The present application is a national stage entry according to 35 U.S.C. §371 of PCT application No.: PCT/EP2010/055849 filed on Apr. 29, 2010, which claims priority from German application No.: 10 2009 019 285.9 filed on Apr. 30, 2009.
The invention relates to a lighting system including at least one luminous band and at least one connection element.
Quasi endless LED luminous bands are known which for example consist of a contiguous sequence of band-shaped unit circuit boards or unit circuit board sections and which can be divided at defined spacings between two unit circuit boards, for example every 200 mm. Such luminous bands are for example known from the LINEARLight range from the OSRAM company.
A division at spacings other than the predefined spacings between the unit circuit boards (in other words a severing of a unit circuit board) would result in an interruption of the circuit and thereby to the destruction of the LED band. For some applications however, band lengths other than the predetermined band lengths are required, for example in order to be able to run the LED band to fit exactly into a corner.
The provision between two semiconductor light sources of a contact area with bridging contacts which are designed as SMD contacts is known from DE 10 2009 008 095. If the luminous band is now to be divided at such a location, it is possible to close the circuit of the luminous band between the bridging contacts by means of soldered-in SMD resistors. By reason of the shortening of the luminous band and the resulting reduced number of semiconductor light sources, these resistors are to be designed such that the excess voltage decreases at the rated current.
For many users of such luminous bands the manual soldering of SMD resistors is difficult to handle. Furthermore, the resistance values of these termination resistors are dependent on the current of the circuit. This can result in confusion or errors in the choice of suitable resistors.
Various embodiments create a lighting system which offers a way of packaging luminous bands which is simple to implement, in particular with regard to a division within a unit circuit board.
The lighting system includes at least one connection element, in particular a plug and/or clamping connection element, and at least one luminous band having at least one band-shaped unit circuit board, whereby the unit circuit board is equipped with at least two semiconductor light sources, in particular light emitting diodes (LED), and has at least one contact area arranged between at least two semiconductor light sources, whereby the contact area is formed so it can be severed and the contact area and the connection element are designed such that after severing of the contact area the connection element can be applied onto the contact area and at least one circuit can be closed on the unit circuit board by applying the connection element onto the contact area.
Within the scope of this application, connection elements are considered to be all the devices for making electrical contact for a circuit board which are suitable for establishing by a mechanical means, in other words essentially avoiding heat and/or chemical processes, an electrical connection which, depending on the embodiment, can also be released again.
The luminous band can be divided in the contact area by using simple means, for example by cutting, scoring, breaking or similar, and thereby be provided at the required length. The now open circuit is subsequently closed on the circuit board by applying the connection element to the division point, pushed on for example in the case of a plug connection element, which can be achieved considerably more simply than by performing an SMD soldering operation for example. Moreover, thermal stress caused by the soldering process is avoided. The choice of the appropriate component for closing the circuit, the correct resistor for example, can be likewise simplified through the design of the connection element because the latter can be designed in such a manner that any mistakes are avoided.
By providing at least one electronic component, in particular at least one resistor and/or at least one diode, for closing the at least one circuit, this ensures that the circuit is adequately protected, in other words such that any overloading of component parts, in particular of the semiconductor light sources and/or of the power supply, is excluded and the required performance is achieved.
Advantageously, the arrangement of the contacts in the contact area is designed dependent on the number of semiconductor light sources between a current infeed point and/or an end point of the luminous band and the contact area. The position of the contacts is thereby correlated with the number of severed or remaining semiconductor light sources, which can thereby also be simply recognized and thereby enables the choice of an appropriate component for closing the circuit or of an appropriate connection element.
By means of a connection element having an arrangement of countercontacts, which are operationally connected to appropriate elements for closing at least one circuit, matching the arrangement of the contacts on the luminous band it is possible to ensure that the circuit is adequately protected, in other words such that any overloading of component parts, in particular of the semiconductor light sources and/or of the power supply, is excluded and the required performance is achieved. In addition, through the choice of an appropriate connection element it is where applicable possible to make a choice as to which circuit of the luminous band is closed, and thus for example to make a choice of a lighting function.
It is furthermore advantageous if, depending on the number of semiconductor light sources, different circuits are capable of being closed between a current infeed point and/or an end point of the luminous band and a contact area. By this means it is likewise possible to ensure that the circuit is adequately protected, in other words such that any overloading of component parts, in particular of the semiconductor light sources and/or of the power supply, is excluded and the required performance is achieved.
Advantageously, at least one contact, which is provided for transmitting a potential which is approximately the same at a plurality of contact areas, in particular at all contact areas, has the same position in the transverse direction at these contact areas. This enables a simple design of the connection element which can be applied to the severed contact area because the countercontact for this potential can always be arranged at the same location of the connection element.
Advantageously, as the number of semiconductor light sources between a current infeed point and/or an end point of the luminous band and the contact area increases, further contacts of the same contact area are distanced further from the at least one contact which is provided for transmitting a potential which is approximately the same at a plurality of contact areas, in particular at all contact areas.
By this means it is possible to establish a particularly simple connection of the contacts in the connection element, whereby the crossing of connection lines is avoided.
In an advantageous embodiment of the invention, at least one electronic component provided for closing the at least one circuit is arranged in the area of the connection element, in particular inside a housing at least partially enclosing the connection element. By this means, a particularly simple construction having just a few component parts is achieved which can be assembled with little effort. If the luminous band is arranged on an appropriate substrate for the dissipation of heat, for example a heat sink, the connection element can likewise be operationally connected thereto in a simple manner and the heat from the electronic components can thus be dissipated in a simple manner.
In a further advantageous embodiment of the invention, at least one electronic component provided for closing the at least one circuit is arranged spatially separate from the connection element. This means that connection element can be implemented in a particularly compact form, which can be advantageous for example for fitting the luminous band in spatially restricted conditions. In this situation, the electronic components can be arranged at a suitable mounting location, even at some distance from the luminous band.
Expediently, at least one electronic component provided for closing the at least one circuit is arranged on a cooling device, in particular a heat sink. The electronic components can, in particular when a large number of LEDs are separated from the unit circuit board and a large amount of power thereby flows into the electronic components, develop considerable heat which can thus be dissipated in a simple manner.
It is advantageous if the connection element includes at least one zero insertion force connection element, in particular is designed as a zero insertion force connection element. By this means, the connection element can be applied onto the luminous band simply and with a low risk of damage.
It is furthermore advantageous if at least two current-carrying elements, in particular contacts and/or conductor paths, which can be subjected to a different potential during operation of the luminous band, arranged in at least one contact area on opposite sides of the luminous band, are arranged transversally spaced from one another in the contact area. In the case of typical luminous bands the flexible circuit board, which carries conductor paths and/or contacts in each case on the upper side and the lower side, is designed to be as thin as possible. The inventive design serves to prevent any contact being accidentally established between the current-carrying components situated on the upper side and the lower side when cutting takes place.
The features described for the lighting system according to the invention can also be implemented individually in each case in the component parts forming the system, in other words a luminous band and suitable connection elements, which can also be marketed individually.
In the drawings, like reference characters generally refer to the same parts throughout different views. The drawings are not necessarily to scale, emphasis instead being generally upon illustrating the principles of the invention. In the following description, various embodiments are described with reference to the following drawings, in which:
The following detailed description refers to the accompanying drawings that show, by way of illustration, specific details and embodiments in which the invention may be practiced.
With regard to the manufacture of the luminous band 1 the unit circuit boards 2 are manufactured integrally, whereby the substrates 3 of the unit circuit boards 2 are present as a single, one-piece quasi-continuous substrate of the luminous band 1. Likewise, the contacts 5 abutting against one another of two adjacent unit circuit boards 2 are implemented as a single contact strip which extends over both unit circuit boards 2.
In order to divide the luminous band 1 this can, as indicated symbolically by the scissors, be divided along a dividing line T. In order that a division of the luminous band 1 does not result in an interruption of current to all the unit circuit boards 2, the unit circuit boards 2 are interconnected electrically in parallel. When a division is made, only those unit circuit boards 2 which are severed from an—for example external—electrical source of supply are therefore cut off from a current supply. However, a division between light emitting diodes 4 of a unit circuit board 2 has the consequence that all the light emitting diodes 4 of this unit circuit board 2 fail because the light emitting diodes 4 of one unit circuit board 2 are connected electrically in series.
In order to divide the luminous band 1 this can, as indicated symbolically by the scissors, be divided along a dividing line T.
The layout of the unit circuit board 2 essentially corresponds to the circuit diagram shown in
At the dividing lines T, in each case a contact area 13 is provided at which a first continuous conductor path 10 and also the conductor path 12 connecting the LEDs 4 are in each case provided with a contact 14a, 14b. If the unit circuit board 2 is severed along one of the dividing lines T without additional measures being taken, the circuit through the light emitting diodes 4 will be interrupted. As a result of an electrical bridging of a pair of contacts 14a, 14b by means of a respective bridging element, the circuit can be closed again, which means that the light emitting diodes 4 present in the section of the circuit which is then closed again can be illuminated. To this end, a matched resistor is for example required which dissipates the necessary power, depending on the number of LEDs 4 operated or severed.
The contacts 14b of the continuous conductor path 10 (which naturally have approximately the same potential at all contact areas 13) are situated at the same position at all contact areas 13 viewed in the transverse direction of the luminous band 1, whereas the position of the contact 14a of the conductor path 12 connecting the LEDs 4 varies depending on the number of LEDs 4 between the dividing point T and the contacts 5a for feeding current into the unit circuit board 2. In the present exemplary embodiment, as the number of operated
LEDs 4 increases, the distance between the contact 14b of the continuous conductor path 10 and the contact 14a of the conductor path 12 connecting the LEDs decreases, in other words as the number of severed LEDs 4 increases, the distance between the contact 14b of the continuous conductor path 10 and the contact 14a of the conductor path 12 connecting the LEDs 4 increases.
This enables a particularly simple construction of the connection element 15, the circuit diagram for which is shown by way of example in
The elements 18 can for example consist of individual resistors or diodes or also of arrays of such electronic components 18a. The use of resistors offers a simple and cost-effective variant if the luminous band is operated at a constant current in all application situations because the voltage drop at the resistor is then also clearly defined. If the connection element 15 is to be capable of being operated at different currents, the more elaborate use of diodes is advisable because these always exhibit the same voltage drop as would also occur at the severed LEDs 4.
c shows a variant of the connection element 15 shown in
d shows a further exemplary embodiment of a connection element 15 according to the invention. As distinguished from the example shown in
A further embodiment of the connection element is shown schematically in
Further embodiments of the invention are naturally also conceivable; in particular, the person skilled in the art will without difficulty be able to determine a combination of the features shown in the exemplary embodiments appropriate to the practical requirements. For example, it is conceivable for the electronic components 18a to be integrated directly in a connector 19. The layout of the luminous bands 1 as well as of the connection elements 15 can also be adapted by simple means to suit special circumstances of the applications. In particular, it is conceivable to use identical connection elements 15 with different types of luminous bands 1, or else in the case of identical luminous bands 1 to use different connection elements 15 which for example are specifically designed for the intended use on the basis of their geometry, the components 18a used or other features. The different embodiments in
The severing of the luminous band 1 can be effected for example by cutting, or by scoring and breaking. The circuit board 2 can, among other things, advantageously be flexible (‘flexband’) in order to also apply the luminous band 1 onto curved surfaces.
Instead of or in addition to LEDs 4, laser diodes can also be used as the semiconductor light source. Instead of a ZIF connector 19, establishing contact for the luminous band 1 can also be effected by means of other suitable connection elements, in particular by means of a different connector or a clamping connection.
While the invention has been particularly shown and described with reference to specific embodiments, it should be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is thus indicated by the appended claims and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced.
Number | Date | Country | Kind |
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10 2009 019 285 | Apr 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2010/055849 | 4/29/2010 | WO | 00 | 10/27/2011 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/145879 | 12/23/2010 | WO | A |
Number | Name | Date | Kind |
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4173035 | Hoyt | Oct 1979 | A |
5107408 | Vernondier | Apr 1992 | A |
5559681 | Duarte | Sep 1996 | A |
6659623 | Friend | Dec 2003 | B2 |
7140751 | Lin | Nov 2006 | B2 |
7771204 | Stoyan | Aug 2010 | B2 |
20030112627 | Deese | Jun 2003 | A1 |
Number | Date | Country |
---|---|---|
2746249 | Dec 2005 | CN |
201000000 | Jan 2008 | CN |
201000001 | Jan 2008 | CN |
68915200 | Dec 1994 | DE |
10051528 | May 2002 | DE |
10319525 | Nov 2004 | DE |
202005006643 | Oct 2005 | DE |
102007003609 | Apr 2008 | DE |
102007028463 | Jan 2009 | DE |
102009008095 | Aug 2010 | DE |
102009014535 | Sep 2010 | DE |
2739524 | Apr 1997 | FR |
2095482 | Sep 1982 | GB |
Entry |
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English abstract for CN 2746249Y dated Dec. 14, 2005. |
English abstract for CN 201000000Y dated Jan. 2, 2008. |
English abstract for CN 201000001Y dated Jan. 2, 2008. |
English abstract of DE 102009008095 A1. |
English abstract of FR 2739524 A1. |
English abstract of DE 10051528 A1. |
English abstract of DE 102007003809 A1. |
English Abstract of DE 202005006643 U1. |
English Abstract of DE 10319525 A1. |
English Abstract of DE 102009014535 A1. |
Number | Date | Country | |
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20120044689 A1 | Feb 2012 | US |