DE10031715C2 - Coil component and manufacturing method for this - Google Patents

Description

The invention relates to a coil component, such as a series choke, a transformer or similar.

Coil components contain a coil, for example. made of enamelled copper wire, which corresponds to a appropriate winding window of an iron core or one other core extends. The coil must do this to be isolated against the iron core to short prevent conclusions and malfunction. Around the cross optimally cut the winding window of an iron core exploit and save manufacturing costs, is usually aimed at the coil winding without Use of a winding body to build up and in the corresponding winding window of the iron core enforce. The coil winding requires the elek trical insulation and mechanical stabili tion. Both can be achieved with insulating foils be that immediately after winding the coil be attached to the wrap. The insulating film must be placed around one strand of the coil and ge be closed. For this, the successive ends of the insulating film as a rule a thermally curable adhesive together connected. This process is technologically complex dig and time consuming, which also affects the fro position of coil components without winding body effect.  

In the German patent application DE 17 63 503 is a coil component with an iron core described, which a winding window to open has a coil section of a coil. There is insulation on the coil portion of the coil provided film that includes the coil section, the film winding by fasteners is comprehensive. In U.S. Patent 4,291,292 an insulating film is disclosed which their opposite ends with each other complementary parts of a fastener is permitted. An opening at one end of the Insulating film is formed, forms a receptacle Space for a tab on the opposite side the end of the insulating film is formed. In the German published application DE 43 26 583 A1 described a high-frequency power transformer ben, which consists of a laminated primary and secondary There is winding. The primary winding consists of several superimposed and mutually iso lized metal foil tapes that helioscrew run in a shape or garland, with two one or more gears of the helioscrew an annular disc-shaped, made up of several mutually isolated and mutually isolated me existing secondary winding is laid, the ends of which are ver or parallel to each other are bound. Between the secondary windings and insulating washers are inserted in the primary windings sets.

From ZIPPER-TECHNIK GMBH, Neu-Isenburg: Why do you need ZIPPERTUBING, pages 1 to 2, entry DPA 1971, are known sheaths for wires, cables and wires that easily wrap around cables and are simple, quick and inexpensive thanks to a special zipper method close it. The locking device consists of a sealing strip, with which the casing for checking and changing cables can be opened and closed quickly.

Based on this, it is the object of the invention to create a coil device that is based on ra can be produced in a conventional manner.

This task is accomplished by a coil component solved according to claim 1.

The coil component according to the invention has for isolation and if necessary also for at least before passing mechanical fixation of the coils wrap an insulating film that coils a coil includes cut and by a positive Fastener closed, d. H. in a posi tion is held in the coil section includes. The form-fitting fastener ge enables a particularly efficient production, because the insulating film can be attached to the coil winding be brought out without any adhesives would have to harden without heat treatment is increasing and without other lengthy, work that complicates or prolongs the process steps must be carried out.

At appropriate points on the insulating film, the when the insulation sheet around the coil section is wound, come to lie on top of each other  mutually complementary parts of the fastening provided. These elements form a detachable one Snap connection, for example in the manner of a profile strip closure. Two belong to each other and resilient ribs that are part of each other form the fastening device. The other part is by a rib of approximately round cross-section formed by the two resilient ribs of the other part can be included. alternative can also be printhead-like structures or otherwise term closures and non-releasable closures be provided.

The positively attached insulating film can replace a bobbin, d. H. the wrap sufficient mechanical hold after winding and give when installing the coil component. to In addition, other mechanical fasteners measures have been taken. For example. can the slide attached with adhesive or adhesive support be, the profile strip closure immediately one Manufactures manageability of the coil winding and for curing the adhesive is not a separate pro time must be scheduled. The ends of the iso liner must be used during the curing of the adhesive not be recorded separately, but are then due to the positive fastening held.

The form-fitting fastener is in front preferably bonded directly to the insulating film that or part of it. This allows a special ders easy handling, because it is not on a separate  Paths to the winding must be brought up but is already provided on the insulating film.

The advantages mentioned also affect the Her position of the coil or the coil component. Due to the possible elimination of any heat treatment steps for curing any adhesives and by eliminating the otherwise required out hardening times that must be observed when the Attach the film to the coil wrap using adhesive is made, the production can be simplified and be be accelerated. This increases productivity considerably. Process reliability can also be be increased.

The form-fitting fastener is in front preferably a releasable fastener that can can be opened non-destructively. Can if necessary however also provided non-detachable fasteners become. For example. can apply staples or stitching Find.

The positive fastener, d. H. the profile strip closure is preferably on a point of the coil winding arranged at mounted coil component in a corner of the Winding window is arranged. Here is due to the natural rounding of a freely wound coils anyway anyway  there is a free gusset-shaped space that is separated from the Profile strip closure can be used.

Details of advantageous embodiments of the Invention result from the drawing, the figures description or subclaims.

In the drawing is a preferred embodiment game of the invention illustrated. Show it:

Fig. 1 a coil component with iron core and coil, in a schematic and a perspective view,

Fig. 2, the coil component according to Fig. 1, in a schematic sectional representation,

Fig. 3, the coil of the coil component shown in FIGS. 1 and 2, in a perspective view,

Fig. 4, the coil component according to Fig. 3, made of cut-wise and longitudinal cross-section during closing of its insulation,

Fig. 5, the insulating film of the coil of Figs. 3 and 4, in a plan view,

Fig. 6, the insulating film of FIG. 5, with a cross-sectional view of its profile strip closure, and

Fig. 7 shows a modified embodiment of the insulating film for a coil component, in a perspective view.

In Fig. 1, a coil component 1 is illustrated light, to which an iron core 2 with two winding windows 3 , 4 and a coil 5 belong, of which only one coil head 6 is visible in Fig. 1. The winding windows 3 , 4 are formed by passages which are rectangular in cross section and extend parallel to one another through the iron core 2 . Each winding window 3 , 4 takes up one strand or section 7 , 8 , respectively, of the coil 5 illustrated separately in FIG. 3. The coil 5 is wound without a winding body, that is to say it is not received by a dimensionally stable coil body which defines the outer shape of the coil and remains in the coil component 2 . Rather, the coil 5 is built up self-supporting to a certain extent. In plan view, it is approximately rectangular - at least it encloses a rectangular interior 14 . This is formed by the coil head 6 , an opposite coil head 15 and the two sections 7 , 8 extending straight between the coil heads 6 , 15 . The sections 7 , 8 are covered over their entire length by the insulating foils 11 , 12 and thus insulated. The spool heads 6 , 15 can be free. If necessary, however, other insulating means, such as insulating caps, insulating tapes, foils or the like, can be attached here.

The insulating foils 11 , 12 give the coil 5 its mechanical hold and ensure the electrical insulation. They are attached immediately after winding the coil 5 to secure the winding, and grip around the winding once. The insulating foils 11 , 12 are of identical design to one another. For example, they are cut from a uniform and strip-shaped material, as indicated in FIG. 5. The insulating film 7 has a profile strip closure 17 , to which two mutually complementary parts 18 , 19 belong. These extend at a distance parallel to one another along the longitudinal direction of the insulating film which is endless before being cut. This is supplied as volume 21 . The tape 21 and correspondingly each cut piece has two mutually parallel edges 22 , 23 which form the ends of the cut insulating films 11 , 12 and on which the parts 18 , 19 are arranged. The two mutually complementary parts 18 , 19 of the positive fastening supply means 17 can also be arranged at a certain distance from the edge 22 , 23 of the band 21 . It is essential that the distance between the parts 18 , 19 corresponds to the circumference of the coil section 7 or is only slightly larger than this. This is indicated in Fig. 4. The insulating film 11 is placed around the coil section 7 , after which the mutually complementary parts 18 , 19 of the fastening means 17 are connected to one another. The special feature of the insulating film 11 be, as can be seen from FIG. 6, is that it has the mutually complementary parts 18 , 19 of the fastening means 17 on different sides. The insulating film 11 consisting of a thin film material has an outer side 25 and an inner side 26 according to FIG. 6. This is illustrated again in FIG. 4. If the insulating film 11 lies flat on a base, the outside 25 is, for example, the underside, while the inside 26 then forms the top.

Fig. 6 illustrates the parts 18 , 19 of the fastening means 17 in more detail. The fastening means 17 is designed as a profile strip closure. Its part 18 has as a locking element a receiving part 27 , which is formed out like a straight longitudinally slotted plastic tube. In this way, two in cross-section approximately crescent-shaped legs 28 , 29 are formed, between which an approximately cylindrical inner space is defined. The distance between the free ends of the strip-like legs 28 , 29 is less than the diameter of the interior. The legs 28 , 29 are flexible and can be bent away from each other. If they are then released, they return to the position illustrated in FIG. 6. The receiving part 27 is held on the outside 25 of the insulating film 11 . It can be made of the same or a different plastic as the insulating film 11 . A plastic with optimized insulation properties is preferably used for the insulating film 11 . The plastic of the receiving element 27 , however, is selected according to its optimal mechanical properties. If there is a plastic that meets both requirements, the receiving element 27 can be an integral part of the insulating film 11 .

The part 19 is formed in the exemplary embodiment by a wire-shaped plastic strand - a so-called cord. It has a circular cross section, the diameter of which corresponds to the diameter of the inner space of the receiving part 27 . The cord 19 is directly welded, glued or integral to the film 11 . The cross section of the cord 19 is essentially undeformable, while the legs 28 , 29, on the other hand, are resilient.

The coil component 1 is produced as follows:
First, the coil 5 is wound from enamelled copper wire. For this purpose, the winding is picked up, for example, on two grippers supporting the coil heads 6 , 15 . Even before the winding is removed from these grippers, the respective insulating foils 11 , 12 are placed around both coil sections 7 , 8 . As shown in FIG. 4 indicates, the ends of the insulating film 11 are then moved towards each other and the parts 18, 19 of the interlocking fastening means are locked to each other. This is done, as is usual with Profilleis tenverschlüsse by the parts 18 , 19 are first brought together at one end 31 ( Fig. 3) into engagement with each other. A corresponding element then sweeps lengthwise along the profile strip closure, whereby the parts 18 , 19 are brought into engagement over their entire length. The assembly of the relevant insulating film 11 , 12 is thus ended. The coil 5 is mechanically held by the insulating foils 11 , 12 and electrically insulated. It is set in this state in the iron core 2 , which can be formed, for example, as an EI core or as an EE core. The respective profile strip closure, which forms the form-fitting fastening means 17 , is preferably arranged in a corner 32 of the respective winding window 3 , 4 . This ensures that the profile strip closure is not pressed into the winding and does not damage the windings of the winding.

In a modified embodiment, the form-fitting fastening means 17 is not formed by two mutually complementary parts 18 , 19 , but by a device arranged on only one edge of the insulating film 11 , such as a hook strip 17 '. The hook bar 17 'is, as shown in FIG. 7, arranged on an edge 22 of the insulating film 11 and consists, for. B. from a strip-shaped portion 41 of reinforced material which extends parallel to the edge 22 . Barbs 42 preferably protrude from the strip-shaped section 41 at regular intervals, each of which is formed by a tapered cone 43 which is connected to the hook bar 41 via a short stem 44 .

This embodiment has the advantage that the diameter of the coil strand to be insulated with the insulating film 11 is not fixed. In other words, the insulating film 11 illustrated in FIG. 7 is not specifically matched to a specific strand diameter of the coil 5 . If the insulating film is attached to the coil 5 , the barbs 42 pierce the other end of the insulating film and thus fix it. If necessary, several layers of insulating film can be wrapped around the coil strand in this way.

The coil component 1 described has at least one coil 5- free coil 5 , which is provided with insulating films 11 , 12 at its sections which pass through the winding windows 3 , 4 of the iron core 2 . To fasten the insulating films 11 , 12 to the corresponding sections 7 , 8 of the coil 5 , Profilleistever connections are provided. One or more profile strip closures can be provided on the insulating film 11 , 12 . These permit purely mechanical fastening of the insulating foils 11 , 12 to the coil 5 . The production of a mechanical connection of the ends of the insulating film, ie the closing of the profiled strip closure, is possible considerably faster than the gluing of the ends of the insulating film to one another, as a result of which the manufacturing process of the coil components 1 is accelerated and simplified by anyone who can.

Claims (10)

1. coil component ( 1 ), in particular series choke or transformer, with an iron core ( 2 ), which has at least one winding window ( 3 , 4 ) for receiving at least one coil section ( 7 , 8 ) of a coil ( 5 ), with at least one the coil section ( 7 , 8 ) of the coil ( 5 ) provided NEN insulating film ( 11 , 12 ) which comprises the coil section ( 7 , 8 ) and is held by a fastening means ( 18 , 19 ), characterized in that the fastening means ( 18 , 19 ) is designed as a profile strip closure. 2. Coil component according to claim 1, characterized in that the coil ( 5 ) is wound without a bobbin. 3. Coil component according to claim 1, characterized in that the insulating film ( 11 ) is arranged directly bar between the coil section ( 7 ) and the iron core ( 2 ) and separates the coil section from the iron core ( 2 ). 4. Coil component according to claim 1, characterized in that the positive fastening means ( 19 ) is arranged at a point which speaks ent a corner ( 32 ) of the winding window ( 3 , 4 ). 5. Coil component according to claim 1, characterized in that the fastening means ( 19 ) is designed as a profile strip closure. 6. Coil component according to claim 1, characterized in that the coil ( 5 ) is wound without a bobbin. 7. Coil component according to claim 1, characterized in that the insulating film ( 11 ) is arranged directly between the coil section ( 7 ) and the iron core ( 2 ) and separates the coil section ( 7 ) from the iron core ( 2 ). 8. Coil component according to claim 1, characterized in that the positive fastening means ( 19 ) is arranged at a point which corresponds to a corner ( 32 ) of the winding window ( 3 , 4 ). 9. Process for the production of coil components, at first without using a bobbin Winding is generated, after which the winding on at least one egg ner point is provided with an insulating film, the Ends for fastening to the coil with a positive connection sigen fasteners are connected. 10. The method according to claim 9, characterized in net that the insulating film in a workstation one Winding machine without the use of glue or adhesive is attached to the wrap.