DE577650C - Magnetic coil for large currents, which consists of several concentrically arranged partial coils with common supply or discharge lines - Google Patents

Description

Magnetic coil for large currents, which are made up of several concentric there is mutually arranged partial coils with common supply or discharge lines It is known for coils for large currents that have a large conductor cross-section need the necessary, taking into account the difficult production of the winding To share cross-section and instead of a single coil several concentric to each other to provide arranged partial coils with common supply and discharge lines. With the known Coils of this type have the cross-section of the conductors in the individual sub-coils made the same size. Since the diameter of the coil sections is different, is the length of the unwound turns and therefore the resistance in each Partial coils of different sizes, so that the current distribution to the various partial coils is uneven.

This disadvantage is accentuated by such in accordance with the present invention different dimensioning of the winding length and cross-section of the various sub-coils fixed that the same current flows through all sub-coils.

There are known arrangements in which a uniform current load of the winding parts connected in parallel with the same number of turns by changing the Winding lengths or by using different materials is achieved. These Arrangement is only important in AC induction devices while they are is meaningless with direct current.

Such arrangements are for the construction of switches for large currents impossible, since the magnetic circuit is not closed by iron, which makes it large part of the magnetic flux is uselessly lost through scattering. Would accordingly the known arrangements, the turns are pulled apart, so the The spread is even greater, reducing the design and cost-effectiveness of a switch is downright questionable.

The arrangement according to the present invention so these Disadvantages largely eliminated, namely the technical progress consists in that the winding height or the diameter and the number of sub-coils each can be adapted to the smallest spatial conditions.

Several exemplary embodiments of the invention are shown in the drawing.

In the solenoid coil according to Fig. R and z, the two coils a and b are arranged concentrically to one another, and the current flows through them in the same sense. The current is supplied through the connecting pieces d and e, to which the two coils a and b are connected.

In the embodiment according to Fig. 3 and ¢ the three sinks a, b and c are arranged concentrically to one another and connected to the supply lines d and e . Current also flows through these coils in the same way.

In the two exemplary embodiments shown in FIGS the ends protruding from the coil compartments serve as connections for the Current dissipation. According to Figs. 5 and 6, there are again two coils concentric arranged to each other. In this embodiment, the two coils a. and b traversed by the current in the opposite direction. The current direction goes out the drawn arrows. On one side is the common Power supply line f, on the other side the two line ends h and g.

In Figs. 7 and 8 three concentrically arranged coils a, b and c are shown. The connection is made in the same way as in Fig. 5 and 6 through the common supply line f on one side and the coil ends g, lL. i on the other hand.

The number of turns of the coil compartments and their nuerschnitte are so taken that the same current flows through all coil sections, i.e. theirs Resistances are the same. This results in a favorable utilization of the line material brought about because the specific stress on the material in all parts of the same is.

Claims (5)

PATEN TANSPIECK: i. Magnetic coil for large currents, which of several concentrically arranged coil sections with common supply or derivatives, characterized by such a different dimensioning of the winding length and cross-section of the various sub-coils, which runs through all of them Partial coils the same current flows. 2. Magnetic coil according to claim i, characterized in that that the turns of the inner sub-coils have a smaller cross section and a smaller one Have length than that of the outer coil sections and the number of turns in the inner sub-coil is always larger than the next outer sub-coil. 3. Solenoid according to claim 1 and 2, characterized in that with different lengths of the turns the individual coil sections are the same height and over the entire circumference of one end winding with a common connector (d) for the power supply and over the whole Circumference of the other end winding with a common connection piece (e) for the discharge of current are connected. .I. Magnetic coil according to claim i, characterized in that the Height of the coil sections is different and the coil sections are only on one side above the, the entire circumference of the end winding are connected to a connector, while the the other end of the coil is brought out for the connection. . 5. Solenoid according to claim 4., characterized in that a magnetic coil comprehensive for the power supply [J-shaped connector is provided and each coil has an end winding is connected to one leg of the connector.