. In addition, the absence of shielding elements does not make it possible to get rid of the forces of magnetic attraction arising from the presence of permanent magnets in the rotor, which can cause damage to the rotor.

The objective of the invention is the creation of a device that facilitates the process of extracting the rotor from an electric machine in the field by reducing the magnetic forces generated by the permanent magnets, as well as protect the permanent magnets from demagnetization and destruction when removing the rotor.

The technical result is a simplification of the process of extracting the rotor in the field due to its shielding using a pipe made of titanium, which also provides protection of the permanent magnets from destruction, as well as protection against demagnetization of the permanent magnets in the air due to the closing bracket, worn on the rotor shaft.

The problem is solved, and the technical result is achieved by the method of extracting the rotor, which emphasis is placed and the legs of the puller are fixed on the body of the electric machine, and the rotor is placed in a titanium pipe, thereby screening the magnetic flux and reducing the attractive force created by permanent magnets, while the pipe fixed in such a way that it is located in the air gap, the rotor is removed by pushing the pipe out of the stator due to the rotation of the first handle, after removing the rotor it is removed from the pipe and They put on a bracket made of ferromagnetic material, thereby protecting the permanent magnets from demagnetization in air.

The problem is solved, and the technical result is also achieved by the fact that in the device for extracting the rotor containing the paws, the first handle is rotatable, a threaded sleeve mounted on the shaft and fixing the position of the legs, and the second handle is rotatable, according to According to the invention, the shaft is fixed to the blind end of a pipe made of titanium.

The invention is illustrated by drawings. In FIG. 1 shows a general view of a rotor extraction device. In FIG. 2 shows a ferromagnetic bracket.

The proposed device (Fig. 1) contains paws 1, which are fixed using a sleeve 2, which provides the ability to move using the first rotating handle 3. In the pipe 4 made of titanium, the rotor of an electric machine is placed, which is bolted to the shaft 5 The movement of the shaft provides rotation of the second handle 6. The ferromagnetic bracket 7 is designed to be put on the rotor after it is removed from the stator.

The proposed device operates as follows. The rotor extraction device is put on the body of the electric machine, rotating the first handle 3, the legs 1 are tightly tightened, thereby fixing the device on the body of the electric machine. A pipe 4 made of titanium is put on the rotor to be removed, which is fixed by bolting to the shaft 5. When the second handle 6 is rotated, the shaft moves to the right, moving the pipe with the rotor, and pushes it out of the stator of the electric machine. After the tube 4 completely leaves the stator, the rotor is removed from the tube and a ferromagnetic bracket 7 is put on it to protect it from demagnetization.

An example of a specific implementation of the method

To remove the rotor from the generator of the MEG-100 brand, the rotor is placed in a pipe 4 made of titanium, which will reduce the magnetic forces of attraction from the side of the permanent magnets in the rotor during extraction and facilitate the process itself. After that, the shaft 5 of the device for securing with the blind side of the pipe 4 is bolted and the legs 1 are placed so that they cover the entire generator body. Using the first rotary handle 3, the legs 1 are fixed and tightened so that the tube 4 is in the air gap of the generator parallel to the inner surface of the stator. Rotating the second handle 6, push the pipe 4 out of the stator, after the pipe 4 is completely removed from the stator bore, it is disconnected from the device and the rotor is removed from it and the ferromagnetic bracket 7 is put on the rotor, which protects the permanent magnets from demagnetization in air.

Thus, the claimed invention provides a simplification of the procedure for removing the rotor from the stator of an electric machine, which allows it to be used in the field, and also significantly weakens the magnetic forces of permanent magnets and protects the permanent magnets from demagnetization.

Claims (2)

1. The method of extracting the rotor, which emphasize and fix the paws of the device on the body of the electric machine, and the rotor is placed in a titanium pipe, thereby screening the magnetic flux and reducing the attractive force created by permanent magnets, while the pipe is fixed so that it was located in the air gap, then rotate the first handle, push the pipe with the rotor from the stator and remove the rotor from the pipe and put on the rotor shaft a bracket of ferromagnetic material that protects the permanent magnets from demagnetized I'm on the air. 2. A device for extracting the rotor containing the paws, the first handle made for rotation, a threaded sleeve mounted on the shaft and fixing the position of the paws, and the second handle made for rotation, characterized in that the shaft is fixed to the blind end of the pipe made from titanium.

Images