FR3024208A1 - ELECTROLUMINESCENT DIODE BULB - Google Patents

Abstract

A light emitting diode lamp includes an electrical connector (10) electrically connected to a light bulb holder and having at least one electrode port (11, 12) corresponding to a power contact of said holder, a light assembly ( 20) comprising a first circuit contact (23) and a second circuit contact (24), and a circuit module (30) comprising an electrical control board (31), a first input electrode contact (331). ), a second input electrode contact (332), a first output electrode contact (341) and a second output electrode contact (342), one of the first and second electrode contacts input (331, 332) being introduced into the at least one electrode port (11, 12) for conducting the current, the other being electrically coupled to another power supply contact of the bulb holder, the first and second output electrode contacts (341, 342) being electrically connected to the first and second econd circuit contacts (23, 24).

Description

The present invention relates to a light emitting diode bulb that is easily and rapidly produced. A conventional light emitting diode lamp contains a conversion circuit for converting an alternating current to a direct current for driving the light emitting diode. Another conventional light emitting diode lamp is disclosed in Taiwan Patent Specification No. 1384170 and contains a heat sink, a metal cap, a control circuit board, a lighting part, a gasket and a shade. The dissipation box 15 includes an opening defined on a first end thereof and a connecting hole formed on a second end thereof. The metal cap is attached to the heat sink connection hole, and the control circuit board is mounted in the heat sink and is electrically connected to the metal cap. The illumination portion and the seal are disposed in the aperture, such that the illumination portion is electrically coupled to the control circuit board. A modular light emitting diode lamp 25 is disclosed in Taiwan Patent Specification No. 455988 and contains: a lamp shade, a lighting plate printed on an electrical circuit and having a plurality of light-emitting diode covering elements, a lamp cap, a bulb holder and a control module 30 printed on an electrical circuit and electrically connected a plurality of electronic elements. However, the production of the modular light emitting diode lamp is complicated and difficult. The main object of the present invention is to provide a light-emitting diode bulb which is produced easily and quickly. Thus disclosed herein is a light emitting diode bulb electrically connected to a bulb holder, characterized in that it comprises: an electrical connector electrically connected to the bulb holder and comprising a first electroconductive portion and a second electroconductive portion electrically isolated from the first electroconductive portion by an electrical insulating portion, the first electroconductive portion and the second electroconductive portion being electrically coupled to two supply contacts of the bulb holder, the electrical connector further comprising at least one an electrode port for introducing the first electroconductive portion or the second electroconductive portion; An illumination assembly comprising a circuit board and a plurality of light-emitting diodes, the circuit board having a printed circuit electrically connected to the plurality of light-emitting diodes, and a first circuit contact and a second circuit contact which are both arranged on the printed circuit for conducting the current to illuminate the plurality of light-emitting diodes; and a circuit module comprising an electrical control board, a control circuit portion formed on the electrical control board, a first input electrode contact, a second input electrode contact, a first contact an output electrode and a second output electrode contact, the control circuit portion being used to convert and regulate the current, so that the current from the bulb holder is transformed to illuminate the plurality of electroluminescent diodes, one of the first input electrode contact and the second input electrode contact being introduced into the at least one electrode port of the electrical connector and extending out of the electrical connector for conducting the current, the other of the first input electrode contact and the second input electrode contact being electrically coupled to that of the first electroconductive portion and the second An electroconductive lead that does not have the at least one electrode port, the first output electrode contact and the second output electrode contact are electrically connected to the first circuit contact and the second circuit contact of the first electrode contact. set of lighting. Also disclosed herein is a light-emitting diode bulb electrically connected to a bulb holder, characterized in that it comprises: - an electrical connector electrically connected to the bulb holder and comprising a first electrode port 25 and a second electrode port which are both defined in the electrical connector to correspond to two power contacts of the bulb holder; an illumination assembly comprising a circuit board and a plurality of light emitting diodes, the circuit board having a printed circuit electrically connected to the plurality of light emitting diodes, and a first circuit contact and a second circuit contact which are both 3024208 4 disposed on the printed circuit for conducting current to illuminate the plurality of light-emitting diodes; and a circuit module comprising an electrical control board, a control circuit portion formed on the electrical control board, a first input electrode contact, a second input electrode contact, a first an output electrode contact and a second output electrode contact, the control circuit portion being used to convert and regulate the current, so that the current from the bulb holder is transformed to illuminate the plurality of electro-luminescent diodes, the first input electrode contact of the circuit module being introduced into the first electrode port of the electrical connector and extending out of the electrical connection, and the second input electrode contact of the a circuit module being introduced into the second electrode port of the electrical connector and extending out of the electrical connection, such that when the electrical connection is electrically connected at the bulb holder, the first input electrode contact and the second input electrode contact of the circuit module are electrically coupled to the supply contacts of the bulb holder, the first electrode contact. output and the second output electrode contact being electrically connected to the first circuit contact and the second circuit contact of the lighting assembly.

The present invention therefore relates to a light-emitting diode bulb electrically connected to a bulb holder, characterized in that it comprises: an electrical connection electrically connected to the bulb holder and comprising at least one electrode orifice defined therein to correspond to a power contact of the bulb holder; An illumination assembly comprising a circuit board and a plurality of light-emitting diodes, the circuit board having a printed circuit electrically connected to the plurality of light-emitting diodes, and a first circuit contact and a second circuit contact which are all two arranged on the printed circuit for conducting the current to illuminate the plurality of light-emitting diodes; and a circuit module comprising an electrical control board, a control circuit portion formed on the electrical control board, a first input electrode contact, a second input electrode contact, a first contact an output electrode and a second output electrode contact, the control circuit portion being used to convert and regulate the current, such that the current from the bulb holder is transformed to illuminate the plurality of electroluminescent diodes, one of the first input electrode contact and the second input electrode contact being introduced into the at least one electrode port of the electrical connector and extending out of the electrical connection for conducting the current, the other of the first input electrode contact and the second input electrode contact being electrically coupled to another power supply contact of the bulb holder, the first contact wherein the output electrode and the second output electrode contact are electrically connected to the first circuit contact and the second circuit contact of the illumination assembly. According to a particular embodiment of the present invention, the electrical connection comprises a first electroconductive portion and a second electrically conductive portion electrically isolated from the first electroconductive portion by an electrical insulating portion, the first electroconductive portion and the second electroconductive portion being electrically coupled to two supply contacts of the bulb holder, the at least one electrode port being defined in one of the first electroconductive portion and the second electroconductive portion, and the second electrode contact being The inlet is electrically coupled to that of the first electroconductive portion and the second electroconductive portion that does not have the at least one electrode port. According to another particular embodiment of the present invention, the electrical connector comprises a first electrode port and a second electrode port which are both defined to correspond to two power contacts of the bulb holder, the first input electrode contact of the circuit module being introduced into the first electrode port of the electrical connector and extending out of the electrical connector, and the second input electrode contact of the circuit module being introduced. in the second electrode port of the electrical connector and extending out of the electrical connection, such that when the electrical connector is electrically connected to the bulb holder, the first input electrode contact and the second Circuit module input electrode contacts are electrically coupled to the power contacts of the bulb holder. The electrical connection can be an electrical insulation element. The electrical connector may include a first electroconductive portion and a second electrically conductive portion electrically insulated from the first electroconductive portion by an electrical insulation portion. The electrical connection can be an Edison screw cap or a bayonet cap. The circuit board of the lighting assembly 10 may have a first through hole to correspond to the first circuit contact and have a second through hole to correspond to the second circuit contact, the first output electrode contact and the second output electrode contacts being respectively introduced into the first through hole and into the second through hole of the illumination assembly, the first output electrode contact and the second output electrode contact being respectively welded to the first circuit contact and the second circuit contact.

The first input electrode contact and the second input electrode contact may be respectively a first protrusion and a second protrusion which are both formed on a first end of the electrical control board, the first protrusion having A first edge and the second projection having a second edge, the first projection of the first input electrode contact and the second projection of the second input electrode contact being electrically connected to the control circuit portion by means of a conductive metal layer. The first output electrode contact and the second output electrode contact may be respectively a third projection and a fourth projection which are both formed on a second end of the electrical control board, the third projection having a second projection. third edge and the fourth projection having a fourth edge, the third projection of the first output electrode contact and the fourth projection of the second output electrode contact being electrically connected to the control circuit portion by means of a conductive metal layer. The first output electrode contact and the second output electrode contact may be electrically connected to the control circuit portion by means of metal terminals. The LED bulb may further comprise a radiation assembly comprising a heat guide plate, a hollow chamber, and a receiver tube secured in the hollow chamber, the electrical connector being mounted on one end of the array assembly. radiation, the circuit module being introduced into the hollow chamber and the circuit board of the lighting assembly being connected to the heat guiding plate, so that the heat of the lighting assembly is dissipated through the heat guide plate. The receiving tube may also include a plurality of cooling fins surrounding and retained by an outer side thereof. To better illustrate the object of the present invention, will be described below, by way of indication and not limited to several particular embodiments with reference to the accompanying drawing. In this drawing: FIG. 1 is an exploded perspective view of the elements of the light-emitting diode lamp according to a first embodiment of the present invention; Figure 2 is a cross-sectional view, in the assembled state, of the light-emitting diode bulb according to the first embodiment of the present invention; Fig. 3 is an exploded perspective view of the elements of the light-emitting diode lamp according to a second embodiment of the present invention; Fig. 4 is an exploded perspective view of the elements of the light-emitting diode lamp according to a third embodiment of the present invention; Figure 5 is a sectional view, in the assembled state, of the light emitting diode bulb according to the third embodiment of the present invention; Figure 6 is an assembled sectional view of the LED bulb according to a fourth embodiment of the present invention; Figure 7 is a sectional view, in the assembled state, of the light-emitting diode bulb according to a fifth embodiment of the present invention; and Figure 8 is a sectional view, in the assembled state, of the light emitting diode lamp according to a sixth embodiment of the present invention.

Referring to FIGS. 1 and 2, it can be seen that a light-emitting diode bulb according to a first embodiment of the present invention comprises: an electrical connection 10, a lighting assembly 20 and a circuit module 30. The electrical connector 10 is electrically connected to a bulb holder (not shown) which is coupled to a power supply, the electrical connector 10 being an Edison screw cap (such as E22, E26 or E27, as shown in Fig. 1) or a bayonet cap (such as B22 or GU10, as shown in Figs. 4 and 5) in a third embodiment of the present invention. The electrical connector 10 includes a first electrode port 11 and a second electrode port 12 which are both defined in the electrical connector 10 and correspond to two supply contacts (such as a ground contact and a contact wired from an AC power supply, or a positive electrode and a negative electrode from a DC power supply) of the bulb holder. Preferably, the electrical connector 10 is an electrical insulation member formed integrally from a plastic material, such as polycarbonate (PC). As shown in Figure 1, the electrical connector 10 is injection molded in one piece from polycarbonate (PC) to improve production efficiency. Referring to FIG. 7, it can be seen that, in a fifth embodiment, an electrical connector 10a comprises a first electroconductive portion 13 and a second electroconductive portion 14 electrically isolated from the first electroconductive portion 13 by a The electrical connector 10a also includes an electrically insulated connecting sleeve 16 retained by a lower end of the second electroconductive portion 14. After the electrical connector 10a is connected to the bulb holder, the first electroconductive portion 13 and the second electroconductive portion 14 are electrically coupled to two supply contacts (such as a ground contact and a wire contact of an AC power supply, or a positive electrode and a negative electrode of a DC power supply) of the bulb holder. In addition, the first electroconductive portion 13 has a first electrode port 11 defined therein, and the second electroconductive portion 14 has a second electrode port 12 defined therein.

Referring to FIGS. 1 and 2, it can be seen that the illumination assembly 20 comprises a circuit board 21 and a plurality of light-emitting diodes 22. The circuit board 21 comprises a circuit board electrically connected to the plurality of light emitting diodes 22, and a first circuit contact 23 and a second circuit contact 24 which are both arranged on the printed circuit to conduct the current to illuminate the plurality of light emitting diodes 22, the plurality of light emitting diodes 22 being disposed on a lower face 211 of the circuit board 21, and the circuit board 21 also has a first through hole 231 to correspond to the first circuit contact 23 and has a second through hole 241 to correspond to the second circuit contact. 24.

The circuit module 30 comprises an electrical control board 31, a control circuit portion 32 formed on the electrical control board 31, at least one input electrode contact and at least one electrode contact 3024208. both of which are configured on the electrical control board 31. The control circuit portion 32 has electronic components and a printed circuit electrically connected to the electronic components, and the control circuit portion 32 is used to convert the electronics. current (such as converting an alternating current into a direct current or converting a direct current into an alternating current) and regulating the current (such as voltage transformation, voltage stabilization or current regulation constant) such that the power supply of the bulb holder is transformed to illuminate the plurality of light-emitting diodes 22, and the at least one electrode contact of The current is electrically connected to the control circuit portion 32 to inject the current, and the at least one output electrode contact is electrically connected to the control circuit portion 32 to output the current. The at least one input electrode contact has a first input electrode contact 331 and a second input electrode contact 332, the first input electrode contact 331 and the second contact The input electrode 332 is a first protrusion and a second protrusion which are both formed on a first end of the electrical control board 31, the first protrusion having a first edge F1 and the second projection having a second edge F2. . Preferably, the first protrusion of the first input electrode contact 331 and the second protrusion of the second input electrode contact 332 are electrically connected to the control circuit portion 32 by means of a metal layer. conductor, the printed circuit of the control circuit portion, a solder region or a metal guide sheet.

In addition, the electrical control board 31 has an insulation portion 35 (such as insulating paint) formed thereon to isolate the current from the first input electrode contact 331 and the second contact. input electrode 332, extension portions of the first input electrode contact 331 and the second input electrode contact 332 extending out of the first electrode port 11 and the second electrode port. electrode 12 of the electrical connector 10 and being welded thereto so that, when the electrical connector 10 is connected to the bulb holder, the first input electrode contact 331 and the second electrode contact input 332 are electrically connected to the two power supply contacts of the bulb holder for electrically coupling to the power supply. The electrical control board 31 also has a slot 36 defined in the first input electrode contact 331 and the second input electrode contact 332 (as shown in Figure 1) to provide a deformation space at first input electrode contact 331 and the second input electrode contact 332, such that the first input electrode contact 331 is introduced into the first electrode port 11 and the second electrode contact; Input electrode 332 is inserted into second electrode port 12. In a fourth embodiment, as shown in FIG. 6, an electrical control board 31 has a first input electrode contact 331 and two second input electrode contacts 332a, 332b disposed at two opposite positions of the first input electrode contact 331, two slots 36, 36a being defined between the first input electrode contact 331 and the two second elect contacts input rode 332a, 3024208, 332b to provide two deformation spaces at the first input electrode contact 331 and the two second input electrode contacts 332a, 332b. In addition, the electrical control board 31 also has two insulating portions 35 formed thereon for isolating the current from the first input electrode contact 331 and the second two input electrode contacts 332a. 332b, an electrical connector 10 including a second electrode port 12a to correspond to one of the second two input electrode contacts 332b, such that one of the second two input electrode contacts 332b extends out of the first protruding contact formed electrical connection 10 to conduct the current. As shown in FIGS. 1 and 2, an output electrode contact 341 and an output electrode second 342 are a third and a fourth protrusion which are both on a second end of the electrical control board 31, the third projection having a third edge F3 and the fourth projection having a fourth edge F4. Preferably, the third protrusion of the first output electrode contact 341 and the fourth protrusion of the second output electrode contact 342 are electrically connected to the control circuit portion 32 by means of the conductive metal layer or the The output electrode contact 341 and the second output electrode 342 are inserted into the through hole 231 and the first through hole 241 first contact first circuit of the set of electrodes. illumination 20, the first output electrode contact 341 and the second output electrode contact 342 being soldered to the first circuit contact 23 and the second circuit contact 24, such that the current is conducted to a circuit The illumination assembly 20 (not shown) is printed, and the plurality of light emitting diodes 22 are controlled by the current for illumination. Referring to Figure 3, it can be seen that in a second embodiment, a first output electrode contact 341 and a second output electrode contact 342 are disposed adjacent a second end. of the electrical control board 31 and are electrically connected to the control circuit portion 32 by means of metal terminals or metal pins. The first output electrode contact 341 and the second output electrode contact 342 are soldered to the first circuit contact 23 and the second circuit contact 24, such that the current is conducted to the printed circuit (not shown). ) of the lighting assembly 20, so that the plurality of light-emitting diodes 22 is controlled by the current to illuminate. The light emitting diode lamp further comprises a radiation assembly 40 extrusion molded from aluminum, and the radiation assembly 40 includes a heat guiding plate 41, a hollow chamber 42, and a receiving tube 44. fixed in the hollow chamber 42, the electrical connection 10 being mounted on one end of the radiation assembly 40, the circuit module 30 being introduced into the hollow chamber 42 and the circuit board 21 of the lighting assembly 20 being connected to the heat guiding plate 41 so that heat from the lighting assembly 20 is dissipated through the heat guiding plate 41. In addition, an upper face 212 of the circuit board 21, on which a plurality of light-emitting diodes 22 are disposed, is attached to the heat guiding plate 41. The heat guiding plate 41 has a first opening 431 to correspond to the first one. 231 through the circuit board 21 and has a second aperture 432 to correspond to the second through hole 241 of the circuit board 21, so that the first output electrode contact 341 is introduced into the first hole 231 via the first opening 431 and that the second output electrode contact 342 is introduced into the second through-hole 241 via the second opening 432. Referring to FIGS. and 2, it can be seen that the radiation assembly 40 comprises a light guiding plate 41 made of aluminum or copper, a receiving tube 44 for receiving the heat guiding plate 41, a plurality of cooling fins 45 surrounding it and retained by an outer side thereof, and a hollow chamber 42 defined in the receiving tube 44. A lower end of the radiation assembly 40 is connected to a lamp shade 50 to protect the A plurality of light-emitting diodes 22. Referring to FIG. 7, it can be seen that the electrically insulated connecting sleeve 16 of the electrical connection 10a is coupled to a receiving tube 44 of a radiation assembly 40 In addition, at least one input electrode contact of an electrical control board 31 of a circuit module 30 is introduced into an electrode port of the first electroconductive portion 13 or the second electroconductive portion 30. 14 and extends out of the electrical connection 10a to conduct the current. For example, one of the at least one input electrode contact of an electrical control board 13 is soldered such that the electrical connection 10a is electrically connected to the bulb holder, and the Another of the at least one input electrode contact of the electrical control board 31 is electrically coupled with that of the first electroconductive portion 13 and the second electroconductive portion 14 which does not have the electrode. For example, the first electroconductive portion 13 has a first electrode port 11 defined thereon, and a first input electrode contact 331 of the electrical control board 31 of the circuit module 30 is introduced into the first electrode port 11 of the first electroconductive portion 13 and extends out of the electrical connection 10a, and a second electrode contact 332 of the electrical control board 31 of the circuit module 30 is electrically connected to the second part As shown in Figure 8, in a sixth embodiment, a second electroconductive portion 14 has a second electrode port 12 formed thereon, a second electrode contact 332 of a control card. electrical circuit 31 of a circuit module 30 is introduced into a second electrode port 12 of the second electroconductive portion 14 and extends out of an electrical connection 10a, and a first contact of electr 331 of the electrical control board 31 of the circuit module 30 is electrically connected to a first electroconductive portion 13 of the electrical connector 10a. It is understood that the above embodiments of the present invention have been given as indicative and not limiting and that modifications may be made without departing from the scope of the present invention. .

Claims (12)

CLAIMS 1 - Light-emitting diode bulb electrically connected to a bulb holder, characterized in that it comprises: - an electrical connection (10; 10a) electrically connected to the bulb holder and comprising at least one electrode port (11, 12, 12a) defined therein to correspond to a supply contact of the bulb holder; an illumination assembly (20) comprising a circuit board (21) and a light emitting diode (22) having a printed circuit plurality of diodes the circuit board (21) electrically connected to the plurality of light-emitting diodes (22) and a first circuit contact (23) and a second circuit contact (24) which are both arranged on the printed circuit for conducting the current to illuminate the plurality of light emitting diodes (22); and a circuit module (30) comprising an electrical control board (31), a control circuit portion (32) formed on the electrical control board (31), a first input electrode contact ( 331), a second input electrode contact (332, 332a, 332b), a first output electrode contact (341) and a second output electrode contact (342), the control (32) being used to convert and regulate the current, such that the current from the bulb holder is transformed to illuminate the plurality of light-emitting diodes (22), one of the first electrode contact input (331) and the second input electrode contact (332, 332a, 332b) being introduced into the at least one electrode port (11, 12, 12a) of the electrical connector (10; 10a). and extending out of the electrical connection (10; 10a) to conduct the current, the other of the first input electrode contact (331) and the second input electrode contact (332, 332a, 332b) being electrically coupled to another bulb holder supply contact, the first output electrode contact (341) and the second electrode contact; outlet (342) being electrically connected to the first circuit contact (23) and the second circuit contact (24) of the lighting assembly (20). 2 - light-emitting diode bulb according to claim 1, characterized in that the electrical connection (10a) comprises a first electroconductive portion (13) and a second electroconductive portion (14) electrically isolated from the first electroconductive portion (13) by a electrical insulation part (15), the first electroconductive part (13) and the second electroconductive part (14) being electrically coupled to two supply contacts of the bulb holder, the at least one electrode port (11, 12) being defined in one of the first electroconductive portion (13) and the second electroconductive portion (14), and the second input electrode contact (332) being electrically coupled to that of the first electroconductive portion ( 13) and the second electroconductive portion (14) which does not have the at least one electrode port (11, 12). 3 - light-emitting diode bulb according to claim 1, characterized in that the electrical connection (10) comprises a first electrode orifice (11) and a second electrode orifice (12) which are all two defined for corresponding to two supply contacts of the bulb holder, the first input electrode contact (331) of the circuit module being inserted into the first electrode port (11) of the electrical connector (10) and extending out of the electrical connection (10), and the second input electrode contact (332, 332a, 332b) of the circuit module being introduced into the second electrode port (12, 12a) of the electrical connection (10). ) and extending out of the electrical connection (10), so that when the electrical connection (10) is electrically connected to the bulb holder, the first input electrode contact (331) and the second input electrode contact (332, 332a, 332b) of the circuit module (30) is electrically couple to the supply contacts of the bulb holder. 4 - light-emitting diode bulb according to one of claims 1 to 3, characterized in that the electrical connection (10; 10a) is an Edison screw cap or a bayonet cap. 20 5 - light emitting diode bulb according to one of claims 1 to 4, characterized in that the circuit board (21) of the lighting assembly (20) has a first through hole (231) to correspond to the first circuit contact (23) and has a second through hole (232) to correspond to the second circuit contact (24), the first output electrode contact (23) and the second output electrode contact (24). are respectively introduced into the first through hole (231) and into the second through hole (232) of the lighting assembly (20), the first output electrode contact (341) and the second electrode contact. output (342) are welded respectively to the first circuit contact (23) and the second circuit contact (24). 3024208 21 6 - light-emitting diode bulb according to one of claims 1 to 5, characterized in that the first input electrode contact (331) and the second input electrode contact (332, 332a, 332b) 5 are respectively a first projection and a second projection which are both formed on a first end of the electrical control board (31), the first projection has a first edge (F1) and the second projection has a second edge (F2). the first protrusion of the first input electrode contact (331) and the second projection of the second input electrode contact (332, 332a, 332b) being electrically connected to the control circuit portion (32). by means of a layer of conductive metal. 7 - light-emitting diode bulb according to one of claims 1 to 6, characterized in that the first output electrode contact (341) and the second output electrode contact (342) are respectively a third protrusion and a fourth projection which are both formed on a second end of the electrical control board (31), the third projection has a third edge (F3) and the fourth projection has a fourth edge (F4), the third projection of the first output electrode contact (341) and the fourth protrusion of the second output electrode contact (342) being electrically connected to the control circuit portion (32) by means of a conductive metal layer. 8 - light emitting diode bulb according to one of claims 1 to 7, characterized in that the first output electrode contact (341) and the second output electrode contact (342) are electrically connected to the control circuit portion (32) by means of metal terminals. 3024208 22 9 - light emitting diode bulb according to one of claims 1 to 8, characterized in that it further comprises a radiation assembly (40) comprising a heat guide plate (41), a hollow chamber (42). ) and a receiving tube (44) fixed in the hollow chamber (42), the electrical connection (10; 10a) being mounted on one end of the radiation assembly (40), the circuit module (30) being introduced in the hollow chamber (42) and the circuit board (21) of the lighting assembly (20) being connected to the heat guiding plate (41), so that the heat of the assembly illumination (20) is dissipated through the heat guiding plate (41). 10 - light emitting diode bulb according to claim 9, characterized in that the receiving tube (44) also comprises a plurality of cooling fins (45) surrounding and retained by an outer side thereof. 11 - Light-emitting diode bulb according to claim 3, characterized in that the electrical connection (10) is an electrical insulating element. 12 - light emitting diode bulb according to claim 3, characterized in that the electrical connection (10) comprises a first electroconductive portion (13) and a second electroconductive portion (14) electrically isolated from the first electroconductive portion (13) by an electrical insulation part (15).