DE1888682U - Adjustable inductance - Google Patents

Description

do

Dipl.-Ing. Heinz Glaessen
Patent attorney
Stuttgart?
Eotebühlstrasse 70

"2732
International Standard Ileetric Corporation, Lew Tork

Settable inductance.

"The! Firing refers to an adjustable inductance with a pot core made of magnet is former material,

The trend towards ever smaller components brings a number of conflicting requirements, among which the reduction the dimensions should be combined with a maximum ratio of inductance to resistance »ease of manufacture and easy assembly

'According to the firing, it is proposed a variable inductance which consists of a üüopfkern of magnetic material having a center leg, the coil is held with slices of flexible insulating material in the cavity "These discs have a central hole whose diameter is less of than the outer diameter Middle port.

The winding is inserted into the cavity of the junction core in such a way that that first the discs made of flexible insulating material with an inner diameter smaller than the outer diameter of the central piece of the core are placed on this and that the winding is then brought into contact with the insulating disks.

The innovation will be explained in more detail with reference to the figures.

FIG. 1 shows a longitudinal section through an adjustable inductance according to the control.

(Dr.Bs.) Pr./s. - 1.7.1963 - 2 -

- 2 -
ISB / Eeg. 2732

FIG. 2 shows a top view of the arrangement according to Ligur 1.

The pot core according to FIG. 1 consists of two half-shells made of magnetic material, which are denoted by 1 and 31. You ktfemezi. made of any magnetic material, e.g. ferrite. 2) The half-shells are set with their end faces at 2 on top of one another ,

«To each other in any known way» e.g. by means of a stoffee, attached. The air gap 3 between the Mittelbutzea

:, both half-cores determines the minimum of the value of the inductance the coil,

The movable Abgleiehkern 4 », also made of magnetic material, is arranged in a cylindrical bore in the core. Sir kaaa can be adjusted in the axial direction by means of the screw 6, which engages in the nut 8 and is brought into such a position that it bridges the air gap of the core and so the inductance of the? Fieklung 5, which in the cavity between the two HalMzsr- disposed NEN increased.

The base 12 made of ceramic material is attached to the core 1 and provided with connections 13 for the lead wires of the winding 5. It can also be provided with means to fix the core on the board of a printed circuit board. The base 12 can, if necessary, also be arranged on the opposite side of the core, so that the adjustment of the adjustment core can take place through the base on which the core is arranged. For this purpose the hole 11 is provided in the base 12.

The ratio of reactance to resistance of the winding is referred to as the Q-3 actuator of the inductance and is a measure of the (kite. Among other things, to make this factor as large as possible for a certain core size, the volume of the winding 5 must be a maximum. In the known arrangements, the winding is applied to a coil core, which determines the position of the winding in the core. The winding core, however, requires space and reduces the volume of the winding and thus the Q factor.

ISE / Reg, 2732

In the winding of Figure 1, no winding core is used, but the winding is self-supporting. Bs are different techniques known for the production of such windings

The winding 5 is held in the cavity of the core in the middle of the disks 14, which are serrated on their outer and inner edges. The outer edge of the upper pane can be seen in Figure 2 .

hen. The disks consist, for example, of a suitable plastic or mica, the diameter of the hole delimited by the inner serrated edges 15 of the disk is smaller than the outer diameter of the central slug 16 of the half-shells 1 and 31. Xterni the disks are pushed over the central slugs 16, The teeth 15 bend back so that the discs are bent over on the band. The winding 17 is held in the correct position by these disks and a uniform gap is achieved between the middle slug 16 and the winding. The diameter of the disks 14 to the outer toothed hand 18 is greater than the maximum diameter of the winding cavity in the core 1. These teeth are also bent back by the core, as shown in Figure 1 at 19, with the exception of the file which, as can be seen in Figure 2, lie in a rope of the core, where the core has slot-like recesses 20. There the lead wires 21 of the winding are led to the outside so that they can be connected to the connections 13. The teeth 18 of the disks are not bent back in these recesses and serve to guide the lead wires.

The teeth are chosen so that there is the necessary number of support points for the lead wires.

However, the description only represents an example of the implementation the innovation.

Plant

4 claims for protection
2 sheets of drawings

Claims (4)

Protection claims s 1.) Bins divisible inductance with a head core made of magnetic Material, which has a central slug and eggs the 'Winding is arranged in the cavity of the core, characterized in that the winding in the core cavity toreli Sclieitoea au © flexible insulating material with a central hole geImLtea is and the diameter of the hole is smaller than the Auilendureh knife of the middle section. 2.) Adjustable inductance according to claim 1, characterized in that that the perforated edge of the insulating disks is toothed, 3) Adjustable inductance according to claim 1 and 2, characterized in that that the outer diameter of the Isolieretoffseheiben is larger than the large diameter of the winding cavity in the core. 4.) Adjustable inductance according to claim 3, characterized in that that the insulating washers are serrated on the outer edge * CDr.Be.) 3Pr./ff. - U7.1963