RU2747738C1 - Led lamp for fluorescent lamps - Google Patents

Abstract

FIELD: lighting.

SUBSTANCE: invention relates to the field of lighting, namely to lighting devices. The declared LED lamp for fluorescent lamps contains an electrical board equipped with light emitting diodes (LED board) located on it, which is connected in the operating position to a power source; means for fixing and holding the LED lamp in the working position, the base, in shape and dimensions corresponding to the shape and dimensions of the fluorescent lamp; n (where n≥1) of LED boards connected to each other in a series electrical circuit, each of which is oppositely attached to the base by means of fastening posts so that the light radiation is directed towards the latter. The mountings are made in the form of heat-dissipating radiators, while power connectors are located at the ends of the base of the electrical board, made in such a way that they can be continuously combined with the power connectors of another electrical board, thereby providing the required level of illumination, and the LED boards contain a heat-dissipating coating.

EFFECT: invention is aimed at improving the efficiency of LED lamps by lowering the temperature of the LEDs.

25 cl, 3 dwg

Description

The present invention relates to the field of lighting engineering, namely to lighting devices.

Known LED lamps designed to replace fluorescent lamps in fluorescent lamps, containing a transparent tube with LEDs installed inside. LEDs are installed along the entire length of the tube and in all directions so that light is emitted in all directions around the tube. At the ends of the tube there are connectors that allow you to insert such a tube into the fixture of a fluorescent lamp (US 2005281030 A, 22.12.2005; US 2003102810 A, 05.03.2003; US 2004189218 A, 30.09.2004).

Known LED lamp for replacing fluorescent lamps in fluorescent lamps, containing an optically transparent tube with LEDs located on heat sink end radiators-tube bases and directed towards each other, with one or more focusing lens optical elements and a reflective surface around the LEDs, as well as with light refractive and a light scattering coil on the surface of the tube. The ends of the tube of the lamp contain conductive plugs identical in type and size to the plugs of tubular fluorescent lamps of the corresponding standard size (RU 69612 U1, 27.12.2007).

Known LED lamp for replacing fluorescent lamps in fluorescent lamps, containing an electrical board equipped with light emitting diodes located on it (LED board), connected in the operating position to a power source; means for fixing and holding the LED lamp in the working position, the base, in shape and dimensions corresponding to the shape and dimensions of the fluorescent lamp; n (where n≥1) LED boards connected to each other in a serial electrical circuit, each of which is oppositely attached to the base by means of fastening posts so that the light radiation is directed towards the latter, while the number n of LED boards is determined from the condition of providing LED lamp of an illumination level corresponding to the illumination level achieved from the use of a replaceable set of fluorescent lamps (RU 2470218 C1, 20.12.2012).

The disadvantages of the known solutions in this field of technology are that they all operate at high temperatures and are made without the possibility of removing heat from the LED boards. This heat accumulates, and the efficiency of the LED decreases in proportion to the time the light source is in the on state. Another drawback associated with the use of a transparent tube is that part of the emitted light is absorbed in this tube, and accordingly, as a result of the loss of light, the efficiency of the light source decreases even more.

The technical problem to be solved by the claimed technical solution is the elimination of excessive temperatures of LED boards, which has a positive effect on their durability and stability of operation.

The technical result achieved by solving the above technical problem is to increase the efficiency of the LED lamps by reducing the temperature of the LEDs and removing heat from the LED boards.

An additional technical result is the expansion of the functionality of the LED lamp by placing power connectors at the ends of the base of the electrical board, made in such a way that they can be continuously combined with the power connectors of another electrical board, thereby providing the required level of illumination and allowing you to connect any required number of boards.

The claimed results are achieved through the implementation of an LED lamp for fluorescent lamps, containing an electric board and equipped with light emitting diodes (LED board) located on it, which is connected in the operating position to a power source; means for fixing and holding the LED lamp in the working position, the base, in shape and dimensions corresponding to the shape and dimensions of the fluorescent lamp; n (where n≥1) LED boards connected to each other in a series electrical circuit, each of which is oppositely attached to the base by means of fastening posts so that the light radiation is directed towards the latter, while the fastening posts are made in the form of heat sinks, and Power connectors are located at the ends of the base of the electrical board, which are designed to be continuously combined with the power connectors of another electrical board, thereby providing the required level of illumination, and the LED boards contain a heat-dissipating coating.

In one of the private embodiments of the LED lamp, the base contains heat-dissipating plates connected to the fastening posts.

In another particular embodiment of the LED lamp, the power connectors located at the ends of the board are made in the form of USB ports.

In another particular embodiment of the LED lamp, the power connectors located at the ends of the board are made in the form of connector plugs.

In another particular embodiment of the LED lamp, the base includes holes for ventilation and cooling.

In another particular embodiment of the LED lamp, a diffuser of a fluorescent lamp is used as a base.

In another particular embodiment of the LED lamp, a reflector of a fluorescent lamp is used as a base.

In another particular embodiment of the LED lamp, the LED boards are evenly spaced across the base area.

In another particular embodiment, the LED lamp comprises pins for connection to the electrical circuit of the luminaire.

In another particular embodiment, the LED lamp contains pin contacts for inclusion in the electric circuit of the lamp, which are used as two current-conducting plugs, corresponding in shape and size to the standard current-conducting plugs of replaceable fluorescent lamps, while one of the plugs is connected to the positive end of the LED electric circuit, and the other is negative.

In another particular embodiment of the LED lamp, an electrical circuit of a current rectifier and a surge suppressor is mounted in one of the current-carrying plugs

In another particular embodiment, the LED lamp contains additional terminals for inclusion in the electrical circuit of the lamp.

In another particular embodiment of the LED lamp, pin contacts are used as means of fixing and holding in the working position to be included in the electric circuit of the lamp.

In another particular embodiment, the LED lamp comprises a varistor and a zener diode.

In another particular embodiment, the LED lamp further comprises technological holes for attaching a radiator.

In another particular embodiment, the LED lamp further comprises secondary optics.

In another particular embodiment, the LED lamp further comprises electronic devices for controlling the light.

In another particular embodiment, the LED lamp further comprises a set of universal fasteners for attaching to a fluorescent lamp.

In another particular embodiment of the LED lamp, the base is circular, or oval, rectangular, or shaped.

In another particular embodiment of the LED lamp, heat sinks are connected to heat sink grooves.

In another particular embodiment of an LED lamp, the LED boards comprise aluminum heat sinks and / or heat sink inserts.

In another particular embodiment of the LED lamp, each LED board comprises a honeycomb structure in which the cells are formed by heat transfer junctions.

In another particular embodiment of the LED lamp, the heat-dissipating coating is polymer-based.

In another particular embodiment of the LED lamp, the heat dissipating coating is based on polyurethane, acrylic or silicone.

In another particular embodiment of the LED lamp, the polymer is polydimethylsiloxane.

The implementation of the invention will be described in the following in accordance with the accompanying drawings, which are presented to explain the essence of the invention and in no way limit the scope of the invention. The following drawings are attached to the application:

FIG. 1 illustrates a general view of the claimed device.

FIG. 2 illustrates an example of performing heat transfer junctions.

FIG. 3 illustrates an example of the placement of a heat dissipating cover and insert.

In the following detailed description of an implementation of the invention, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. However, it will be obvious to those skilled in the art how the present invention can be used, with or without these implementation details. In other instances, well-known techniques, procedures, and components have not been described in detail so as not to obscure the details of the present invention.

In addition, from the above presentation it will be clear that the invention is not limited to the above implementation. Numerous possible modifications, changes, variations and substitutions, while retaining the essence and form of the technical implementation of the present invention, will be obvious to those skilled in the subject field.

An LED light source has several advantages over fluorescent lamps. The advantages inherent in all LED light sources include: low power consumption; long service life; lack of the effect of pulsation of the luminous flux; resistance to mechanical and climatic influences; ease of disposal and environmental friendliness due to the absence of harmful components - primarily mercury vapor.

FIG. 1 shows an example of the implementation of the claimed LED lamp (10).

A LED lamp for fluorescent lamps contains: n (where n≥1) electrical boards (1) connected to each other in a serial electrical circuit, each of which is equipped with light-emitting diodes (2) located on it, and at the ends of the base of each of which there are power connectors made in such a way that they can be continuously combined with the power connectors of another electrical board, connected in the working position to a power source (shown in the drawing) using pin contacts or additional terminals or using USB ports or using plug connectors (not shown in the drawing) ...

It is preferable to use two standard current-conducting plugs (3, 4) as pin contacts for connecting to the electrical circuit of the lamp, one of which is connected to the positive end of the LED electrical circuit, and the other to the negative.

The type and size of the current-conducting plugs (3, 4) correspond to the standard current-conducting plugs of the fluorescent lamps being replaced. An electrical circuit of a current rectifier and a surge suppressor (not shown in the drawing) can be mounted in one of the current-carrying plugs.

Each LED board (1) is attached to the base (5) by means of fastening posts made in the form of heat sinks (6), so that the light radiation is directed towards the base (5). In this case, heat sinking radiators can be connected to heat sinking grooves (8).

Each LED board (1) is coated with a heat dissipating coating (11) (see Fig. 3). In this case, the heat-dissipating coating (11) can be made on the basis of a polymer or based on polyurethane, acrylic or silicone, or it can be a polydimethylsiloxane.

The LED boards (1) are evenly distributed over the base area (5), ensuring an even luminous flux. The LED lamp contains means for fixing and holding in the working position (not shown in the drawing), which can be used as pin contacts to be included in the electric circuit of the lamp.

The base (5) in shape and overall dimensions is made corresponding to the shape and dimensions of the fluorescent lamp and can have any geometric shape, including round, or oval, or rectangular, or curly and other shapes. A light diffuser or a reflector of a fluorescent lamp can be used as a base (5). In this case, the base (5) may contain openings (7) for ventilation and cooling and heat sink plates connected to the fastening posts (6).

The number n of LED boards (1) is determined from the condition that the LED lamp provides an illumination level corresponding to the general illumination level achieved from the use of the entire set of replaceable fluorescent lamps in a fluorescent lamp, and depends on the parameters of LED boards and replaceable fluorescent lamps. The presence of power connectors (3, 4) at the ends of each board (1) is performed in such a way that these connectors allow continuous combination with the power connectors of another electrical board, allowing you to connect the required number of such boards (1).

The implementation of LED boards (1), attached to the base (5) by means of fastening racks (6), made in the form of heat sinks, excludes their heating, since heat is not accumulated. In this case, the radiators (6) remove heat from the board (1) preventing overheating, and also eliminates the disadvantage associated with the absorption of the emitted light in the tube, which, in general, increases the efficiency of the LED light source.

The implementation of the shape and overall dimensions of the base (5) corresponding to the shape and overall dimensions of the fluorescent lamp provides the possibility of using the LED lamp (10) in various types of fluorescent lamps, including floor, wall, etc.

The implementation of LED boards (1) evenly distributed over the base area (5) ensures an even luminous flux.

As shown in FIG. 2, the LED board (1) may contain a honeycomb structure, in which the cells are formed by heat-conducting transitions (via) (9). Transitions (9) can form a different geometric pattern, depending on the example of the final device. The thickness and number of transitions (9) on each of the boards (1) can also be selected based on the thickness of the board (1) and its geometric dimensions.

As shown in FIG. 3 LED boards (1) may contain heat sinks (12). The inserts can be made of any suitable heat dissipating and / or heat dissipating metal, for example copper, aluminum, etc. The inserts (12) can also be of various geometrical shapes, suitable for installation in boards (1). The inserts (12) can be installed in packs, depending on the thickness of the inserts and LED boards (1).

Placing the LED boards (1) opposite to the base, so that the light radiation is directed towards the base (5), reduces light losses, which, in turn, increases the efficiency of the LED lamp (10).

The use of a light diffuser or reflector of a fluorescent lamp as a base (5) increases its efficiency.

The use of current-conducting plugs as pin contacts for connecting to the electric circuit of the luminaire, by the type and size corresponding to the standard current-conducting plugs of replaceable fluorescent lamps, simplifies installation and expands the functionality.

The presence of an electric circuit of a current rectifier and a voltage surge limiter; varistor and zener diode increases the reliability of operation and increases the lamp life.

The presence of technological holes (7) for mounting the radiator; secondary optics; electronic device for light control; a set of universal fasteners for fixing to a fluorescent lamp; making the base of various shapes expand the functionality of the LED lamp.

The LED lamp for fluorescent luminaires may further include a varistor, zener diode or protection diode (not shown).

The LED lamp (10) for fluorescent luminaires may further comprise secondary optics; electronic devices for light control, reflectors; a set of universal fasteners for attaching to a fluorescent lamp (not shown in the drawing).

The claimed LED lamp is connected to the electric circuit of the fluorescent lamp power supply of the fluorescent lamp without changing it. The invention can be used in any type of built-in and surface-mounted fluorescent lamps.

LED boards (1) can use any super-bright LEDs (2), assembled on any printed circuit boards. The base (5) of the claimed LED lamp (10) can be of any shape, depending on the geometric shape of the fluorescent lamp. Depending on the operating conditions, a radiator can be used in the design of the LED lamp (10), which is bolted into the technological holes for its use. Also in the LED lamp (10), secondary optics and any electronic devices can be used to control light.

The base (5) can be made of any light-transmitting or reflective materials, and can also contain holes for ventilation and cooling.

The presented application materials disclose preferred examples of the implementation of the technical solution and should not be construed as limiting other, particular examples of its implementation, which do not go beyond the scope of the claimed legal protection, which are obvious to specialists in the relevant field of technology.

Claims (25)

1. LED lamp for fluorescent lamps, containing an electrical board equipped with light emitting diodes located on it (LED board), connected in the working position to a power source; means for fixing and holding the LED lamp in the working position, the base, in shape and dimensions corresponding to the shape and dimensions of the fluorescent lamp; n (where n≥1) LED boards connected to each other in a series electrical circuit, each of which is oppositely attached to the base by means of fastening posts so that the light radiation is directed towards the latter, characterized in that the fastening posts are made in the form of heat-dissipating radiators power connectors are located at the ends of the base of the electrical board, made in such a way that they can be continuously combined with the power connectors of another electrical board, thereby providing the necessary level of illumination, and the LED boards contain a heat-dissipating coating. 2. The light-emitting diode lamp according to claim 1, characterized in that on the base there are heat-dissipating plates connected to the fastening posts. 3. The LED lamp according to claim 1, characterized in that the power connectors located at the ends of the board are made in the form of USB ports. 4. The LED lamp according to claim 1, characterized in that the power connectors located at the ends of the board are made in the form of connectors. 5. The light-emitting diode lamp of claim. 1, characterized in that the base contains holes for ventilation and cooling. 6. The light-emitting diode lamp according to claim 1, characterized in that a diffuser of a fluorescent lamp is used as the base. 7. The LED lamp according to claim 1, characterized in that a reflector of a fluorescent lamp is used as the base. 8. The LED lamp of claim 1, wherein the LED boards are evenly spaced over the base area. 9. The LED lamp of claim. 1, characterized in that it contains pin contacts for inclusion in the electrical circuit of the lamp. 10. The LED lamp according to claim 1, characterized in that it contains pin contacts for inclusion in the electric circuit of the lamp, which are used as two current-conducting plugs, in appearance and size corresponding to the standard current-conducting plugs of replaceable fluorescent lamps, while one of the plugs is connected to the positive end of the LED circuitry and the other with the negative end. 11. The LED lamp according to claim 1, characterized in that an electrical circuit of the current rectifier and voltage surge limiter is mounted in one of the current-carrying plugs. 12. The LED lamp of claim. 1, characterized in that it contains additional terminals for inclusion in the electrical circuit of the lamp. 13. The LED lamp according to claim 1, characterized in that pin contacts are used as means of fixing and holding in the working position for inclusion in the electric circuit of the lamp. 14. The LED lamp of claim. 1, characterized in that it includes a varistor and a zener diode. 15. The LED lamp according to claim 1, characterized in that it further comprises technological holes for mounting the radiator. 16. The LED lamp of claim 1, further comprising secondary optics. 17. The LED lamp of claim 1, further comprising electronic devices for controlling the light. 18. The LED lamp of claim. 1, characterized in that it additionally contains a set of universal fasteners for attaching to a fluorescent lamp. 19. The LED lamp of claim. 1, characterized in that the base has a round, or oval, rectangular, or figured shape. 20. The LED lamp of claim. 1, characterized in that the heat sinks are connected to the heat sink grooves. 21. The LED lamp of claim. 1, characterized in that the LED boards contain aluminum heat transfer junctions and / or heat transfer inserts. 22. The LED lamp of claim 21, wherein each LED board comprises a honeycomb structure in which the cells are formed by heat-conducting junctions. 23. The light-emitting diode lamp according to claim. 1, characterized in that the heat-dissipating coating is made on the basis of a polymer. 24. The LED lamp according to claim 1, characterized in that the heat-dissipating coating is based on polyurethane, acrylic or silicone. 25. The LED lamp of claim 23, wherein the polymer is polydimethylsiloxane.

Images