FR2978813A1 - LED LAMP DEVICE AND AUTOMATED METHOD FOR MANUFACTURING THE SAME - Google Patents

Abstract

The present invention relates to an LED lighting device comprising a main body (1), said main body having a base (4) provided with contact pads (5). An LED card (8) and a driver card (7) linked together are inserted in the main body. In this type of lamp, the connections between the various elements is usually made via welding and wiring, which requires the intervention of a qualified natural person. The device according to the invention allows the automation of the manufacture of such a lamp by the presence in the base of orifices (9, 15) of complementary shape to the pilot card and to the LED board, the connections being made by the intermediate connectors (11, 16) integrated into the base and providing said connections. The invention also relates to a method of manufacturing such lamps, the base being for example made by overmolding or assembly of plastic elements injected on the connectors.

Description

The invention relates to an LED lamp device and an automated manufacturing method of said device.

Many types of light emitting diode lamps, called LED lamps, are now known and used. Such LED lamps may be in the form of conventional lamps, that is to say having a main body showing on its rear face a base with two contact pads and on its front face a transparent cover allowing the light produced by the LED or LEDs to be oriented forward.

Another type of LED lamp is in tubular form. The main body of the lamp then comprises a profile body complementary to a transparent cover, the assembly forming a tube closed on each side by a base having contact pads.

The integration of the LEDs strictly speaking into these lamps is done using electronic cards. The LEDs are grouped on LED cards. These LED cards are themselves connected to one or more depending on the model of lamps, driver cards, also called "driver" cards (of the English "Driver Card"), which serve as an interface between the power supply of the 25 lamp and the LED board. This interface is used to power the LEDs according to their characteristics.

In some improvements, the driver cards can also manage the power of the LED cards by integrating different lighting modes according to a user command, by modulating the LED supply voltage or other.

In a conventional installation, the lamp is installed so as to bring the pads of the base of said lamp into contact with a power source. In order to ensure the connection between the driver card and the contact pads on the one hand and between the driver card and the LED card on the other hand, wiring is provided in the lamp. This wiring is made by soldering points between the various elements wired, that is to say between the contact pads of the base of the lamp, the pilot card (s) and the LED card (s).

The presence of wiring makes it impossible to automate the production of lamps, for example on an assembly line. In fact, each welding spot must be made manually by specialized personnel, which results in a very low production rate. Moreover, this type of wiring is never immune to a faulty weld, the lack of automation does not allow to obtain identical and secure welds for each of the lamps thus manufactured. In addition, these welds impose a large number of maneuver to ensure the connection between all elements of the lamp to be connected one after the other. The purpose of the device according to the invention is to allow such an automation of the production of LED lamps. The invention also relates to a method of manufacturing an LED lamp according to the invention. The invention therefore relates to an LED lighting device comprising a main body which comprises a base, said base comprising contact pads, an LED card and a driver card linked together, the driver card being connected to the pads of contact and the LED card comprising at least one LED or light-emitting diode, characterized in that the base comprises a hole of complementary shape to the pilot board, and in that the base comprises a connector connecting the contact pads and the orifice, said connector cooperating with a contact of the pilot card when said pilot card is inserted into said aperture of the base. Such a device provides the connection between the driver card and the power pads without requiring soldering. Indeed, the complementarity of the pilot card with the aperture of the base allows the automation of the insertion of the pilot card in said orifice, this maneuver can be integrated into the processing carried out by an assembly line without requiring manual intervention a specialized person. The presence of the connector providing the connection between the contact pads and the orifice, and more particularly, the connector ensuring the contact between the contact pads of the base and the pilot card inserted into the orifice, ensures the power supply. of the pilot card via the contact pads by simple insertion of said card in the complementary hole. In an alternative embodiment, the driver card can be directly integrated into the LED card, the LED card and the driver card then constituting a single complementary card of said aperture of the base. Advantageously, the base comprises a second orifice, said second orifice being complementary to the LED card, a second connector of said cap cooperating on the one hand with the pilot card and on the other hand with the LED card when the card is piloting and the LED card are both inserted in the orifices with which said cards are respectively complementary. 4 The cooperation between the second aperture of the base and the LED card is similar to the cooperation between the first port of the base and the driver card. This insertion can thus easily be automated in an assembly line before or after the insertion of the pilot card in the first orifice. The presence of a second connector in the base ensures the supply of the LED card by the driver card. This second connector provides the link between a contact of the driver card and a contact of the LED card. Inserting the driver card into the complementary hole of the base allows the connection between the second connector and the driver card. The insertion of the LED card in the complementary hole of the base ensures the connection between this second connector and a contact of the LED card. In an alternative embodiment of the device according to the invention, the lamp comprises two pilot cards, the first driver card and the second driver card each having complementary connectors from one another. It is possible in this variant to make the connection between the two driver cards in an automated manner by integrating into a assembly line a cooperation maneuver by insertion and complementarity of the two connectors of said two pilot cards. In one embodiment, the device according to the invention comprises a spacer comprising, on the one hand, a complementary orifice of the pilot card and, on the other hand, a complementary orifice of the LED card, said spacer further comprising a connecting element. cooperating with a contact of the driver card on the one hand and a contact of the LED card on the other hand.

In such an embodiment, the card the LED card is not mounted on the cap but directly on this spacer. The complementarity of this spacer with the driver card on the one hand and the LED card on the other hand allows the automation of the mounting of the LED card in the lamp. The presence of the link element guarantees the power supply of the LED card 10 by the driver card. The subject of the invention is also a method for manufacturing a lamp comprising a step of assembling a lamp body, a step of insertion into said body of an LED card and an insertion step in said lamp body. body of a pilot card, characterized in that the step of insertion into said body of a pilot card comprises a step of insertion of the pilot card into a complementary orifice of the lamp body until a contact between a contact of the driver card and a connector of the body of the lamp. Preferably, the method according to the invention comprises a step of inserting the pilot card in a spacer and a step of inserting the LED card in said spacer. In a variant, the method according to the invention comprises a step of insertion of the LED card in a complementary orifice of the body of the lamp. Advantageously, the method according to the invention comprises a step of manufacturing the body of the lamp by overmolding or assembly of plastic elements injected on the connector. In the case of a lamp comprising two pilot cards, the method according to the invention comprises a step of linking two pilot cards together. Preferably, the card insertion steps in complementary orifices are automated. The present invention is now described with the aid of examples which are only illustrative and in no way limit the scope of the invention, and from the attached illustrations, in which:

- Figure 1 shows a schematic longitudinal sectional view of an LED lamp according to a first embodiment of the invention; FIG. 2 represents an exploded schematic perspective view of a lamp according to this first embodiment of the invention; FIG. 3 represents a view from above of two pilot cards intended to be mounted in a lamp according to the invention; - Figure 4 shows a longitudinal sectional view of a lamp main body according to the invention comprising two pilot cards 25 - Figure 5 shows a side sectional view of an alternative embodiment of the device according to the invention; FIGS. 6A and 6B show examples of cooperation between a card and an orifice; A list of references used hereinafter in the description and in the figures relating thereto is given below:

1. Main body of a lamp s 2. Base of the body 1 3. Body cover 1 4. Base of the body 1 A. First Base of a main body 1 with two bases B. Second base of a main body 1 with two bases io 5. Base contact pads 4 A. First contact pad of the first base 4A B. Second contact pad of the first base 4A 6. Light-emitting diode lamp 7. Pilot board 15 A. First pilot board B. Second driver card 8. LED card 9. Completion of the base 4 complementary to the driver card 7 10. End of the driver card 7 complementary to the orifice 9 20 11. First connector of the base 4 connecting the studs 5 to the driver card 7 12. First end of the first connector 11 13. Second end of the first connector 11 14. Contact of the pilot card 7 cooperating with the first connector 11 25 15. Second port of the complementary base 4 of the LED board 8 16. Second connector of the base 4 connecting cards 7 and 8 17. First end of second connector 16 18. Second end of the second connector 16 19. Contact of the pilot card 7 cooperating with the second connector 30 16 20. Contact of the LED card 8 cooperating with the second connector 16 21. Connector connecting two driver cards 7 A. Connector of first driver card 7A B. Connector of second driver card 7B 22. Connector connector 21 A. Connector connector 21A B. Connector connector 21 B 23 A lug receptacle 22. A lug receptacle of the connector 21A cooperating with the lug 22B B. Lug receptacle of the connector 21B cooperating with the lug 22A 24. End of the pilot card 7 opposite the end 10 A. Extremity of the pilot card 7A opposite the end 10A B. End of the pilot card 7B opposite the end 10B 25. Spacer 26. First hole of the spacer 25 27. End of the pilot card 7 cooperating with the orifice 26 20 28. Second The first end of the connecting element 29 31. The contact of the pilot card 7 cooperating with the connecting element 29 32. The second end of the spacer 30. The first end of the connecting element 29. Connecting element 29 33. Contact of the LED card 8 cooperating with the connecting element 29 34. Branches of a connector 11 35. Cylindrical stem of a branch 34 36. External end of a rod 35 37. Inner end of a rod 35 30 38. Link bar of a branch 34 39.Trench of a pilot card 7 40. Base of the "U" profile of a bar 38 41. "U" profile branches of a bar 38 42. Connection contact between the pilot card 7 and the branches 41 s 43. Shoulder of a connector 11 connecting the rod 35 and the branch 38 44. Branches of a connecting element 29 45. First end of a branch 44 46. Return of an end 45

FIG. 1 represents a schematic view in longitudinal section of an LED lamp according to a first embodiment of the invention. A lamp according to the invention comprises a main body 1, here produced with the aid of a complementary base 2. a lid 3. The assembly formed by the base 2 and the lid 3 forms a tube closed at its ends by a base 4. The lid 3 mounted on the base 2 and closed by the two caps 4 constitutes the main body 1 The insertion of such a lamp into a power supply receptacle is provided to supply said lamp with electric power, for example a domestic current. To ensure this supply, the caps 4 comprise contact pads 5. In order to adapt this current to one or more LEDs 6, or LED 6, the lamp comprises a pilot card 7. The purpose of this pilot card 7 is to modulate the current supplying the contact pads 5 so as to make it This LED card 8 groups, distributes and manages the power supply of a set of LEDs 6 on one and the same card. Typically, on the one hand the driver card 7 and the LED card 8 are interconnected and, on the other hand, the driver card 7 is connected to the contact pads 5.

For their operation, LED cards 8 require a current that does not always correspond to the domestic current. The driver card 7, powered by said domestic current, modulates the supply of the lamp in order to adapt it to the LED card 8. The driver card 7 can also modulate the current supplying the LED card 8 according to particular programs. for example based on the power supply period of the LED card 8 or a variation of the voltage as a function of time or any other type of modulation known to those skilled in the art. FIG. 2 represents an exploded schematic perspective view of a lamp according to this first embodiment of the invention. According to the invention, the base 4 comprises an orifice 9 of complementary shape to the pilot board 7. More particularly, the orifice 9 is of complementary shape to an end 10 of the pilot card 7. This complementarity guarantees a good insertion of the pilot card 7 in the orifice 9 and its holding in said orifice 9 once inserted in said orifice 9. The dimensions of the orifice 9 are for example slightly smaller than those of the end 10 of the pilot card 7 so to allow its insertion and to exert a holding force once said end inserted in the orifice 9.

The base 4 according to the invention further comprises an integrated connector 11. This connector 11 is connected by a first of its ends 12 to the contact pads 5. Such a connector 11 is able to circulate the current. A second end 13 of this connector 11 opens into the orifice 9. The second end 13 of the connector is adapted to cooperate with a contact 14 of the driver card 7. The contact 14 of the driver card 7 is preferably located on the end 10 of said driver card 7. An insertion of the driver card 7 in the orifice 9 brings the contact 14 in abutment against the second end 13 of the connector 11. This stop ensures the power of the driver card 7 from the pads contact 5 to the driver card 7, the connector 11 advantageously replacing the cable connections of the prior art while the abutment of the contact 14 on the connector 11 associated with the holding of the driver card 7 in the orifice 9 by complementarity replaces the welding point required in the prior art. Optionally, the abutment of the contact 14 on the connector 11 is made in force so that this stop ensures the maintenance of the pilot card 7 in the orifice 9. In this embodiment, the base 4 comprises a second orifice 15. This second orifice 15 is complementary to the LED card 8. The complementarity between the LED card 8 and the second orifice 15 is similar to the complementarity between the driver card 7 and the first orifice 9, the LED card 8 can be inserted and maintained in said second orifice 15 during a step performed as part of an assembly line.

The base 4 comprises a second integrated connector 16 which serves to ensure the connection between the driver card 7 and the LED card 8. For this, a first end 17 of the second connector 16 opens into the first port 9 and a second end 18 of the second connector 16 opens into the second port 15. When the driver card 7 is inserted into the first port 9, the first end 17 of the second connector 16 is in contact with a contact 19 of the driver card 7. When the LED card 8 is inserted into the second orifice 15, the second end 18 of the second connector 16 is in contact with a ro contact 20 of the LED card 8. It can be provided that the maintenance of the LED card 8 in the second orifice 15 is ensured by clamping the LED card 8 between the second end 18 of the second connector 16 and the lower inner face of said second orifice 15, said second end having a shape b deformable ombé which, at rest that is to say when the LED card 8 is not inserted in the second orifice 15, has a spacing with the lower internal face of the second orifice 15 less than the thickness of the LED card 8. When inserting the LED card 8 in the second orifice 15, the abutment of the contact 20 of the LED card 8 on the second end 18 deforms the latter to allow the insertion of the LED card 8 in said second orifice 15, the elasticity of this second end 18 associated with its deformation then applies a force on the LED card 8, in particular on the contact 20 of the latter, ensuring its maintenance 25 in said second orifice 15. The same system for maintaining the pilot card 7 in the first orifice 9, the first end 17 of the second connector 16 and the second end 13 of the first connector 11 both having a curved shape in the e first orifice 9, a deformation capacity and a spacing smaller than the thickness of the Pilot card 7, thus ensuring the clamping retention of the driver card 7 in said first orifice 9. FIG. 3 represents a view from above of two pilot cards intended to be mounted in a lamp according to the invention. In a particular embodiment, a lamp according to the invention may comprise several pilot cards 7. The case represented here shows a first pilot card 7A and a second pilot card 7B intended to be mounted with each other respectively via connectors 21A and 21B. These connectors 21A and 21B are complementary, that is to say that they comprise, for example, a connection lug 22A and 22B, respectively, that can be inserted into receptacles with tabs 23B and 23A, respectively. These connectors 21A and 21B provide the connection between the first driver card 7A and the second driver card 7B. FIG. 4 represents a longitudinal sectional view of a main lamp body 20 according to the invention comprising two pilot cards. Preferably, the connectors 21A and 21B are respectively located on one end 24A and 24B of the driver cards 7A and 7B. These ends 24A and 24B are opposed respectively to the ends 10A and 10B of said pilot cards 7A and 7B, that is to say opposite to the complementary ends of orifices 9A and 9B of caps 4A and 4B.5. The main body 1 of lamp according to the invention as shown in Figure 4 has two caps 4A and 4B, a first base 4A being intended to be connected to the phase and a second base 4B being intended to be connected to the neutral.

The present description showing a base 4 comprising a first connector 11 and a second connector 16 is in no way limiting and the invention relates to the device as described above and its variant embodiments, for example the embodiment of a body main 1 having a first base 4A having two integrated connectors respectively 11A and 16A and a second base 4B having only a connector 11B or any combination easily adaptable by those skilled in the art. Similarly, it is possible in another variant to provide an electrical diagram in which a first contact pad 5A (see Figure 2) of the first cap 4A is intended to be connected to the neutral while a second pad 5B (see Figure 2) of this same first pellet 4A is intended to be connected to the phase. The second base 4B can then be configured in the same way.

Figure 5 shows a side sectional view of an alternative embodiment of the device according to the invention. In this variant, the main body comprises a spacer 25. Such a spacer 25 has a first orifice 26 complementary to the pilot card 7. The first orifice 26 is complementary to the end 27 opposite the first end 10 of the driver card 7 In this variant, the base 4 does not have a complementary orifice of the LED board 8. The spacer comprises a second orifice 28 complementary to the LED card 8. Preferably, this second orifice 28 is located on a face of the spacer opposite the face on which is located the first orifice 26. Typically, the driver card 7 is mounted in the orifice 9 of the base 4, the spacer 25 is mounted on the driver card 7 and the LED card 8 is mounted on said spacer 25.

The spacer 25 comprises an integrated connecting element 29 adapted to connect the driver card 7 and the LED card 8. This connecting element 29 opens on the one hand into the first orifice 26 of the spacer 25 and on the other hand in the second orifice 28 of said spacer 25.

A first end 30 of the connecting element 29 cooperates with a contact 31 of the driver card 7 when the latter is inserted into the first orifice 26 of the spacer 25. A second end 32 of the connecting element 29 co-operates with a contact 33 of the LED card 8 when the latter is inserted into the second hole 28 of the spacer 25. Figures 6A and 6B show examples of cooperation between a card and an orifice. FIG. 6A shows a base 4 adapted to receive a pilot card 7 with zooming on the connector 11. In this example, the connector 11 consists of two branches 34 each forming a contact pad 5. Each branch 34 comprises a rod cylindrical 35, an outer end 36 of the rod 35 is located outside the base 4 and an inner end 37 of said rod 35 is located in the base 4.

Each branch 34 further comprises a link strip 38. Such a link strip 38 is of complementary shape to the pilot card 7 to receive said pilot card 7. In this example, the bar 38 has a sectional shape of "U" Comprising two parallel branches 41 and a base 40. The insertion of the pilot card 7 in the orifice 9 of the base 4 is made by sliding. During this sliding, the driver card 7 slides in the bar 38. In cooperation, the edge 39 of the driver card 7 is opposite the base 40 of the bar 38 while the branches 41 of said bar 38 grip by friction of each side slice 39 the driver card 7. Preferably, this clamping of the driver card 7 is made with contact between said branches 41 and a connection contact 42 of the driver card 7. In order to ensure the connection between the pads of contact 5 and the driver card 7 20 via the connector 11, the bar 38 and the rod 35 are connected by a shoulder 43. Figure 6B shows a spacer 25 cooperating with a driver card 7 inserted in a base 4 with zoom on the cooperation between the pilot card 25 7 and the first orifice 26 of the spacer 25. In this example, the connecting element 29 of the spacer 25 also comprises two branches 44. Each branch 44 has a first end 45 which opens into the prem 26. The ends 45 each comprise a return 46. These returns 46 are intended to grip the end 27 of the driver card 7. The returns 46 are abutted on the contacts 31 of the driver card 7. This stop ensures the maintaining the driver card 7 in the first port 26 while ensuring the connection between the drive card 7 and the LED card 8. The second ends of each branch 44 cooperate with the LED card 8, by means as described above or any other means readily adaptable by those skilled in the art. The invention also relates to a method of manufacturing a lamp as described above. Such a manufacture is easily achievable by an assembly line without requiring the intervention of a natural person in order to achieve weld points on each manufactured lamp. The method according to the invention comprises a step of assembling a lamp body 1. This step comprises a step of inserting into said body an LED card 8 and a pilot card 7. These steps can be automated, for example by being integrated in a robotized assembly line. According to the invention, the step of insertion into said pilot card body 1 is done during a step of inserting said pilot card 7 into the complementary orifice 9 of the main body 1, and more particularly in the orifice 9 of the base 4. The pilot card 7 is inserted into the orifice 9 until the contact of said card is in contact and the integrated connector to the base.

In the presence of a main body 1 comprising a spacer 25, the manufacturing method according to the invention comprises a step of insertion of the pilot card 7 in said spacer 25. The method according to the invention also comprises an insertion step of the LED card 8 in said spacer 25. In the case of a base 4 having two orifices 9 and 15 respectively complementary to the driver card 7 for one and the LED card 8 for the other, the method according to the The invention comprises a step of inserting the LED card 8 into the second hole 15 of the base 4. This insertion is carried out in a manner similar to the insertion of the pilot card 7 into said base 4. The card insertions 7 and / or 8 in complementary orifices 15 respectively 9 and / or 15 are preferably made by simple sliding of one of said card in the complementary orifice, such inserts ensure the contact between a connecting element, a connector or other and you n contact of the inserted card. In addition the insertion can be done in force to ensure the maintenance of the card in the corresponding hole. Preferably, the elements comprising a connector, connecting element or other such as the base or the spacer, are made during a manufacturing step of said element by overmolding or assembly of plastic elements injected on said connector, link element or other. Overmolding or assembly of injected plastic elements makes it possible to obtain such an element comprising all the characteristics described above.

In the case of a lamp comprising several LED cards or several pilot cards, it is obvious that the method and the device according to the invention also cover the case easily adaptable by those skilled in the art of the various steps of insertion of cards in complementary ports as well as one or more steps of linking two cards together, for example pilot cards as described above.

Claims (11)

REVENDICATIONS1. LED lighting device comprising a main body (1), said main body comprising a base (4), said base comprising contact pads (5), an LED card (8) and a pilot card (7) linked between they, the Pilot card being connected to the contact pads and the LED card comprising at least one LED or light-emitting diode (6), characterized in that the base comprises an orifice (9) of complementary shape to the pilot card, and in that that the base comprises a connector (11) connecting the contact pads io and the orifice, said connector cooperating with a contact (14) of the driver card when said driver card is inserted into said aperture of the base. 2. Device according to claim 1, characterized in that the base comprises a second orifice (15), said second orifice being complementary to the LED board, a second connector (16) of said base is cooperating by connection on the one hand with the pilot card and secondly with the LED card when the driver card and the LED card are both inserted into the holes with which said cards are respectively complementary. 3. Device according to one of the preceding claims, characterized in that it comprises two driver cards (7A, 7B), a first driver card (7A) having a connector (21A) complementary to a connector (21B) d a second driver card (7B). 4. Device according to one of the preceding claims characterized in that it comprises a spacer (25) having on the one hand an orifice 25 (26) complementary to the pilot card and on the other hand an orifice (28) complementary to the LED card, said spacer further comprising a connecting element (29) cooperating with a contact (31) of the driver card on the one hand and a contact (33) of the LED card on the other hand. 5. Device according to claim 1 characterized in that the driver card is integrated in the LED card. 6. A method of manufacturing a lamp comprising a step of assembling a main body (1) of a lamp, a step of insertion into said body of an LED card (8) and an insertion step in said body of a pilot card (7), characterized in that the step of insertion into said body of a pilot card comprises a step of insertion of the pilot card into an orifice (9) complementary to the main body (1 ) lamp until a contact between a contact (14) of the driver card (7) and a connector (II) of the body of the lamp. 7. Method according to the preceding claim characterized in that it comprises a step of inserting the driver card into a spacer (25) and a step of inserting the LED card in said spacer. 8. Method according to claim 6 characterized in that it comprises a step of insertion of the LED card in the body of the lamp comprises a step of insertion of the LED card in a complementary hole (15) of the body of the lamp. 9. Method according to one of claims 6 or 8 characterized in that it comprises a step of manufacturing the body of the lamp by overmoulding or assembly of plastic elements injected on the connector. 10. Method according to one of claims 6 to 9 characterized in that the card insertion steps in complementary orifices are automated. 11. Method according to one of claims 6 to 10 characterized in that it comprises a step of connecting two pilot card between it.