DE814188C - Small magnet-electric machine - Google Patents

Description

Small magnet-electric machine For small magnet-electric machines, in particular bicycle alternators, the task has been asked time and time again, to achieve the highest possible performance with the smallest dimensions. Since one of these Small machines use permanent magnets, so the problem is primarily in finding a high coercive force material. Such a material stands more recently in the aluminum-nickel alloys available, but the Have the disadvantage of a relatively high magnetic resistance.

In order to create a balance here, it has already been suggested that in the case of the inner pole arrangement around the outer circumference of the poles and those connecting them Yokes existing magnet body a ring made of magnetically good conductive material, like soft iron to arrange. Thereby it is achieved that the from the Poles through the Yokes flowing magnetic flux make its way in large part through this good magnetic conductor decreases, thereby reducing the overall magnetic resistance and thereby the performance of the machine is increased.

According to the invention, this beneficial effect can thereby be increased be that the parts of high magnetic conductivity in such a way in the interior embeds the magnet body made of a material with high coercive force, that these parts are in the middle of the magnetic flux. While at the known Formation of the magnetic system of the power flow not only through the whole pole, but also over the entire width of the yoke, i.e. through an area of higher magnetic strength Resistance must flow until it reaches the outer ring of the good magnetic conductor has, that path is of high resistance essential according to the invention shorter because the good magnetic conductor is in the middle of the yoke area.

The embedding of the good magnetic conductor can be done in the way that one of the known alloys of high coercive force, in particular an aluminum-nickel alloy, used in powdered condition and a soft iron ring with the help of Embeds compression molds in this material and the latter by methods known per se brings about sintering. Another method is to use the soft iron ring insert in a mold so that the magnetic material when pouring the ring encloses on all sides. Finally, another embodiment consists in that the powdered magnetic material with a powdered synthetic resin as a binder presses into molds and embeds the soft iron ring in the middle of the material.

You can go a step further and add the soft iron ring with provided radially inwardly directed lugs which protrude into the interior of the poles. It is thereby achieved that the flux of lines of force on a particularly large part of his Way finds a material with good conductivity.

The drawing shows the invention in several exemplary embodiments FIG. 1 shows a cross section through the pole system with an embedded one Ring and Fig. 2 a similar pole system, but with a radial on the embedded ring inward approaches.

According to the embodiment of FIG. I, four poles i are arranged which are connected to one another by yokes 2. A ring 3 is made inside the yokes magnetically good conductive material embedded. This embedding can be done once happen that the material surrounding the ring by casting or sintering under Applying a mold that is pressed around the ring. According to another embodiment the magnet system is made up of three concentric rings. The inner ring consists of the poles i and the inner yoke parts 4. This is followed by the center ring 3, which is made of highly conductive material, and the outside becomes a another ring 5 placed around it, made of the same material as the pole i and the inner yoke parts 4, made of a material of high coercive force consists.

According to the embodiment of FIG. 2, the ring 3 has good magnetic properties Conductivity lugs 6 attached, which are directed radially inward and the protrude into the interior of the poles i. Like the ones drawn in this figure Lines of force 7 can be seen, the flow of force lines flows through at its greatest Paths both the approaches 6 of the magnetically highly conductive material Ring 3 as well as the ring 3 itself. Thereby it is achieved to a high degree that the magnetic flux despite the high coercive force of the main material. of the magnet system assumes higher values, whereby a higher performance of the small machine is achieved.

On the other hand, if you place the same on the small electric machine based on electrical power, as in the small machines previously used was common, the invention gives rise to the possibility of using the magnet system to construct smaller in the dimensions, which in turn has the consequence that too all other parts of the small machine are correspondingly smaller in terms of their dimensions, so that the whole small electric machine is much lighter than the previously known Small machines can be built with the same performance.

Claims (6)

PATENT CLAIMS: i. Small magnet-electric machine with a magnet body which consists of a connection between a magnet body part with high coercive force and a magnetically good conducting magnet body part, characterized in that the magnet body part consisting of magnetically good conducting material is embedded in the interior of the magnet body parts having a high coercive force. 2. Small machine according to claim i, characterized in that the internal pole arrangement the part of the magnet body, designed as a ring and made of magnetically highly conductive material between the inner magnet body part consisting of the poles and narrow yoke parts made of material with high coercive force on the one hand and an outer one also made of material high coercive force existing ring is arranged on the other hand. 3. Small machine according to claim i, characterized in that the magnetically highly conductive part of the magnet body inside the magnet body made of a high coercive force material is sintered in. 4. Small machine according to claim i, characterized in that which uses a high coercive force material in powder form and with Synthetic resin as a binding agent is pressed into a form to form a magnetic body, that the magnet body part made of magnetically highly conductive material inside of the magnet body comes to rest. 5. Small machine according to claim i, characterized in that that the magnet body part made of magnetically good conductive material into the Inside the entire magnetic body is embedded in the casting process. 6. Small machine according to claims i to 5, characterized in that the one made of magnetically highly conductive Material consisting, preferably ring-shaped magnetic body part at the pole points engages with radially inwardly directed projections into the interior of the poles.