DE202019105648U1 - LED Flashlight - Google Patents

Abstract

LED flashlight with a holder that fixes an LED (12, 13) on a heat sink (15), characterized in that the LED is fixed on a holder (16, 21) and that the holder (16, 21) by deformation is under compressive stress during fixation on the heat sink (15), as a result of which a pressure force is generated with which the holder is pressed onto the heat sink or onto a part thereof.

Description

The invention relates to an LED flashlight with a holder that fixes an LED on a heat sink.

An LED in the sense of the present invention is understood to mean any form of LED, including those LEDs which are attached to a printed circuit board.

For several years, LEDs have been used in flashlights or luminaires, which are characterized by high brightness, low power consumption, a long service life and, as a rule, low heat development compared to light bulbs.

However, the development of diodes into high-performance light-emitting diodes goes hand in hand with an increasing heat development, which in flashlights with a correspondingly narrow space can lead to undesirable damage. For this reason, heat sinks are used, which ensure appropriate heat dissipation. According to the prior art, plastic holders are used which are screwed to the heat sink and which enclose the LED and which are intended to ensure that there is sufficient contact between the LED underside and the heat sink.

However, it has been found that as a result of manufacturing defects in which the necessary tolerance measures were not adhered to and due to unavoidable different thermal expansion coefficients, inadequate heat dissipation occurred, which led to an unstable light output by the light-emitting diode. This consisted partly in a reduction in light output and partly in flickering. Furthermore, the material ages faster at higher temperatures, so that the LED service life is reduced.

Due to the small space available in the case of flashlights, changes in the heat sink geometry and the contact areas to the LED are exhausted, so that it is the object of the present invention to provide an LED flashlight in which the heat dissipation from the LED to the heat sink is improved and in particular it is ensured that the heat dissipation performance is guaranteed at different temperatures, which can occur due to heat radiation from the LED.

This object is achieved by the construction according to claim 1. Further developments are described in the subclaims.

The main idea of the present invention is that, in departure from the previous form fit between the holding element, the LED and the heat sink, a holder is selected according to the invention, on which the LED is fastened and to which a force is exerted by which the holder with the LED fastened thereon is pressed onto the heat sink or onto an elevation of the heat sink. This compressive stress creates a force effect, through which an undesirable formation of an air gap between the holder and the heat sink is prevented. The bracket thus has a structure, the spring tension of which presses the bracket onto the heat sink during and after assembly. This is done in particular by deforming a metal holder out of the plane and the resulting spring force producing the mechanical and thermal connection to the heat sink.

In a preferred exemplary embodiment, the body consists of a sheet strip which is S-shaped in a plan view and which has at its free ends a bore for the passage and fixing of a screw which connects the holder to the LED on the heat sink or to a flashlight housing. As an alternative to this, the S-shaped curved sheet strip is connected to a holder which is circular in plan view on the periphery and which has two bores for the passage and fixing of one screw each, which fasten the holder to the heat sink. The S-shaped sheet strip to which the LED is soldered in the middle has sufficient elasticity so that a pressure exerted on the ends by means of a screw in each case generates a sufficient force in the central region in which the LED is fastened , through which this central area creates a constant contact with the heat sink. This constant system ensures consistently good heat dissipation to the heat sink. The S-shaped leaf strip ideally does not require a large amount of installation space and is also cheaper than previously used plastic brackets.

According to a further development of the invention, the sheet strip consists of an electrically conductive material with appropriate insulation, so that, due to the electrical conductivity of the sheet strip and the metal screws used, the parts mentioned can simultaneously be used as electrical contacts for the voltage supply of the LED. The sheet strip is preferably made of copper or aluminum.

Furthermore, the heat sink preferably has recesses on its side facing the LED, which are adapted to the sheet strip width and which fix the position in a precise manner Allow leaf strips. In this way, the sheet strip also serves to center the LED with respect to the lenses used.

• 1 eine perspektivische Ansicht einer nach dem Stand der Technik bekannten Kunststoffhalterung zur Kontaktierung der LED auf dem Kühlkörper,
• 2 eine Querschnittsansicht der nach dem Stand der Technik bekannten Ausbildung nach 1,
• 3 eine Halterung gemäß der vorliegenden Erfindung mit aufgelöteter LED in einer perspektivischen Darstellung,
• 4 eine perspektivische Darstellung der Halterung nach 3 mit einer Fixierung auf einem Kühlkörper,
• 5 dieselbe Anordnung nach 4 in einer Seitenansicht,
• 6 die Halterung nach 4 und 5 in einer Draufsicht im montierten Zustand,
• 7 eine alternative Ausführungsform einer Halterung und
• 8 die Halterung nach 7, fixiert auf einem Kühlkörper.

Embodiments of the present invention and the differences from the prior art are shown in the drawings. Show it:

• 1 1 shows a perspective view of a plastic holder known from the prior art for contacting the LED on the heat sink,
• 2 a cross-sectional view of the prior art training according to 1 .
• 3 a holder according to the present invention with soldered LED in a perspective view,
• 4 a perspective view of the bracket 3 with a fixation on a heat sink,
• 5 the same order 4 in a side view,
• 6 the bracket after 4 and 5 in a top view in the assembled state,
• 7 an alternative embodiment of a holder and
• 8th the bracket after 7 , fixed on a heat sink.

It should be stated in advance that an LED should be understood to mean any form of light-emitting diode in the sense of the present invention, including combinations in which the light-emitting diode is applied to a printed circuit board.

As mentioned at the beginning and in 1 and 2 is shown in a flashlight 10 with a front lens 11 the LED 12 . 13 through a plastic bracket 14 Made of translucent material on a heat sink 15 or a cylindrical projection 15a of the heat sink 15 held. This lead 15a allows the LED 12 . 13 in the area of the rear blind hole 111 the front lens 11 to be able to slide in, in order to be able to adjust light cone focusing or defocusing. In this way, spot settings and wide-angle illuminations can be generated with the lamp. The plastic body is fixed by means of screws which pass through corresponding blind holes or openings.

The disadvantage of this solution is that as a result of the heat development of the high-performance LED 13 between the bottom 12 the LED and the side of the heat sink projection facing this side 15a Airlifts can occur, leading to reduced heat conduction in the heat sink 15 to lead.

To avoid this disadvantage, a holder is proposed, consisting of a body that exerts a compressive stress through which the holder on which the LED is soldered is pressed onto the heat sink. In the in 3 to 6 illustrated embodiments, this is an S-shaped sheet strip 16 used on which the LED 12 . 13 is soldered on. This sheet strip has holes at its free leg end 17 . 18 for carrying out and fastening a screw. The central central area has a surface on which the LED can be fully attached by soldering. The leaf strip is towards the sides 16 Conversely, it is made narrower, which in connection with the relatively small sheet thickness d has a certain elasticity in relation to the contact surface between the underside 12 the LED and the middle area 16a of the sheet strip gives a vertical plane. This elasticity is made from, in particular 4 and 6 visible, exploited to the leaf strip that in the central area 16a rests in an upper groove of the heat sink, under pressure on the heat sink projection 15a to press into the insert area mentioned. This compressive force prevents the formation of air gaps with poor thermal conductivity. The metal strip 16 is at its free end by means of screws 19 . 20 at a lower level of the heat sink 15 or a flashlight housing part attached. It is essential that the contact level between the LED 12 and the heat sink area lying there lies above the fastening plane of the free ends of the S-shaped sheet strip, so that a corresponding compressive force can be established. From 4 and 6 apparent shape of the heat sink is only one embodiment; With regard to the heat sink geometry, there is no limitation other than that which is specified by the design of the lamp. In particular, the heat sink, if necessary, can additionally have lamellae or the like which extend into free flashlight interiors. Likewise, the present invention is not limited to, for example, in 4 shown S-profile shape of the leaf strip 16 limited; similarly winding forms can also be selected here. However, the S shape shown or a correspondingly similar one has the advantage that the space required in the radial direction (as seen from the LED forming the center) can be kept small.

At the in 7 shown formation of the body for applying a compressive force on the heat sink projection 15a is the S-shaped leaf strip 21 with a further holder that is circular on the periphery 22 connected, on which other electronic components can be arranged. The elasticity required for fastening and applying pressure is achieved by punching 25 . 26 ensures that allow the middle area 21a of the S-shaped leaf strip 21 when it is fastened, is pushed upwards so that this central area 21a with the LED board on the heat sink ledge 15a rests, whereas the edge area of the holder 21 in a spaced (deeper) plane of the heat sink 15 is present (see 8th ).

8th shows the bracket 22 to 7 in one on the heat sink 15 . 15a fixed state. The one above the leaf strip 21 The pressure force exerted improves contact with the heat sink protrusion 15a and thus for an optimized heat flow through the heat sink.

Claims (7)

LED flashlight with a holder that fixes an LED (12, 13) on a heat sink (15), characterized in that the LED is fixed on a holder (16, 21) and that the holder (16, 21) by deformation is under compressive stress during fixation on the heat sink (15), as a result of which a pressure force is generated with which the holder is pressed onto the heat sink or onto a part thereof. LED flashlight after Claim 1 , characterized in that the holder consists of a sheet strip (16) which is curved in an S-shape in a plan view and which has at its free ends a bore (17, 18) for the passage and fixing of a screw (19, 20) which the middle area of the sheet strip, on which the LED is soldered, presses on the heat sink (15) and / or connects to the flashlight housing. LED flashlights after Claim 1 , characterized in that the holder consists of a sheet strip (21) which is curved in an S-shaped plan view and which is connected to an annular disk (22) which is circular at the periphery in the plan view, the two bores (23, 24) for the passage and Fixing each has a screw that secures the washer (22) to the heat sink (15). LED flashlight after Claim 2 or 3 , characterized in that the LED is soldered to the sheet strip in the center (16a, 21a). LED flashlight after Claim 2 . 3 or 4 , characterized in that the S-shaped sheet strip (16) consists of an electrically conductive material provided with appropriate insulation and / or the screws (19, 20) serve simultaneously as electrical contacts for the voltage supply. LED flashlight according to one of the Claims 2 to 5 , characterized in that the sheet strip is made of copper or aluminum. LED flashlight according to one of the Claims 2 or 4 to 6 , characterized in that the heat sink or the heat sink projection (15a) on its side facing the LED has recesses adapted to the sheet strip for fixing the sheet strip in an exact position.

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