WO2017026911A1 - Light-emitting diode lamp - Google Patents

Abstract

The invention relates to lighting technology, and more particularly to light-emitting diode lamps having a printed circuit board and a screw cap (Edison cap) for connection to an electric power supply network. The technical result of the claimed invention is a simplified lamp design as a result of a reduced number of structural and fastening components. The present light-emitting diode lamp comprises a hollow body-cum-radiator; an optically transparent diffuser, fastened to the body-cum-radiator; light-emitting diodes, mounted on a printed circuit board, which is arranged on an end face of the body-cum-radiator such as to be capable of heat exchange; an elongate dielectric plate, disposed along the longitudinal axis of the lamp; a power supply; and a screw cap in the form of a hollow thin-walled cylinder, having a contact element fastened to the bottom thereof, wherein a first remote part of the elongate plate has two projections, adapted for mechanical connection with the light-emitting diode board, and a second remote part of the elongate plate is disposed in the cavity of the cap and is provided with a perforation, adapted for threaded connection with the cap. The projections of the first remote part of the elongate plate are metallized for electromechanical connection with tracks in the light-emitting diode board.

Description

 LED lamp

^• Field of technology

 The invention relates to lighting equipment, in particular to LED lamps having a printed circuit board and a threaded base (Edison base) for connection to an electric power network.

• Prior art

 A threaded socket is the most common means of attaching an LED lamp to a threaded socket in an electrical supply network.

 Many types of LED lamps use printed circuit boards on which radio-electronic elements, for example, elements of an electronic converter, necessary to ensure the operation of the lighting device, are placed by printed or volumetric installation.

 To date, the traditional way of connecting the terminals of the printed circuit board with the contacts of the threaded base is the soldering of the mounting wires.

 Quite rarely, solutions are offered that allow connecting the printed circuit board and the base without soldering. However, this entails a complication of the construction of the base and does not exclude the use of mounting wires, which negatively affects the manufacturability of the lighting device and its price.

 Known LED lamp containing a diffuser,

LEDs mounted on a printed circuit board, mounting wires, with ends of a certain shape and a threaded base, including contact elements adapted for electromechanical connection with the ends of the mounting

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SUBSTITUTE SHEET (RULE 26) wires (KR10-1430021, IPC F21V / 23/00, published on 08/14/2014).

 A known design of an LED lamp comprising a diffuser, a cylindrical LED holder, a power source mounted on a printed circuit board and connected by mounting wires to a threaded base, the printed circuit board being placed along the axis of the lamp (KR 10-1415690, IPC F21V29 / 00, published July 4, 2014 )

 A general-purpose LED lamp is known, which contains a diffuser, a radiator body, a printed circuit board installed along the axis of the lamp, on the surface of which LEDs and a power source are mounted, electrically connected to the base with mounting wires (WO2013109161, IPC F21Y101 / 02, published July 24, 2013).

 A known LED lamp containing a diffuser, a radiator case, an LED board mounted on the end of the radiator case with heat exchange capability, a power source mounted on an elongated printed circuit board mounted along the axis of the lamp and connected by mounting wires to a threaded base (TWM482702 (U), IPC F218 / 00, published July 21, 2014).

 The solution disclosed in TWM482702 (U) was taken as a prototype, as it is closest to the claimed solution in terms of the number of matching features.

 Fame should be indicated on the filing date of the author’s international application PCT / RU2014 / 000999 with priority dated 12/26/2014, which describes the design of an LED lamp containing an elongated printed circuit board with an LED power supply, the end surface of which is provided with perforations made with the possibility of electromechanical screw connection the base.

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SUBSTITUTE SHEET (RULE 26) The technical result of the claimed solution is to simplify the design of the lamp, by reducing the number of structural and mounting elements. “Disclosure of the invention.

 The claimed invention is characterized by the following combination of features:

 LED lamp containing a hollow body-radiator 6; an optically transparent diffuser mounted on a radiator case; LEDs mounted on a printed circuit board mounted on the end of the radiator case with the possibility of heat transfer; an elongated dielectric board mounted longitudinally to the axis of the lamp; source of power; a threaded base (Edison's base) made in the form of a hollow thin-walled cylinder at the bottom of which a contact element is fixed, characterized in that the first remote part of the elongated board has two protrusions made with the possibility of mechanical connection with the LED board; the second remote part of the elongated board is located in the cavity of the cap, provided with perforations made with the possibility of threaded connection with the cap.

 The LED lamp may differ in that the power source is mounted on an elongated dielectric board. An LED lamp variant may differ in that some of the power supply elements are located on the LED circuit board.

 The LED lamp may differ in that the protrusions on the first remote part of the elongated circuit board are metallized with the possibility of electromechanical connection with the contact tracks of the LED circuit board, and the second remote part of the elongated circuit board of the power supply is located in the base

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SUBSTITUTE SHEET (RULE 26) the perforation is coated with a conductive layer and is made with the possibility of electromechanical connection with the side surface of the base and its contact element.

 An LED lamp may differ in that the first remote part of the power supply board is narrow, and the second part of this board is wide and equipped with perforations, the profile and pitch of which corresponds to the profile and thread pitch of the screw cap.

 The LED lamp may, characterized in that the metallized protrusions of the power supply board have shoulders of different lengths, the size of which is selected with the possibility of forming an electromechanical connection with the printed track of the corresponding polarity on the LED board.

 The LED lamp may differ in that the base is fixed on the end part of the radiator housing so that there is a gap between the base of the base and the second remote part of the elongated board, and the elongated board is loaded with the longitudinal force of the threaded connection connecting the base and the LED board.

 Perforation of the second remote part of the elongated circuit board is made on three sides of a rectangular printed circuit board. On the opposite sides of the printed circuit board, the perforation has a shape and pitch corresponding to the shape and pitch of the spiral turns of the base. On the short side of the board, one deepening of the perforation having an elongated shape for fixing the contact element is sufficient.

 On an elongated printed circuit board can be placed a power source or a part of the source elements and LEDs.

 The conductive coating at the perforation edges can be applied by any available metallization method.

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SUBSTITUTE SHEET (RULE 26) In all cases, the width of the elongated printed circuit board is equal to the inner diameter of the base.

^• Brief Description of the Drawings

 The claimed solution is illustrated by the following graphic materials:

 figure 1 shows an axial section of an embodiment of the lamp;

 in Fig. 2 shows a three-dimensional image of the location of the elongated board in the end of the radiator casing; in Fig.3 shows the lamp depicted in Fig.1, in a parsing;

 in Fig. 4 is an enlarged image of the connection of the perforated edges of the elongated board with the base.

 The LED lamp (figure 1) contains a hollow body-radiator 6, cast from a dielectric material; an optically transparent diffuser 1 mounted on a radiator case 6; LEDs 3 mounted on a horizontally located printed circuit board 2 and mounted on the end of the case-radiator b with the possibility of heat transfer.

 The elongated dielectric board 4 at the first remote end 11 has two protrusions 12 made with the possibility of mechanical connection with the LED board 2, and the second remote part 14 of the elongated board 4 is placed in the cavity of the socle 7, provided with a perforation 15 coated with a conductive layer 16, made with the possibility of electromechanical connection with the inner side surface of the base 7 and with its contact element 10. In this case, the profile and perforation step 15 corresponds to the profile and thread pitch of the screw base 7.

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SUBSTITUTE SHEET (RULE 26) The protrusions 12 on the first remote part 11 of the elongated circuit board 4 are metallized to allow electromechanical connection with the printed conductors 13 of the circuit board 2. The metallized protrusions 12 of the circuit board 4 have shoulders of different lengths, the size of which is selected to form an electromechanical connection with a contact track of the corresponding polarity on circuit board 2.

 The elongated printed circuit board 4 is provided with printed conductors (not shown) that provide

electrical connection of the board 2 LEDs with the base 7.

 In this case, the base 7 is fixed on the remote part 6 'of the radiator case b so that a gap 17 is left between the bottom 9 of the base 7 and the second remote part 14 of the elongated board 4, which, during the assembly of the lamp, makes it possible to control the longitudinal force of the mechanical connection of the board 2 s socle 7, with which a reliable electromechanical contact between the metallized protrusions 12 and the printed conductors of the board 2 is provided, as well as a reliable connection of the heat exchange surfaces of the board 2 of the LEDs and the radiator case and 6.

 On an elongated printed circuit board 4, a power supply 5 or part of its elements can be completely mounted.

• Examples of implementation

 The preferred embodiment of the LED lamp shown in figure 1, contains a hollow body-radiator b; an optically transparent diffuser 1 mounted on a radiator housing b; a printed circuit board 2 LEDs 3, located on the end of the case-radiator b with the possibility of heat transfer; elongated dielectric board 4 with power source 5, the first remote part

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SUBSTITUTE SHEET (RULE 26) 11 which has two metallized protrusions 12, and the second remote part 14 is placed in the cavity of the base 7 and is provided with a metallized perforation 15, the profile and pitch of which corresponds to the profile and thread pitch of the base 7.

• Possibility of industrial application

 The manufacturing technology of LED lamp elements is widely known, well mastered and provided with high-performance machines, varying degrees of automation.

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 SUBSTITUTE SHEET (RULE 26)

Claims

Claim

 1. LED lamp containing a hollow body-radiator; an optically transparent diffuser mounted on a radiator case; LEDs mounted on a printed circuit board mounted on the end of the radiator case with the possibility of heat transfer; an elongated dielectric board mounted longitudinally to the axis of the lamp; source of power; a threaded base (Edison's base), made in the form of a hollow thin-walled cylinder, on the bottom of which a contact element is fixed, characterized in that the first remote part of the elongated board has two protrusions made with the possibility of mechanical connection with the LED board; the second remote part of the elongated board is located in the cavity of the cap, provided with perforations made with the possibility of threaded connection with the side surface of the cap.

 2. The LED lamp according to claim 1, characterized in that the power source is mounted on an elongated dielectric board.

 3. The LED lamp according to claim 1, characterized in that the protrusions on the first remote part of the elongated circuit board are metallized with the possibility of electromechanical connection with the contact paths of the LED circuit board, and the second remote part of the elongated circuit board of the power supply is located in the cap base, the perforation is covered with conductive layer and is made with the possibility of electromechanical connection with the side surface of the base and with its contact element.

 4. The LED lamp according to claim 1, characterized in that the first remote part of the power supply board is narrow, and the second part of this board is wide and provided with perforations, the profile and pitch of which corresponds to the profile and thread pitch of the base.

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SUBSTITUTE SHEET (RULE 26)

5. The LED lamp according to claim 1, characterized in that the metallized protrusions of the power supply board have shoulders of different lengths, the size of which is selected with the possibility of forming an electromechanical connection with a contact track of the corresponding polarity on the LED board.

 6. The LED lamp according to claim 1, characterized in that the base is fixed on the end of the radiator housing so that a gap is left between the base of the base and the second remote part of the elongated power supply board, and the elongated board is loaded with the longitudinal force of the threaded connection connecting the base and LED board.

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 SUBSTITUTE SHEET (RULE 26)