The invention relates to an induction component comprising a coil, which has a coil winding and a coil core, and also comprising a housing which forms a casing of the coil and has a housing lower part.
Induction components of this type are known. Here, for the properties of the induction component, it is important that an air gap between the coil core and casing is observed in a precise manner.
With a known induction component, the coil core, which has a flange at each of its two ends, and the casing are arranged in an outer plastic housing, which has positioning means both for the coil core and for the casing. An accurate positioning between the two parts of the coil can thus be produced and the observance of an air gap ensured (DE 10 2007 063 170 A1).
The object of the invention is to create an induction component that is suitable in particular for automatic installation.
To achieve this object, the invention proposes an induction component having the features specified in claim 1. Refinements of the invention are disclosed by dependent claims.
The induction component, within the housing, thus contains a holder for the coil core. The holder is formed such that the coil core is held non-displaceably at least in its own longitudinal direction. It is thus ensured that the gap between the end surfaces of the core of the coil and the adjacent parts of the inner face of the housing is kept constant.
The holder arranged within the housing forming the casing renders superfluous an outer housing serving only for positioning.
In a refinement of the invention, the holder, for each end of the coil core, may have a bearing block with a bearing rest for the respective end region of the coil core. An engagement at the end regions of the coil core is expedient, since the middle region of the coil core then remains free for the winding of the coil.
In a further embodiment of the invention, the bearing rest of the bearing block has an upwardly open cavity. This cavity preferably has a curvature, which corresponds to the diameter of the coil core. The coil core is thus arranged in this cavity so as also to be secured against a displacement transverse to the longitudinal axis.
In accordance with a further feature of the invention, the bearing block, at the end arranged closer to the inner face of the wall of the housing, may have a transverse rib, which runs parallel to the wall of the housing and therefore perpendicular to the end surface of the coil core and against which this end surface comes to rest when the coil core is inserted into its holder. Here, the transverse rib only needs to engage a part of the end surface, since this is completely sufficient for axial fixing. The majority of the end surface of the coil core may thus remain free, such that a genuine air gap is formed between the end surface and the housing.
If, for certain reasons, it is desirable for no air gap to be provided, but a gap filled by the material of the transverse rib, this can also be achieved by an appropriate size of the transverse rib.
In another refinement of the invention, the bearing rest may be conical. The conicity can be used to center the coil core. In particular, the conicity of the bearing rest may correspond to a bevel provided at the end of the coil core.
In a further embodiment of the invention, the outer face of the bearing block may bear in a planar manner against the inner face of the housing.
The thickness of the transverse rib measured in the axial direction of the coil core may correspond to the dimensions of the air gap.
In a refinement, the invention proposes assembling the housing from a hood-like upper part and a base. Here, the upper part may have a cuboid shape in particular.
In accordance with the invention, the holder for the coil core may be arranged on the base, in particular integrally formed on the base. The assembly of the induction component can thus be particularly simple, since the coil with core is firstly inserted into the holder of the base of the housing, before the upper part is then fitted onto the base and connected thereto.
In accordance with the invention, the housing upper part may consist of magnetically conductive material, wherein the housing upper part is preferably formed in one piece.
The base, which may also be used for attachment of the holder for the coil core, preferably consists of non-conductive material, in particular plastic.
The housing, and therefore the induction component, is to be secured using SMD technology. The contact elements provided externally on the housing base of the housing are connected to electrodes provided inside the housing or are formed integrally with said electrodes. The ends of the coil winding are attached, in particular welded, to the electrodes inside the housing.
It has proven to be expedient to arrange the electrodes parallel to the walls of the housing, wherein, in particular, they have a flat contact surface for the end region of the coil winding. Here, the connection is preferably made to the lateral surfaces of the ends of the wire winding. A large connection surface is thus available, which is also resistant to greater forces, and therefore a stable connection is provided between the coil winding and the contact surfaces on the outer face of the induction component.
For particularly simple and expedient installation, the base of the housing may have a rectangular shape, wherein the corners of the rectangle are chamfered. Accordingly, the housing upper part, on its end edge at the corners, may have protrusions which are complementary to the chamfered corners of the base part. In the event of assembly, the end edge of the upper part may then lie in the same plane as the outer face of the base part.
In another refinement of the invention, the base, on its upper face directed toward the inside of the housing, in the region of the chamfered corners, may have inclined surfaces falling outwardly, with which inclined surfaces of identical inclination formed on the inner face of the protrusions of the housing upper part cooperate. The two parts forming the housing are thus practically automatically aligned and centered when the housing is assembled.
The invention likewise proposes a method for installing an induction component, as has been described herein. Here, the coil is firstly wound as an air-core coil and its ends are provided with solder. The coil is then slid onto the coil core, or the coil core is slid into the coil. The coil is then placed onto the bearing blocks, wherein the end surfaces of the coil core bear against the transverse ribs. The wire ends of the coil winding are then welded to the upwardly protruding electrodes.
Glue is then injected into the housing upper part and the housing upper part is connected to the housing base. Once the glue has cured, the induction component is finished.
Further features, details and advantages of the invention will emerge from the claims and the abstract, of which the wording is incorporated by reference into the content of the description, from the following description of preferred embodiments of the invention, and with reference to the drawing, in which:
The open side of the housing upper part 1 is also clear from
Two bearing blocks 10 are integrally formed on the upper face 8 of the housing base 2 and have the form of a cuboid-shaped pillar having parallel side walls. The upper face of the bearing blocks 10 forms a cavity 11, which is delimited in each case by a rib 13 in the direction of the outer surfaces 12 facing away from one another. The inner face of the rib 13 is flat and runs parallel to the outer surface 12, which is also flat, of each bearing block 10.
As can also be deduced from the perspective illustration in
The solder pads 3 mentioned with reference to
The extension pointing upwardly, that is to say away from the upper face 8 of the housing base 2, of the contact surface 15 of the electrodes 14 in the illustrated example reaches almost as far as the cavity 11 and may also be formed so as to be longer. This surface 15 is available for contacting with the ends of the coil winding.
A longitudinal section through the housing base 2 is illustrated in
The incline of the cavities 11 corresponds approximately to a bevel 17 at the end of a coil core 18, which belongs to the coil arranged in the induction component according to the invention.
Whereas
The wire ends 21 of the coil winding 20 are guided downwardly in a straight line at the end of the coil winding and are welded to the contact surfaces 15 of the electrodes 14. This is indicated in
By welding the wire ends 21, 22 to the contact surfaces 15 of the electrodes 14, the coil is therefore also fixed in the third dimension.
Once the wire ends 22 have been connected to the contact surfaces 15, the housing upper part 1, which was provided beforehand with glue at least on its end surfaces 6, is fitted onto the housing base 2. The inner face of the walls of the housing upper part 1 rest on the outer faces 12 of the bearing blocks 10. A gap thickness is thus defined which corresponds to the thickness of the ribs 13.
Due to the large contact surface between the contact surfaces 15 of the electrodes 14 and the wire ends 21, 22 of the coil winding 20, sufficiently large pull-out forces are enabled, such that the induction component forms a stable unit.
Number | Date | Country | Kind |
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10 2013 200 696 | Jan 2013 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2013/062565 | 6/18/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/111172 | 7/24/2014 | WO | A |
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