EP2488789A2

EP2488789A2 - Led lamp

Info

Publication number: EP2488789A2
Application number: EP10785404A
Authority: EP
Inventors: Thomas Preuschl
Original assignee: Osram GmbH
Current assignee: Ledvance GmbH
Priority date: 2009-12-10
Filing date: 2010-11-29
Publication date: 2012-08-22
Anticipated expiration: 2030-11-29
Also published as: EP2488789B1; CN102652242B; DE102009054519A1; CN102652242A; WO2011069848A2; US20120242226A1; US9377185B2; WO2011069848A3

Abstract

The invention relates to an LED lamp having a socket and having a first circuit board. At least one press fit connector that can be electrically connected to the socket is provided. Said connector is connected to the circuit board by means of a plug section.

Description

description

Led lamp

Technical area

The invention is based on LED lamps according to the preamble of patent claim 1.

State of the art

There are known LED lamps, which have a printed circuit board and a socket, which are electrically connected to each other via cable. The cable must be quite expensive on the circuit board (eg soldered) be ^¬ consolidates and contacted.

Presentation of the invention

The object of the present invention is to provide an LED lamp in which the mounting of an electrical connection of a printed circuit board with a socket is simplified.

This object is achieved by an LED lamp with a base and with a first printed circuit board, in which at least one connector electrically connected to the base is provided, which is connected to the printed circuit board via a plug-in section. This is a simplified compared to the prior art assembly of an electrical connection between the base and the circuit board created.

Particularly advantageous embodiments can be found in the dependent claims. Advantageously, it is in the connector to ei ^¬ nen press-fit connector or an insulation displacement contact

In a particularly preferred embodiment of the LED lamp according to the invention, the plug-in section is accommodated in a recess of the printed circuit board, wherein a through-hole is arranged in the plug-in section. The plug-in sections are characterized by a simple installation.

In a particularly preferred development of the LED lamp, a second end section of the at least one pressfit connector is welded to the base or soldered or clamped. This creates an electrical and mechanical connection of the printed circuit board to the base.

In a preferred embodiment of the LED lamp its shape corresponds approximately to that of a conventional light bulb. Thus, a retrofit lamp is provided which can be screwed into conventional sockets, whereby their efficiency or light output is improved.

It is preferred if the first circuit board is approximately circular. As a result, the printed circuit board can be fitted with opti ^¬ painter size in the retrofit lamp.

A particularly preferred development of the LED lamp has two pressfit connectors, wherein the second end section of the first pressfit connector is fastened to a lower section of the socket and the second end section of the second pressfit connector is fastened to a lateral peripheral section of the socket. A preferred development has a metal core printed circuit board on which a plurality of LEDs are mounted, and which is connected via two further pressfit connectors to the first circuit board. In a preferred embodiment, an electrically insulating potting compound is accommodated in the base. Since ^¬ by extending in the interior of the socket press-fit connectors can be mutually electrically insulated. It is preferred if an electrical component is received in the potting compound. As a result, the electrical component can be fixed and is thereby electrically insulated against the pressfit connectors and against the base. It is preferred if the electrical component is an electrolytic capacitor or a resistor which is connected to the two Pressfit connectors.

In a preferred embodiment, the LED lamp has a guide pin formed from the potting compound. This can dip into a recess in the printed circuit board and serve as an anti-twist device for the printed circuit board.

In a preferred embodiment, the LED lamp has a heat sink made of metal or thermally conductive plastic ^¬ material in which a driver board is added. Thus, heat can be dissipated from the LEDs and from the first circuit board and from the metal core circuit board. It is preferable if the heat sink is Rotati ^¬ about onssymmetrisch, wherein at a first edge, a circumferential edge of a plastic piston is mounted, and wherein at a second edge of a circumferential edge of the solar ckels is attached. Thus, the heat sink serves as ver ^¬ binding component between the lamp envelope and the base.

Brief description of the drawings

The invention will be explained in detail by means of execution ^¬ examples. The figures show: FIG. 1 a schematic representation of an LED lamp according to a first exemplary embodiment;

Fig. 2 is a schematic representation of the base of

LED lamp of Figure 1;

Fig. 3 in a schematic representation of the base of

LED lamp according to a second embodiment;

Fig. 4 in a schematic representation of the base of

LED lamp according to a third embodiment;

5 shows a schematic representation of the LED lamp according to a fourth embodiment; and FIG. 6 is a schematic representation of the LED lamp according to a fifth exemplary embodiment. Preferred embodiments of the invention

FIG. 1 schematically shows a perspective view of an LED lamp 1 according to a first exemplary embodiment. This has a pear-shaped lamp bulb 2 with a base 4. Within the lamp piston 2 at least one LED 6 is arranged, wherein a plurality of LEDs 6 are provided. The LED lamp 1 is preferably a so-called retrofit LED lamp. This is to correspond externally, for example, a her ^¬ conventional incandescent lamp, although serving no filament, but the energy-saving LEDs 6 as a light source. The base 4 is for conventional versions, such as E14, E27 or GU10, out ^¬ forms.

According to the invention, an electrical contacting of a printed circuit board 8 of the LED lamp 1 with the base 4 takes place via plug connectors in the form of pressfit connectors 10, 12. These are indicated only schematically in FIG. 1 and are explained in more detail below in FIG.

The printed circuit board 8 is approximately plate-shaped and firmly held on a support 14. This has a Ba ^¬ sisabschnitt 16, which is supported on an inner wall of an approximately cylindrical and the base 4 assigning piston portion 18 of the lamp bulb 2. From the cross ^¬ carrier 16 are two longitudinal chassis ger 20 which are for supporting the circuit board 8 mechanically fixedly connected thereto extending away from the socket. 4

The LEDs 6 are fixed on a side facing away from the base 4 side of a metal core circuit board 22, which just ^¬ if two Pressfit connectors 24, 26 with the Lei terplatte 8 is mechanically and electrically connected. The Pressfit connectors 24, 26 are each pin-shaped and each have a press-in contact or plug-in section 28, which dips into an unillustrated passage bore of the printed circuit board 8 and force, material and / or positively fixed to this mechanically and electrically ,

A central portion of the pressfit connectors 24, 26 is performed through through holes of the metal core printed circuit board 22, wherein at each of the plug portions 28 facing away end portions of the pressfit connectors 24, 26, an anchor member 30 is formed. This hin ^¬ tergreift the metal core circuit board 22 and fixed ^¬ se in the longitudinal direction of the LED lamp 1. With the Pressfit- connectors 24, 26 thus takes place a rigid mechanical connection between the metal core circuit board 22 and the circuit board 8 and at the same time an electrical Verbin ^¬ dung.

The pressfit connectors 24, 26 are inexpensively manufactured as a stamped part. The plug-in sections 28 are here formed ^¬ needle-needle-shaped, creating an elastic press-fit is created. Furthermore, the plug ^¬ portions 28 of the press-fit connectors 24, immersed in through holes of the printed circuit board 8 26 an overall ringeren diameter than the insertion portions 28 aufwei ^¬ sen, whereby they are substantially elastically deformed and having an elastic tension force in the Through hole are held.

FIG. 2 shows, in a schematic representation, the base 4 with the pressfit connectors 10, 12 from FIG. 1. The axial extension of the press fit connectors 10, 12 is shown somewhat shortened for the sake of simplicity.

The press-fit connectors 10, 12 are designed as press-in pins mechanically rigid and each have a cantilevered away from the base 4 in plug portion 28. The Steckab ^¬ sections 28 are respectively press-fit as that of the connectors 24, embodied in Figure 1 26th

The right in Figure 2 pressfit connector 12 extends approximately coaxially to a longitudinal axis of the base 4 to a lower base portion 32, where it is then welded, soldered or clamped for electrical and mechanical connection. The left in the figure 2 press fit connector 10 is bent approximately L-shaped, wherein a first leg 34 extends approximately parallel to the Pressfit- connector 12 and a second leg 36 radially to a lateral peripheral portion 38 of the base 4 he ^¬ stretches. On an inside of the peripheral portion 38, the L-shaped press fit connector 10 is then welded, soldered or clamped for electrical and mechanical connection to the socket 4.

The staking portions 28 of the press-fit connectors 10, 12 are each non-positively in the figure 1 in a recess of the printed circuit board 8, material and / or form-fitting manner ^¬ immersed. The pressfit connectors 10, 12 from FIG. 2 have an elongate recess in the form of a passage recess 40 at their plug-in section 28. As a result, the plug-in portions 28 are elastically deformable, whereby certain manufacturing tolerances of the recesses of the printed circuit board 8 of Figure 1 are compensated. With the LED lamp 1 according to the invention from FIG. 1, an extremely simple contacting of the printed circuit board 8 with the base 4 is made possible. A soldering or welding of the printed circuit board 8, for example, with live cables for contacting with the base 4 as in the prior art is no longer necessary. During assembly, the base 4 with the pressfit connectors 24, 26 is simply plugged onto the circuit board 8 by the Steckabschnit ^¬ te 28 are immersed in the recesses of the circuit board 8.

At the plug-in portions 28 of the pressfit connectors 10, 12, 24, 26 in Figures 1 and 2 axial Führungsna ^¬ sen 41 are formed, which serve for easy insertion of the plug portions 28 in the recesses of the circuit board 8 during assembly. These have a smaller diameter than the plug-in sections 28.

About the base portion 32 and the peripheral portion 38 of the base 4, the pressfit connectors 12 and 10 are electrically contacted in the assembled state of the base 4 in a not shown version.

As an alternative to the described press fit connectors 10, 12, 24 and 26, other connectors, such as insulation displacement contacts, can be used.

In Figure 3, the base 4 of an LED lamp 1 according to the invention of Figure 1 according to a second Ausführungsbei ^¬ game is shown.

In contrast to the preceding embodiment of Figure 1 and 2 in the base 4, an electrically isolie ^¬ Rende potting compound 42 is introduced. This serves on the one hand for the electrical insulation of the press fit connectors 10, 12 to each other and on the other hand, with a certain mechanical rigidity, the pressfit connectors 10, 12 additionally mechanically support. The Pressfit connectors 10, 12 thereby collar from the potting compound 42 with the plug-in sections 28.

FIG. 4 illustrates a base 4 of an LED lamp according to the invention in accordance with a third exemplary embodiment. An electrical component 44 is accommodated in the potting compound 42 in this case. This is an electrolytic capacitor or a resistor that is electrically and mechanically connected to the two Pressfit connectors 10, 12. From the potting compound 42, a guide pin 46 is additionally formed which extends out of the socket 4 approximately parallel to the pressfit connectors 10, 12. The guide pin 46 has a greater axial length than the pressfit connectors 10, 12 and can immerse in the assembly of the printed circuit board 8 in a corresponding recess of the printed circuit board 8, whereby this is additionally supported and verdrehgesi ^¬ chert.

FIG. 5 shows a schematic representation of the LED lamp 1 with the base 4 from FIG. 3 according to a fourth exemplary embodiment. In contrast to the LED lamp 1 of Figure 1, no carrier 14 is formed. The printed circuit board 8 is supported by the press fit connectors 10, 12 and electrically contacted. Another LED circuit board 48 is mounted on a bracket 50 at a distance parallel to the circuit board 8 at this and contacted with this electrically. The circuit boards 8, 48 are arranged in the cylindrical piston portion 18 of the lamp bulb 2.

FIG. 6 shows a schematic representation of the LED lamp 1 according to a fifth exemplary embodiment. Here ^¬ arranged between the bulb 2 and the base 4, a heat sink as an annular sink element 52nd This consists of metal or a heat ^¬ conductive plastic. The sink element 52 is used to Küh ^¬ development of the inner area of the LED lamp 1 and is approximately rotationally symmetrical body with a frusto-conical peripheral formed, pointing at a first, from the base 4 away, the edge 54 has a circumferential edge 56 of the in the figure 6 cylindrical lamp bulb 2 is attached. At a second, the base 4 facing edge 58 of the sink member 52 of the base 4 is fixed. The Be ^¬ fastening the sink element 52 to the base 4 and the lamp bulb 2 for example, via laser welding or gluing. The connection can also be made via a latch, for example via a plurality of latching lugs, or by perforation or crimping of the base 4, the sink element 52 and the lamp bulb 2.

In the sink element 52, a driver board (not shown) connected to the printed circuit board 8 of FIG. 1 or FIG. 5 is accommodated. For attaching a lamp bulb and two approximately diametrically arrange ^¬ te spring hooks may protrude on the base 4 approximately in the longitudinal direction a ^¬ access for holding the lamp bulb in corresponding recesses of the lamp bulb. Disclosed is an LED lamp with a base and egg ^¬ ner first circuit board. Here, at least one electrically connected to the socket press fit connector is provided. This is connected via a plug-in section with the circuit board.

Claims

claims

LED lamp comprising a base (4) and with a first printed circuit board (8), characterized in that at ^¬ least one of the base (4) of electrically connected connectors (10, 12) is provided via a plug-in section (28) with the circuit board (8) ver ^¬ is connected.

2. LED lamp according to claim 1, wherein the connector is a pressfit connector (10, 12) or an insulation displacement contact.

LED lamp according to claim 1 or 2, wherein the plug portion (28) is received in a recess of the printed circuit board (8), and wherein in the Steckab ^{¬ section} (28) a through-hole (40) angeord ^¬ net is.

4. LED lamp according to claim 2 or 3, wherein a second end portion of the at least one pressfit connector (10, 12) is welded or soldered or clamped on an inner side of the base (4) for electrical and mechanical connection.

5. LED lamp according to any preceding Patentansprü ^¬ che, approximately corresponding to that of the shape of a conventional light bulb.

6. LED lamp according to claim 5, wherein the first Lei ^¬ terplatte (8) is approximately circular.

LED lamp according to claim 5 or 6 with two pressfit connectors (10, 12), wherein the second end portion of the first pressfit connector (12) on ei ^¬ nem lower portion (32) of the base (4) and the second end portion of second pressfit connector (10) is attached to a lateral peripheral portion (38) of the base (4).

LED lamp according to one of claims 2 to 7 with a metal core printed circuit board (22) on which a plurality of LEDs (6) are fixed, wherein the metal core printed circuit board (22) via two further pressfit connectors (24, 26) with the first circuit board (8) is connected.

LED lamp according to one of the claims 4 to 8, where ^¬ in the base (4) an electrically insulating potting compound (42) is added.

10. LED lamp according to claim 9, wherein in the potting compound (42) an electrical component (44) is taken on ^¬ .

LED lamp according to claim 6 and 10, wherein the electrical component (44) is an electrolytic capacitor or a resistor which is electrically and mechanically connected to the two Pressfit- connectors (10, 12).

LED lamp according to one of the claims 9 to 11 with a guide of the potting compound (42) formed ^¬ bolts (46). LED lamp according to one of the preceding claims with a heat sink (52) made of metal or of heat-conducting plastic, in which a driver board is received. 14. LED lamp according to claim 5 and 13, wherein the heat sink (52) is approximately rotationally symmetrical, and wherein approximately at a first edge (54) a peripheral edge (56) of a plastic piston (2) is fixed, and wherein at a second Edge (58) has a peripheral edge of the base (4) is fixed.