CS253815B1 - Method of bonding of the electric rotary machines bundles from sheet plate pressings - Google Patents

Abstract

Method of bonding of rotating electric bundles of sheet metal presses, in particular stator and rotor bundles, of which sheet metal stampings are used to achieve the necessary insulating insulation baking varnish is that bundles are bonded with insulating varnish after insulation wherein the insulating adhesive layer is applied varnish on individual sheet metal stampings first cures only at 280 to 300 ° C for 50 to 70 seconds, then sheet metal stampings consist of, and upon reaching the desired the bundle thickness is compressed pressure of 1.5 to 1.7 MPa and adhesive layer of varnish is cured at a temperature of 150-170 ° C 12 to 15 hours. If for curing bundle of insulated sheets and hence for using it to bond it, it is beneficial Make the bundle after reaching the desired thickness of the bundle before inserting it into the fixture on the surface of the bundle separating means.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for bonding bundles of rotary electrical machines made of sheet metal parts, in particular stator and rotor bands, the sheet metal parts being insulated to obtain the necessary insulation resistance by lacquering with a synthetic stoving lacquer.

To simplify the construction of rotating electrical machines, to increase the stiffness of the self-supporting stator bundles, to increase the stiffness of the outer partial bundles of stators and rotors, it is known to use bonding of individual bundles of partial and whole bundles of both rotors and stators.

The individual moldings are pre-lacquered with an insulating varnish to achieve the required insulation resistance and the bonding of the bundles is carried out with another special adhesive varnish, usually epoxy. Adhesive varnish is applied to the individual insulated moldings, usually at a special workplace, which cures only so that the moldings can be handled and stored on pallets.

After the stator or rotor bundle has been assembled from such moldings, the bundle is glued and cured in special formulations under pressure and heating in the furnace.

The main disadvantages of this method of gluing are that two types of lacquer, i.e., insulating lacquer and adhesive lacquer, are required, that two devices are to be used, for applying the insulating lacquer and adhesive lacquer, that two special workplaces need to be created, this is for insulating and gluing, and that the use of epoxy adhesives cannot substantially increase the strength of the bonded bundle, since the bonding bundle strength is dependent on the adhesion of the insulating varnish to the sheet and not the bonding strength of the two insulating layers between each other.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome these drawbacks, in particular to simplify the entire gluing process, accelerate its performance, increase work productivity while ensuring good strength and insulation of the bonded bundle.

The method according to the invention is characterized in that the bundles are bonded with an insulating varnish after being insulated, wherein the applied insulating varnish adhesive layer is first cured at 280 to 300 [deg.] C. for 50 to 70 seconds on the individual sheet metal sheets, then the sheet metal sheets are folded and when the desired thickness of the bundle is reached, the bundle is compressed at a pressure of 1.5 to 1.7 MPa and the varnish adhesive layer is cured at a temperature of 150 to 170 ° C for 12 to 15 hours. According to a preferred embodiment of the invention, when using the jig, the individual moldings are provided with a release agent on the surface both between the individual beams and between the beams and the jig when the compositions are put into the jig after reaching the desired beam thickness:

The main advantages of the method according to the invention are that only one lacquer can be used, both for insulating sheet metal parts and for bonding bundles, that only one device and one workstation are required for application, and that the strength of the bonded bundle depends only on the strength of the lacquer film of the insulating layer and its connection with the sheet and that simplification of the entire construction can be achieved.

The invention is explained in more detail below by way of example of a method of bonding a bundle of rotating electrical machines.

The bonding of the stator and rotor bundles of rotating electric machines is carried out with an insulating varnish, with which the individual moldings were previously only insulated, for example with an insulating varnish S1924. This lacquer is a synthetic baking lacquer consisting of a solution of an alkyd and phenolic resin having a content of about 60% in organic solvents composed of aromatic hydrocarbons. The coating rollers are released, thereby increasing the thickness of the applied coating film, and the conveyor belt speed of the coating machine is increased, thereby ensuring that the coating film is only partially cured on the individual moldings. After applying the lacquer adhesive layer, the individual moldings are folded directly into a special jig when removed from the varnishing machine. ,

The application rollers allowance, temperature and conveyor belt speed of the varnishing machine are selected so that the varnish adhesive layer hardens only partially on the individual moldings, so that the extrusions can be handled when removed from the varnishing machine and folded into a special jig. This partial curing is carried out at temperatures of 280 to 300 ° C for 50 to 70 seconds.

After folding the desired thickness of the stacked bundle, the bundle is compressed at a pressure of 1.5 to 1.7 MPa and secured in the fixture. The bonding of the bundle and the curing of the adhesive varnish are carried out in a furnace at the prescribed technology, for the S1924 varnish at a temperature of 150 to 170 ° C for 12 to 15 hours. The prescribed pressure must be maintained during curing. If rigid clamps are used for curing, not springs, after reaching a temperature of 80 ° C to 100 ° C it is necessary to remove the bundle formulation from the furnace, retighten it and put it back in the oven to cure the paint adhesive layer.

Depending on the sheet metal starting material used, there are essentially three different cases.

In the first case we assume that the sheets are not insulated at all. The individual moldings, i.e. the segments or annulus, are insulated after sanding by applying an insulating varnish to the varnishing machine according to the prescribed technology. This ensures the necessary insulation resistance of the individual moldings. Thereafter, an adhesive layer of the same insulating varnish is applied to the same varnishing machine, using another prescribed, for example the above-mentioned technology.

In the latter case, we assume that the sheets are insulated by the manufacturer. Moldings of these sheets, intended for electrical machines, in which the original insulation is considered sufficient, need not be additionally insulated by varnishing, but directly apply an adhesive layer of the insulating varnish to the varnishing machine according to the prescribed technology.

In the third case, we assume that the sheets are also insulated at the factory, but the sheet metal parts for electrical machines where the original insulation is considered insufficient, which is the case for larger and more demanding machines, must be additionally insulated by painting as sheet metal not insulated. In this way, the necessary insulation resistance is achieved and the adhesive layer of the insulating lacquer is then applied as before.

Separation means, grease or foil must be used to prevent the bundle from sticking in the product used or to prevent the bundles from sticking together.

Claims (2)

Method for gluing bundles of rotating electrical machines made of sheet metal parts, in particular stator and rotor bunches, the sheet metal parts being insulated for obtaining the necessary insulating resistance by varnishing with a synthetic enamel lacquer consisting of a solution of alkyd and phenolic resin in organic solvents. Insulating varnish is applied to the metal stampings, whereby the applied insulating paint adhesive layer is first cured on the individual metal stampings at a temperature of 280 to 300 ° C for 50 to 70 seconds, then the metal stampings are folded and after reaching the required beam thickness 5 to 1.7 MPa and the varnish adhesive layer is cured at a temperature of 150 to 170 ° C for 12 to 15 hours. 2. A method according to claim 1, characterized in that the bundles are provided with a release agent on the surface between the individual bundles as well as between the bundles and the composition when the individual moldings are inserted into the jig after reaching the desired thickness.