EP0889489A1 - Bobbin for E-shaped core - Google Patents

Abstract

A coil-former (1) for inductive components having flanges (3) around the coiling space as well as contact plug-connectors (4-7) integrally moulded on the flanges and in which are provided wire-type contact pins (8) for an external connection of at least one winding arranged in the coiling space. Two opposite facing contact plug connectors (4,5) or (6,7) are provided on the flanges (3) and in which the wire-type contact pins (8) are arranged. Blind holes for receiving the contact pins are provided in the contact plug connectors (4-7), with the blind holes arranged in a direction parallel to the magnetic axis of the inductive component.

Description

The invention relates to an E core bobbin with a Winding body for receiving electrical windings, one Large number of pin connections and two each on two flanges of the winding body provided pin bars, in which the pin connections are stored.

As is known, there are E-core bobbins for a vertical one Installation in which the coil axis runs vertically, and E core bobbin for a horizontal installation, in which the Coil axis is arranged horizontally. Between E core bobbin for vertical installation and E core bobbin for the horizontal installation there are considerable differences in what particularly affects the grid of the foundation. As a result E-core bobbins can be used, for example, for the horizontal Installation not for vertical installation and vice versa be used. An e-core coil body would be desirable that after its manufacture for both vertical installation as well as for horizontal installation can be used.

It is therefore an object of the present invention to provide an E core coil former to create who easily for both a vertical installation as well as for a horizontal installation can be used.

This task is the beginning of an E core bobbin mentioned type according to the invention solved in that the pin bar are provided with holes such that pinning for a vertical or standing and a horizontal or lying winding body is executable.

It is common for EC coilformers on each flange side to provide two pin bars to make various grid combinations To be made possible with these existing EC coilformers but a punching tool for soldering lugs is required, and in addition, the distance between the rows of pin connections is rigid.

In the present invention, the E core bobbin is as a molded part for a vertical or standing and one designed for horizontal or horizontal installation. The foundation with wires, such as square wires in particular, is retrofitted after the production of the E core spool as a molded part performed. It can be straight for the pin connections Pins or wires formed into angle pins can be used.

Equipping with straight pins has advantages when winding and soldering and ensures greater dielectric strength to the ferrite core and neighboring components than with angle pins.

Each pin bar can have at least two rows of holes, which may be offset from one another.

The holes for pinning for a vertical or standing Nuclear bobbins can, if a lying nuclear bobbin is desired by pulling the needles in the injection mold omitted or converted into reversing knobs. The same applies in reverse for a lying or horizontal one Winding body when a standing winding body is executed should.

If there are two rows of holes offset from one another, they can be exploited of these two rows of holes the pin spacing can be increased, by only every other hole with one in each row of holes Pen is loaded. This also applies to a donation with Angle pins.

Figur 1

einen E-Kernspulenkörper für einen waagerechten Einbau, wobei hier eine Hauptansicht, Seitenansichten, eine Ansicht von oben und eine Ansicht von unten dargestellt sind,

Figur 2

den Kernspulenkörper von Fig. 1 für einen senkrechten Einbau, wobei hier die Hauptansicht und eine Ansicht von oben bzw. unten gezeigt sind,

Figur 3

eine zu Fig. 1 ähnliche Darstellung für einen Kernspulenkörper mit Winkelstiften anstelle gerader Stifte,

Figur 4

eine zur Fig. 2 ähnliche Darstellung mit einem Kernspulenkörper mit Winkelstiften anstelle gerader Stifte,

Figur 5

einen E-Kernspulenkörper mit versetzt mit Stiften bestückten Lochreihen,

Figur 6

eine Anordnung mit einem Raster für einen stehenden bzw. senkrechten und zwei Rastern für einen liegenden bzw. waagerechten Kernspulenkörper und

Figur 7

eine Anordnung mit zwei Rastern für einen stehenden bzw. senkrechten und zwei Rastern für einen liegenden bzw. waagerechten Kernspulenkörper.

The invention is explained in more detail below with reference to the drawings. Show it:

Figure 1

an E-core coil body for horizontal installation, here a main view, side views, a view from above and a view from below are shown,

Figure 2

1 for a vertical installation, here the main view and a view from above and below are shown,

Figure 3

1 similar representation for a core coil former with angle pins instead of straight pins,

Figure 4

2 similar representation with a core coil former with angle pins instead of straight pins,

Figure 5

an E core coil former with rows of holes staggered with pins,

Figure 6

an arrangement with a grid for a standing or vertical and two grids for a lying or horizontal core bobbin and

Figure 7

an arrangement with two grids for a standing or vertical and two grids for a lying or horizontal core coil former.

Corresponding components are shown in the figures with the provided with the same reference numerals.

Fig. 1 shows a winding body 1 with two flanges 2, 3 and four pin bars 4, 5, 6 and 7, all with two rows of holes are provided, inserted into the pins 8 from a square wire can be. In the embodiment shown the pins 8 each in a row of holes and not offset arranged to each other. The pin bars 4, 5 and 6 have two Row of holes with six holes each, so that pinning is possible with a maximum of six pens. The pin bar 7 has two rows of holes, each with four holes, so that a pinning is possible with a maximum of four pins.

In this embodiment there are now two variants of pinning: in a first variant of the foundation Pin bars 4 and 5 each have a maximum of six pins, while in a second variant, the pin bars 6 and 7 with a maximum of six or four pins are equipped.

Fig. 2 shows the core bobbin of Fig. 1 for a standing or vertical installation, with two types of pins are possible: in a first variant of pinning pin bars 4 and 7 with a maximum of six each or four pins 8, while in a second Pin variants 5 and 6 each with a maximum of six pins 8 are provided.

3 and 4 show an arrangement similar to FIGS. 1 and 2, but here instead of the straight pins 8 angle pins 9 are provided.

Fig. 5 illustrates how the pins 8 (or 9) in the the two rows of pins are staggered can be. As shown by double arrows, the Distance d between two pins 8 is therefore greater than the distance d 'between the two rows of holes and also larger than the distance d '' between two holes in a row.

6 and 7 illustrate the example of the pin bar 4, how to design angle pins 9 when a grid for a standing installation and two grids for a lying one Installation (Fig. 6) or two grids for a standing installation and two grids for a horizontal installation (Fig. 7) desired become.

Claims (5)

E core coil former with a winding former (1) for receiving of electrical windings, a variety of pin connections (8, 9) and two each on two flanges (2, 3) of the winding body (1) provided pin bar (4 - 7), in to which the pin connections (8, 9) are mounted, characterized in that that the pin bars (4 - 7) with holes are provided that a foundation for a standing and a lying winding body (1) is executable. E core coil former according to claim 1, characterized in that the pin connections (8, 9) by straight pins (8), in particular square wires are formed. E core coil former according to claim 1, characterized in that the pin connections (8, 9) through to angle pins (9) formed wires are formed. E core bobbin according to one of claims 1 to 3, characterized characterized in that each pin bar (4 - 7) at least has two rows of holes. E core bobbin according to claim 4, characterized in that the rows of holes are offset from one another.

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