DE301948C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a closure for the grooves of electrical. Machinery, in a manner known per se from magnetizable lateral parts (flanks) for spreading the lines of force and from bridges to maintain the shape. These wedges are inserted into the Groove thereby pressed with their lateral parts against the teeth that the bridges in also be stretched in a known manner. The invention according to the closure of grooves now wedges of approximately kidney-shaped largest profile, consisting of lateral bulges made of magnetic material and middle bridges that firmly connect the beads plastic material, inserted into the groove in a bent shape and then through Stretching of the arches of the bridge spread. The special effect of this slot lock is that the bridges are firmly clamped between the beads, so that the Bridges in the manner of a clamped girder extremely firmly between the groove walls sit.

The drawing should serve to illustrate the relationships.

If one looks, as in Fig. I, towards the head end of the wedge, the magnetic parts α lie laterally on the walls of the grooves. The distance of these magnetic parts from one another, in order to facilitate the introduction into the groove, is smaller before the introduction (FIG. 2), after the introduction the profile is stretched; the bridges are formed by a suitable choice of material or by dimensioning the cross-section so that the deformation takes place mainly on them only. The wedge is then stuck as a result of the pressure exerted against the side walls of the groove.

The arrangement of the magnetic parts on the side walls of the groove calls the well-known favorable magnetic line of force distribution. This beneficial effect is made possible by the Shape and reinforced by the choice of material for the bridges. Because the wedges should have an approximately kidney-shaped largest profile, this already results in a favorable one Increase in magnetic reluctance in the middle of the wedge if you own the bridge made of magnetic material. The conditions are even more favorable if you the beads for both tooth flanks are completely separated from each other and only by web-like construction Bridges connect with each other.

Figs. I, 3, 4 and 5 show examples of different cross-sectional shapes of the wedge. The space between the magnetic parts α and the walls c of the groove is filled with an insulating agent d; the bridge is denoted everywhere with b. The wedge according to FIG. 4 has cylindrically rounded flanks on its magnetic parts a; accordingly, the walls of the grooves are cylindrically recessed so that when the wedge is spread apart - for example by hitting the back of the bridge - the flanks slide in the cylindrical surfaces and the insulation material is protected.

In its longitudinal direction, i.e. H. parallel to

Axis of the machine, the wedge can consist of one or more pieces. In the first case, it can take the form of a hollow rail, for example; in the latter case, in order to increase the magnetic resistance, the magnetic parts α can be completely separated from one another and connected by bridge-like bridges b (cf., for example, FIGS. 6 and 7). In order to reduce the formation of eddy currents to a minimum, the magnetic parts α lying between the webs b can still be made from individual sheets.

In the embodiments as in FIGS. 7 and 8, the material of the bridges can also be selected as desired; the webs b can be made of the same material as the parts α or z. B. made of brass or another non-magnetic material. It is essential that the bridges absorb the entire deformation and that the line of force is not impaired.

9 and 10 illustrate how the individual sheets α and the bridges b are held together by sheets or rivets β extending in the longitudinal direction of the wedge; the rectangular cross-section of these bolts prevents the deformation of the wedge, the magnetic parts from being able to move against each other and against the bridge parts lying on them.

Claims (3)

Patent Claims: 1. Closure for the. Grooves in electrical machines, characterized in that Wedges of roughly kidney-shaped largest profile, consisting of lateral bulges made of magnetic material and middle bridges that firmly connect the beads plastic material, inserted into the groove in a bent shape and then be spread by stretching the arch of the bridge. 2. Groove lock according to claim 1, characterized in that the wedge consists of separate iron bodies on both tooth flanks and firmly braced with them Bridge webs is layered in the direction of its longitudinal extent. 3. Groove lock according to claim 2, characterized in that the layers held together by rivets of elongated cross-section ... 1 sheet of drawings.