EP1774544A1

EP1774544A1 - Holder for a choke and an inductive element comprising the holder

Info

Publication number: EP1774544A1
Application number: EP05763270A
Authority: EP
Inventors: Günter FEIST; Bernd Kohler
Original assignee: Epcos AG
Current assignee: TDK Electronics AG
Priority date: 2004-08-04
Filing date: 2005-07-01
Publication date: 2007-04-18
Anticipated expiration: 2025-07-01
Also published as: WO2006012823A1; DE502005004211D1; US7498916B2; JP2008508733A; CN1981351A; ES2306182T3; US20070202727A1; EP1774544B1; DE102004037853A1; CN1981351B; JP4778511B2

Abstract

The invention relates to a holder (1) for receiving a torroidal core choke having two or more wire windings (53a, 53b). The holder (1) has mutually opposite hinged side tabs (11, 12) each having a separation device (23, 24) to separate wire windings (53a, 53b) from one another, it being possible to fix the side tabs (11, 12) preferably using the separation devices and preferably substantially parallel to one another. The invention also relates to an inductive component comprising the holder (1) and a choke (53a, 53b, 54).

Description

description

Holder for a choke coil and an inductive component with the holder

The invention relates to a holder for a choke coil. The invention further relates to an inductance with the Hal¬ esterification and a choke coil.

From the document DE 3330881 Al a holder for a toroidal core choke is known. The holder represents an insulating plate with a device mounted thereon for potential separation between two inductor windings. The toroidal core choke is placed on the potential separating device in such a way that different windings are spatially separated from one another. The potential separation device has webs. The outer end edges of the webs are resiliently against the plugged toroidal core of the throttle.

The object of the invention is to provide a material-saving and platz¬-saving holder, which ensures the potential separation of the windings of each other in toroidal core chokes with multiple windings and which can be easily manufactured.

This object is achieved by a holder with the features of claim 1. Advantageous Ausgestal¬ tions of the invention are to be taken from further claims.

The invention provides an electrically insulating holder for receiving a toroidal core choke with a closed magnet core (preferably ring core, possibly with gap) and at least two wire windings. The holder has a telteil and associated hinged side flaps. The holder further comprises means for fixing the Seitenla¬ rule in the folded state, preferably substantially parallel to each other on. The side flaps each have a separating element which serves for the separation or potential separation of the windings of the throttle applied to different toroidal sections.

The side flaps are preferably opposite each other and are hinged on both sides against the toroidal core.

The invention further relates to an inductive component with the o. G. Holder and a toroidal core choke, which has a toroidal core and at least two wire windings to be separated from each other.

The invention has the advantage that the holder functions in addition to the function as a sub-housing at the same time as potential separation between different wire windings. The Hal¬ sion according to the invention can be material-saving and easy z. B. in an injection molding process.

In a preferred variant of the invention, all elements are the holder, i. H. the central part, the side flaps, the dividers with optionally formed therein Befestigungsvor¬ devices integrally formed. The side flaps can at the middle part in another variant z. B. be attached by hooking.

The side flaps are preferably by a part of the holder, for. B. held parallel zueinan¬ by means of the separating elements. Each separating element preferably has at least two separating webs. The length of the separating webs of the mutually opposite side flaps is preferably selected such that they contact each other when the side flaps are folded together. The separating webs are arranged on the inside of the side flaps. The separating webs are inserted into the annular core opening, wherein the longitudinal axis of the separating webs is preferably aligned parallel to the central axis of the annular core throttle. Preferably, the side edge or a region of the lateral surface of the separating web is resiliently against the inner circumferential surface of the toroidal core.

The opposing dividers may each other corresponding fastening devices, for. B. Klemmvorrich¬ lines or Einrastervorrichtungen, which are vorzugswei¬ se formed in the dividers.

In the middle part of the holder openings are preferably provided for the passage of terminals of the wire windings. These breakthroughs are used to comply with the pitch of the corresponding inductive component.

In the middle part of the holder beyond openings for receiving fasteners, z. As screws or fastening bolts may be provided. By means of Befestigungs¬ elements, the device can be mounted on a circuit board. In the middle part of the holder, a recess for receiving the toroidal core choke is preferably provided.

In a variant of the invention, the side flaps can form half-shells together with walls standing vertically thereon, whose openings face each other in the folded state. In this case, a housing is formed, which the da- Rin arranged coil preferably surrounds on all sides and therefore is particularly suitable as protection against contact. The side flaps and the walls standing vertically thereon are preferably formed in one piece.

In the following the invention will be described with reference to embodiments and the associated figures. The figures show diagrammatic and not true-to-scale representations of various embodiments of the invention. Identical or equivalent parts are designated by the same reference numerals. It show schematically

Figure IA, the view of the holder according to the invention from above.

FIG. 1B shows the side view of the holder according to FIG. 1A.

Figure IC is the view of the holder for choke coil according to Figures IA, IB from below.

Figure 2A shows the front view of the holder according to the vorher¬ outgoing figures in the direction transverse to the Seitenla¬ rule.

Figure 2B shows the side view of the holder in the direction parallel to the side flaps.

3A shows the cross section through the central part parallel to the side flaps with the view of a side flap from the inside in the holder according to the preceding figures.

Figure 3B, the holder according to the preceding figures in a schematic cross-section transverse to the side flaps. Figures 4A to 4D, the assembly steps in the assembly of a toroidal core choke in the holder according to the preceding figures.

Figure 5A shows the inductive component with the holder according to Er¬ invention and the toroidal core choke in a Vorderan¬ view.

FIG. 5B shows a further view of the inductive component according to FIG. 5A from the inside.

FIG. 5C shows the inductive component according to FIGS. 5A, 5B in a schematic cross section transverse to the side flaps.

Figure 6A is a view of another holder according to the invention from above.

FIG. 6B shows the holder according to FIG. 6A in a side view.

6C, the holder according to Figures 6A, 6B from below.

Figure 6D shows the side view of the holder according to Figures 6A to 6C in the direction parallel to the side flaps.

Figure 6E is the front view of the holder according to Figures 6A to 6D in the direction transverse to the side flaps.

Figure 6F, the holder according to Figures 6A to 6E in a schematic cross-section transverse to the side flaps.

Figure 7, the dividers with fastening devices. FIGS. 1A to 3B show different views of the first preferred variant of the holder 1 with a middle part 10 and two side flaps 11 and 12 opposite one another and connected to the middle part 10.

In the figures IA, IB, 6B and 6A is shown by the solid lines, the state of the holder before folding over the Sei¬ tenlaschen 11, 12. With the dashed lines, the state of the holder 1 after collapsing the side flaps 11, 12 is shown in these figures.

FIG. 1A shows a schematic top view of the holder 1 from above. In Figure IB, the holder 1 with the zusammen¬ folded side flaps 11 and 12 is shown.

After folding over, the side flaps 11, 12 are essentially parallel to each other and perpendicular to the surface of the center part 10. In the middle part 10, a recess 100 for receiving the toroidal core choke 5 is formed. The recess 100 is preferably round in cross-section - see Figures 3A and 5B - and thereby adapted to the shape of the toroidal core choke to be arranged therein.

In the middle part 10, openings 32, 32 'for receiving connections 52, 52' of the first wire winding 53a of the toroidal core throttle 5 are provided (see also FIGS. 4A and 5B). In addition, apertures 31, 31 'for receiving connections 51 of a second wire winding 53b of the toroidal core throttle 5 are provided in the middle part 10. Through the openings 31, 31 ', 32, 32', the pitch of the corresponding inductive component with the toroidal core choke 5 is ensured. In the middle part 10 also spacers 4 are formed. These serve as Distance elements for maintaining a distance between the holder of the device and an underlying system carrier, eg. As printed circuit board, so that when solving the device with the tracks of the system carrier emerge the gases can escape. The spacers 4 may be formed as projections of the central part 10 of the holder. The spacers 4 may also be formed as separate elements and fixedly connected to the central part 10.

The side flap 11 has dividing webs 21, 22. The second side flap 12 also has the separating webs 23, 24. The respective side flap 11 (or 12) and the separating devices 21, 22 (or 23, 24) associated therewith are formed integrally together. The separating web 21 of the first side flap 11 corresponds to the separating web 23 of the second side flap 12. The separating web 22 corresponds to the separating web 24.

When the side flaps 11, 12 are folded together, the separating webs 21 and 23 (as well as 22 and 24) face each other, wherein they preferably contact one another.

By means of the separating webs 21, 22, 23, 24, the wire windings 53a, 53b arranged next to one another on the core are kept at a distance from one another and are therefore electrically insulated from one another, see FIG. 5C. By separating webs 21 to 24 so the potential separation between the various Drahtwick¬ lungs 53 a, 53 b of the toroidal core choke 5 is realized.

Figure IC shows the holder 1 in a schematic view from below. In FIG. 2A, the front view of the holder according to FIGS. 1A to 1C is shown transversely to the side flap 11. FIG. 2B shows a side view of the holder 1 in the folded side flaps 11, 12 in the direction parallel to the side flaps. FIG. 3B shows the corresponding cross-sectional view of the holder 1 in the transverse section transverse to the side flaps.

FIG. 3A shows the cross-section of the holder 1 through the middle part 10 parallel to the side flaps 11, 12 with the view of the folded-over side flap 12 from the inside.

In the figures 4A to 4D process steps in the Mon¬ days of a toroidal core choke 5 in the holder 1 are shown schematically.

The toroidal core choke 5 has a magnetic toroidal core 54 and two different wire windings 53a, 53b (FIG. 4A). In FIG. 5B, it can be seen that different wire windings 53a, 53b of the toroidal core choke are applied to different sections of the toroidal core. The first wire winding 53a has the electrical connections 52 and 52 '. The second wire winding 53b has the electrical connections 51.

The connections 51, 52, 52 'of the wire windings 53b, 53a are inserted through the openings 31, 32, 32' of the middle part 10 (FIG. 4B). The toroidal core choke 5 stands with its lateral surface on the central part 10 of the holder. 1

Subsequently, the first side flap 11 is folded over against the Stirn¬ side of the magnetic core (Fig. 4C). In this case, the separating webs 21 and 22 are guided in the inner hole of the magnetic core so that they rest in each case resiliently against the inner lateral surface of the magnetic core. FIG. 4D shows that the second side tab 12 is folded over against the toroidal core choke. The dividing webs 23, 24 are introduced into the inner hole of the magnetic core 54. They rest against the inner surface of the magnetic core.

FIG. 4D shows the inductive component - d. H. the holder 1 with the ring core choke 5 mounted thereon - in a schematic side view in the direction parallel to the side plates 11, 12. The front view of this component is shown in FIG. 5A.

The view of the inductive component from the inside is shown in FIG. 5B. The cross section of the recess 100 is adapted to the cross section of the magnetic core 54. In the recess 100, an adhesive is preferably applied prior to inserting the toroidal core choke 5, with which the magnetic core 54 is fastened in the recess 100 of the holder 1.

In the figure 5C, the above-mentioned inductive component is shown in a schematic cross-section transverse to the side flaps 11, 12.

The side flaps 11, 12 are preferably held parallel to each other by means of the separating webs in the folded-over state. The side flaps 11, 12 can be made e.g. B. by press fitting the dividers 21 to 24 are held in the magnetic core 54 parallel to each other. In this case, the separating webs 21 to 24 are inserted into the inner hole of the magnetic core 54 so that the separating webs press against the inner circumferential surface of the magnetic core. Another exemplary possibility for fixing the side flaps during folding is shown in FIG. The toroidal core choke 5 can be fastened to the holder 1 by means of an adhesive arranged in the depression 100.

The separating elements of the holder 1 are inserted into the central opening of the toroidal core choke 5 and are preferably resiliently against the inner lateral surface of the toroidal core 54.

The holder 1 according to FIGS. 1A to 3B forms a partial housing of the inductive component. FIGS. 6A to 6D show the second preferred variant of the holder according to the invention, in which the holder 1 forms a full housing of the inductive component.

Figure 6A shows a schematic plan view of the holder 1 from above. FIGS. 6B, 6D show a schematic side view of the holder according to FIG. 6A. FIG. 6C shows a schematic plan view of the holder 1 from below. FIG. 6D shows the side view of the holder 1 in the case of the folded-together side flaps 11, 12 in the direction parallel to the side flaps. In FIG. 6E, the front view of the holder according to FIGS. 6A to 6D is shown transversely to the side flap 11. FIG. 6F shows the cross-sectional view of the holder 1 in cross-section transverse to the side flaps.

In Figure 6A it can be seen that the side flap 11 is provided on three sides with the walls 110, 111 and 110 '. The walls 110, 110 ', 111 are here perpendicular to the surface of the side flap 11. The side flap 11 forms together with the walls 110, HO ¹ and 111, a first half-shell. The walls 110 and 110 'are the opposite end walls of the first half-shell. The wall 111 is the upwardly facing wall of the first half-shell. The second side flap 12 is also provided with three walls 120, 120 'and 121. The walls 120, 120 ', 121 are perpendicular to the surface of the Sei¬ tenlasche 12. The side flap 12 forms together with these side walls a second half-shell, the shape of which is preferably mirror-symmetrical to the first half-shell. When folded together side flaps 11, 12, the walls 110 and 120, 110 'and 120', 111 and 121 facing each other.

The middle part 10, the side flaps 11, 12, the separating webs 21 to 24 and the walls 110, 110 ', 111, 120, 120', 121 are preferably formed together as a one-piece element.

In FIGS. 6D, 6F, it can be seen that, in the case of the folded-over side flaps 11, 12, the walls 111 and 121 (as well as 110 and 120) assigned to the opposite side flaps contact one another.

In a variant of the invention presented in FIG. 7, the opposing dividing webs 21, 23 are provided with additional fastening devices 21a, 23a (here Einrasterele¬ elements), wherein the dividers 21, 23 of verschie¬ which side flaps can be hooked together.

The invention is not limited to the exemplary embodiments shown here or a specific choice of material. The elements presented can be combined with one another in any number and arrangement. The Befestigungsvorrich¬ lines for fixing the side flaps can also be Klemmvor¬ directions. The invention is not limited to toroidal cores with a round cross section. LIST OF REFERENCE NUMBERS

I bracket

10 middle part of the holder

II first side tab of the holder 12 second side tab of the holder

100, 101 recess for receiving the toroidal core choke

(Recess or bulge) 110 frontal wall of the first side flap 11th

III upwardly facing wall of the first side flap 11th

120 frontal wall of the second side flap 12

121 upwardly facing wall of the second side flap 12 21, 22 dividers

23, 24 dividers

21a fastening device on the divider 21st

23a fastening device on the separating web 23

31, 31 'openings for receiving terminals 52, 52' of the wire winding 53a

32, 32 'openings for receiving terminals 51, 51' of the wire winding 53b

4 spacers

5 toroidal core choke

51 Connection of the second wire winding 53b 52, 52 'Connections of the first wire winding 53a 53a First wire winding of the toroidal core choke 5 53b Second wire winding of the toroidal core choke 5 54 Magnetic toroidal core

Claims

claims

1. holder (1) for receiving a toroidal core choke (5) with a toroidal core (54) and at least two wire windings (53a, 53b), comprising:

a middle part (10),

- hinged Seiten¬ flaps (11, 12) connected to the middle part (10), each having a separating element for potential separation of wire windings (53a, 53b) on the ring core (54) from each other,

Means for fixing the side flaps (11, 12) in the folded state.

2. Holder according to claim 1, wherein the side flaps (11, 12) are opposite each other and on both sides against the toroidal core (54) are hinged.

3. Holder according to claim 1 or 2, wherein the side flaps (11, 12) by a part of the holder (1) are held parallel to each other.

4. Holder according to one of claims 1 to 3, wherein the side flaps (11, 12) by means of Trenn¬ elements are held parallel to each other.

5. Holder according to one of claims 1 to 4, wherein each separating element has at least two separating webs (21, 22, 23, 24), wherein the length of the separating webs (21, 23, 22, 24) of the einan¬ of the opposite side flaps ( 11, 12) is selected so that they are in the folded state of the side latches touch each other.

6. Holder according to claim 5, in which the separating webs (21, 23, 22, 24) of the mutually opposite side flaps (11, 12) have mutually corresponding fastening devices (21a, 23a), wherein the fastening devices (21a, 23a ) for holding the side flaps (11, 12) against each other in the folded-together state.

7. Holder according to claim 6, wherein the fastening devices (21 a, 23 a) Klemmvor¬ directions.

8. Holder according to claim 6 or 7, wherein the fastening devices (21 a, 23 a) are Einras¬ tervorrichtungen.

9. Holder according to one of claims 1 to 8, with a surface made of an electrically insulating material.

10. Holder according to one of claims 1 to 9, wherein in the central part (10) openings (31, 31 ', 32, 32') for passing through terminals (51, 52, 52 ') of the wire windings (53 a, 53 b ) are provided.

11. Holder according to one of claims 1 to 10, wherein in the central part (10) has a recess (100) for receiving the toroidal core choke (5) is provided.

12. Holder according to one of claims 1 to 11, wherein the side flaps (11, 12) together with vertically standing thereon walls (110, 110 ", 120, 120") form half shells, the openings of which face each other in the folded state.

13. Holder according to claim 12, wherein in the folded-over side flaps (11, 12) the walls (110, 120, 110 ', 120') assigned to the opposite side flaps (11, 12) contact one another.

14. Holder according to one of claims 1 to 13, wherein the respective side flap (11, 12) and the associated separation devices together are integrally ausge¬ forms.

15. An inductive component with a holder (1) according to one of claims 1 to 14, comprising a toroidal core choke (5) having a magnetic toroidal core (54) and at least two wire windings (53a, 53b), wherein the wire windings (53a, 53b ) by the separating devices (21, 22, 23, 24) are kept apart from each other.

16. The component according to claim 15, wherein the annular core choke (5) with its lateral surface on the central part (10) of the holder (1).

17. Component according to 15 or 16, in which the separating webs (21, 22, 23, 24) electrically isolate the respective wire winding (53a) from the nearest wire winding (53b) or the nearest wire windings.

18. The component according to one of claims 15 to 17, wherein the toroidal core choke (5) on the holder (1) by means of a in the recess (100) of the holder (1) arranged adhesive is attached.

19. The component according to one of claims 16 to 18, wherein the separating elements of the holder (1) in the central opening of the toroidal core choke (5) are inserted, wherein the separating elements resiliently against the inner Mantel¬ surface of the toroidal core (54).

20. The component according to one of claims 15 to 19, wherein the holder (1) surrounds the toroidal core choke (5) substantially on all sides.