DE202010007980U1 - LED lamp module - Google Patents

Abstract

LED luminaire module, comprising a printed circuit board with electrical contacts, an integrated drive circuit which is galvanically connected to the circuit board and having at least one input and an output, wherein the input is electrically connected to the electrical contacts of the circuit board, a luminous electrode unit, the the PCB and galvanically connected to the output of the integrated drive circuit, and a capping layer consisting of solidifiable transparent colloid structure and covering the integrated drive circuit and light electrode unit, the transparent colloid structure giving the LED light source an expected optical effect, whereby the LED Luminaire module is constructed as a directly supplied or applied light source.

Description

The The invention relates to an LED luminaire module, in particular a module with such a form of capping, which can be installed directly or use as a light source.

in the State of the art are the known LED lighting modules respectively provided with a base plate whose bottom is made of aluminum, porcelain or Fiberglass is made and its front end with electrical contacts is provided. In such a base plate are one or more LEDs attached and galvanically connected to the contacts as well subsequently filled with colloid. After solidification of colloid, a transparent structure has emerged, which gives the LED light source an expected optical effect.

At the Practical use as a light source must be the well-known LED lighting modules however, be supplied with appropriate voltage and current, d. H. while the LED lighting module must not be supplied directly, but the tension must be first Constant with the help of an integrated drive circuit and resistors being held. In the known bulbs are the components, like the integrated drive circuit and resistors, within of the light source instead of the base plate of the LED light module built-in. The so executed LED luminaire modules can therefore not used as directly supplied bulbs or in the underflow industry difficult to use.

The The object of the invention is therefore an LED lighting module to develop that gets immediate power and direct is used as a light source without an additional circuit on the bulb to install.

The The object of the invention is to provide an LED luminaire module, because of an improved construction of a printed circuit board, a integrated drive circuit, a lighting electrode unit and a capping situation, that the components, such as the integrated drive circuit and light-emitting electrode unit, embedded directly in the PCB as well as with the capping position be attached to the integrated drive circuit and LEDs to protect and the LED light module as a directly powered light source apply.

To the Solve the Task is the LED lighting module of the invention from a Circuit board with electrical contacts, an integrated drive circuit, which is galvanically connected to the circuit board and at least having an input and an output, wherein the input with electrically connected to the electrical contacts of the circuit board is, a lighting electrode unit, in the circuit board and galvanically connected to the output of the integrated drive circuit attached, and a capping position, which consists of solidifying transparent colloid structure and the integrated drive circuit and light electrode unit covers, wherein the transparent colloid structure of the LED light source expected gives optical effect. This makes the LED luminaire module as built a directly supplied or applied bulbs.

The The aforementioned luminous electrode unit can have more than one luminous electrode to increase the brightness of the LED light module. In The circuit board is a convex ring mounted at a certain height. The integrated drive circuit and light electrode unit are installed in the PCB inside the convex ring, where they are subsequently filled with colloid is, after solidification, a transparent structure as a capping position forms. In the circuit board is also a groove in a particular Depth attached. The integrated drive circuit and light electrode unit is also used in the groove, where it is then filled with colloid, after solidification a transparent structure as a Verkappungslage forms. The LED lighting module according to the invention is about it addition, provided with at least one resistor which is between the Output of the integrated drive circuit and the light electrode unit located or with these two galvanically connected and by the transparent structure of the capping is covered. The PCB is made of a material such as aluminum, porcelain or Glass fiber that has a heat dissipation function.

at the LED lighting module according to the invention is the integrated drive circuit and light electrode unit embedded in the transparent structure of the capping position and protected thereby. This makes possible, that an immediate supply by means of the contacts in the circuit board takes place and the voltage through the integrated drive circuit is stabilized. Therefore, the lighting electrode unit can shine and the LED light module as a directly powered light source be used.

1 is a 3D view of the first embodiment of the invention.

2 is a section of the first embodiment of the invention.

3 is a 3D view of the second embodiment of the invention.

4 is a section of the second embodiment of the invention.

5 is a 3D view of the third embodiment of the invention.

6 is a section of the third embodiment of the invention.

7 is a 3D view of the fourth embodiment of the invention.

8th is a section of the fourth embodiment of the invention.

9 is a 3D view of the fifth embodiment of the invention.

10 is a section of the fifth embodiment of the invention.

Further Objectives, advantages, features and applications of the present Invention will become apparent from the following description of the embodiments based on the drawing.

The 1 and 2 are each a 3D view and a portion of the first embodiment of the LED lamp module according to the invention. As shown therein, the LED lighting module according to the invention consists of a printed circuit board 1 formed as a round heat dissipative aluminum, porcelain or glass fiber plate for supporting the luminous electrodes and having electrical contacts 11 and 12 is provided, an integrated drive circuit 2 that in the circuit board 1 is mounted and has at least one input and an output, wherein the input to the electrical contact 11 the circuit board 1 is electrically connected for connection to the DC power supply, a lighting electrode unit 3 formed as a precompounded crystal grain or a naked crystal grain and in the circuit board 1 as well as galvanically with the output of the integrated drive circuit 2 connected, and a Kapappungslage 4 consisting of a semi-circular solidifiable transparent colloid structure 41 exists and the integrated drive circuit 2 and lighting electrode unit 3 covered, wherein the transparent colloid structure 41 the light source of the luminous electrode 3 gives an expected optical effect. As a result, the LED light module is constructed as a directly supplied or applied light source.

As in 3 (3D view) and 4 (Section of the second embodiment of the LED lamp module according to the invention) is shown, the light-emitting electrode unit 3 have more than one light emitting electrode, which in the circuit board 1 are embedded and can increase the brightness of the LED light module. The plurality of lighting electrodes in the lighting electrode unit 3 can be connected in series or in parallel, or a serially connected LED group can be connected in parallel with another LED group connected in series.

As in 5 (3D view) and 6 (Section of the third embodiment of the LED lamp module according to the invention) is shown, the circuit board 1 further with a convex ring 13 be provided at a certain height. The integrated drive circuit 2 and lighting electrode unit 3 is in the circuit board 1 within the convex ring 13 embedded, where they subsequently with colloid from the capping position 4 is filled, which after solidification a semicircular transparent structure 41 to supplement the Verkappungslage 4 forms.

As in 7 (3D view) and 8th (Section of the fourth embodiment of the LED lamp module according to the invention) is shown, the circuit board 1 further with a groove 14 be provided at a certain depth, which may be made by engraving or a similar machining process. The integrated drive circuit 2 and the lighting electrode unit 3 is also in the groove 14 used, where they then with colloid from the capping position 4 is filled, which after solidification a transparent structure 41 to supplement the Verkappungslage 4 forms.

As in 9 (3D view) and 10 (Section of the fifth embodiment of the LED lamp module according to the invention) is shown, the circuit board 1 be designed as a rectangular bar, in which there are a plurality of lighting electrodes of the lighting electrode unit 3 and the integrated drive circuit 2 can be installed on the above connection. The integrated drive circuit 2 and the lighting electrode unit 3 be through the colloid from the capping position 4 covered, with the resulting transparent colloid structure 41 the light source of the lighting electrode unit 3 gives an expected optical effect.

When Verkappungsaufbau the LED lighting module according to the invention are the integrated drive circuit 2 and the lighting electrode unit 3 in the transparent construction 41 the capping position 4 embedded and thus protected. This allows for immediate supply through the contacts 11 and 12 in the circuit board 1 takes place and the voltage through the integrated drive circuit 2 is stabilized. Therefore, the lighting electrode unit 3 light up and the LED lighting module as a directly supplied light be used medium. The LED luminaire modules in this design, which have been purchased by the underflow industry or consumers, can be used directly as light sources and enable extensive applications of the luminous electrodes.

As in the 1 to 10 is shown, the invention can further with at least one resistor 5 be provided between the output of the integrated drive circuit 2 and the lighting electrode unit 3 located or with these two galvanically connected and through the transparent structure 41 the capping position 4 is covered.

As As described above, this invention has the three most important criteria of a patent, namely the Novelty, the progressiveness as well as the industrial usability. In terms of novelty and progressiveness, this allows LED luminaire module according to the invention due to an improved construction of a printed circuit board, a integrated drive circuit, a lighting electrode unit and a Verkappungslage that the components, such as the integrated drive circuit and lighting electrode unit, embedded directly in the printed circuit board as well as with the capping attached to the integrated To protect drive circuit and the light-emitting electrode unit and to use the LED light module as a directly powered light source. With regard to industrial usability, those of the present Invention derived products cover the current market needs.

In The above sections have been the preferred embodiments shown. It should be noted, however, that these are described embodiments not limit the scope of the invention, but only for description serve the invention. In this context, all new, in the description and / or drawing disclosed individual and combination features regarded as essential to the invention. In this context are only the following claims for the protection area of the present invention.

1

circuit board

11 12

Contact

13

Konvexring

14

groove

2

integrated drive circuit

3

illuminated electrode

4

Verkappungslage

41

transparent construction

5

resistance

Claims (8)

LED luminaire module consisting of a printed circuit board with electrical contacts, an integrated drive circuit, which is galvanically connected to the circuit board and at least an input and an output, wherein the input with the electrical contacts of the circuit board is galvanically connected, a lighting electrode unit, in the circuit board and galvanic attached to the output of the integrated drive circuit attached is, and a capping layer, made of solidified transparent Colloid construction consists and the integrated drive circuit and Illuminated electrode unit, wherein the transparent colloid structure of the LED light source has an expected optical Gives effect, whereby the LED lighting module as a directly supplied or used light source is constructed. LED luminaire module according to claim 1, characterized the luminous electrode unit has more than one luminous electrode, which are embedded in the circuit board. LED luminaire module according to claim 1 or 2, characterized characterized in that the circuit board with a convex ring in one certain height is provided, wherein the integrated drive circuit and lighting electrode unit embedded in the printed circuit board within the convex ring, where then join them Colloid is filled by the Verkappungslage, after solidification forms a transparent structure to supplement the Verkappungslage. LED luminaire module according to claim 1 or 2, characterized characterized in that the circuit board with a groove in a particular Depth is provided, with the integrated drive circuit and Luminous electrode unit is also inserted in the groove, where it subsequently with Colloid is filled by the Verkappungslage, after solidification forms a transparent structure to supplement the Verkappungslage. LED luminaire module according to claim 1 to 4, characterized in that the LED luminaire module is further provided with at least a resistor is provided between the output of the integrated Drive circuit and the lighting electrode unit located or with these two galvanically connected as well as through the transparent Structure of the Verkappungslage is covered. LED luminaire module according to one of the preceding claims, characterized characterized in that the printed circuit board is made of aluminum, porcelain or glass fiber consists. LED luminaire module according to one of the preceding claims, characterized that the circuit board is designed as a round plate. LED luminaire module according to one of the preceding claims, characterized characterized in that the circuit board is designed as a rectangular bar.