DE102010026713A1 - Torch, has terminal closing spring element connected with electrical terminals such that electric circuits are closed through respective electrical terminals by force of spring element - Google Patents

Abstract

The torch has an LED (5) with which the torch is operated in different brightness levels and/or two different colors. Two or more electrical terminals (8, 10) are provided with different electrical resistances. A terminal closing spring element i.e. coil spring (1), is connected with the electrical terminals such that electric circuits (7, 9) are closed through the respective electrical terminals by force of the spring element. The spring element is longitudinally and movably supported opposite to housing and arranged at a plate-shaped holder (2).

Description

The present invention relates to a flashlight with a housing and at least one light-emitting diode (LED), wherein the flashlight can be operated in at least two different brightness ranges and / or with two different colors.

In recent years, flashlights with LEDs have almost completely displaced the conventional flashlights equipped with light bulbs, which, among other things, is due to a longer service life and lower power consumption of LEDs. In addition, light-emitting diodes are designed to be comparatively small, so that a plurality of LEDs can also be arranged in a lamp head without having to be made bulky in size.

Flashlights are also known in the prior art in which LEDs with different colors are arranged in a lamp head so that the flashlight can shine in different colors. For this purpose, different circuits must be closed, for which purpose several electrical and mechanical control devices have been constructed. With the same control devices and LEDs of different power can be operated so that the flashlight can shine in different levels of brightness.

A disadvantage of the known control devices is often complicated and thus prone to failure mechanics or electronics.

It is therefore an object of the present invention to provide a simply constructed and reliable switchable operation for a flashlight with different circuits.

This object is achieved by the flashlight according to claim 1, which according to the invention has at least two different electrical contacts with different electrical resistances and a contact-closing spring element which is connected in dependence on a force with one or more of the electrical contacts, so that a circuit via different electrical contacts is closed. Accordingly, with the flashlight according to the invention by a simple application of force different brightness levels or different colors can be set, the number of different settings is not limited in principle.

Preferred embodiments are described below and in the subclaims.

Preferably, the spring element is mounted longitudinally axially movable relative to the housing, wherein the spring element is arranged lamp head side or end in an end cap. Here, the spring element is preferably integrated in a rotary switch with a thread, so that by a rotational movement of the rotary switch, the spring element can be moved longitudinally axial to the desired contact. Alternatively, the spring element can also be integrated in a housing-side rotary switch, so that the electrical contact is closed by a radially acting force.

As a spring element, various embodiments are provided. According to a first embodiment, the spring element is arranged on a holder wave spring with Wellenfederbergen and Wellenfedertälern. About the wave spring, a first circuit is closed, for which the wave spring is preferably fixed to an electrical contact having a resistance R, which is greater than the intrinsic resistance of the terminal, the wave spring is connected in the relaxed state with no further electrical contact. Only when a certain force is exerted on the spring, the wave spring is connected to a further electrical contact, so that a second circuit is closed, which has a smaller electrical resistance. Although this does not interrupt the first circuit, the current flows through the second closed circuit due to the smaller electrical resistance. Depending on the desired function of the flashlight this circuit can be connected to a different color LED or the same LED, which shines brighter in this case, so that depending on the power different brightness levels can be set. Of course, a plurality of parallel electrical contacts can be arranged on a spring element, so that almost any number of brightness levels or colors can be controlled.

It has already been explained that the electrical contact closure is dependent on an acting force, whereby different electrical contacts are connected with different spring travel. Essentially two different possibilities are provided for this purpose, wherein according to a preferred embodiment, the wave spring peaks and wave spring valleys are equally spaced from the holder, wherein the electrical contacts are arranged at different distances with respect to the holder, so that different forces are applied for a contact closure have to. Alternatively, the spring mountains or the wave spring valleys can also be designed to be of different heights, whereby different electrical contacts can likewise be closed as a function of the spring travel.

Further advantageous embodiments of the present invention and specific embodiments are explained below with reference to the figures. It shows:

1a , b: each a schematic representation of a spring element with an LED and two circuits,

2a -C: each a schematic representation of an open and two closed circuits with front side spring element and

3a -C: each a schematic representation of an open and two closed circuits with a spring element arranged at the end.

A first concrete embodiment of a spring element is in the 1a , b shown. In this case, the spring element is a wave spring 1 formed on a plate-shaped holder 2 is arranged and has several wave spring mountains 3 . 3 ' . 3 '' and wave spring valleys interposed therebetween 4 . 4 ' on. Further, on the plate-shaped holder 2 an LED 5 arranged, which is connected to two parallel circuits. A first circuit is through the electrical connections 6 . 7 formed, wherein the electrical connection 6 a resistor R ₁ and an electrical contact 8th that with the wave spring 1 connected is. Another circuit is through the electrical connections 9 . 7 given, with the electrical connection 9 an electrical contact 10 forms, in the relaxed state of the wave spring 1 is spaced from this (arrow 11 ). The electrical contact 10 can counteract the force of the wave spring 1 be connected to this, so that the more circuit through the terminals 9 and 7 closed is. In the 1a and b, for better comprehensibility, only the switching element is shown schematically, wherein was dispensed with further electrical connections and in particular on the representation of a current source. Details of the switch settings are the 2a -C and 3a -C. The embodiment according to the 1a and 1b differ only by a different positioning of the electrical contact 8th ,

In the 2a -C is schematically a switching position of a flashlight 21 shown. This essentially has a housing 22 , a battery 23 as well as in 1a illustrated switching element with wave spring 1 and LED 5 on. 2a shows the flashlight 21 in the off state. On the one hand the battery is on the one hand 23 with the pole 24 via an electrical connection 25 with the electrically conductive housing 22 and on the other hand with the pole 26 with the LED 5 and the contacts 8th and 10 and thus with the wave spring 1 connected, however, is the wave spring 1 from the case 22 spaced (arrow 27 ), so that no electrical circuit is closed. To close a circuit, the wave spring must be brought into contact only with the electrically conductive housing (arrow 28 ), which can be done for example by means of a rotary switch, so that the circuit via the wave spring 1 and thus is closed via the resistor R ( 1b ). This is the contact 10 continue from the wave spring 1 spaced (arrow 29 ). The further circuit can then be closed by the wave spring 1 is further compressed and the housing directly or indirectly with the electrical contact 10 is connected (arrow 291 ) ( 2c ). Because the electrical connection 9 has only its own resistance, which is smaller than the resistance R, the LED 5 operated with a larger current so that it shines brighter than when it is powered by the first circuit. In the illustrated embodiment, only two different circuits are shown, with an LED 5 are connected. Of course, however, three or more circuits and several LEDs in different colors can be provided.

In the 2a C shows an embodiment in which the switching device is arranged on the lamp head side. In contrast, the switching device can also be arranged endwise within a rotary switch, as shown schematically in the 3a C is shown. The operating principle is the same in this case. 3a shows a flashlight 21 in the off state, adding the contacts 8th' . 10 ' from the case 22 are spaced (arrow 34 ). Against the force of a contact-closing coil spring 31 that with both the pole 24 the battery 23 as well as with the electrical contact 32 connected, the housing can 22 with the wave spring 1 be connected (arrow 35 ), so the electrical circuit across the resistor 33 closed is ( 3b ). Upon further compression of the coil spring 31 and the wave spring 1 becomes the case 22 directly or indirectly with the contact 10 ' connected (arrow 36 ), so that the circuit is not closed via the separate resistor R, bringing the LED 5 brighter lights or what another LED 5 can be operated. For this purpose, if necessary, further connections or cabling are to be arranged.

Claims (6)

Flashlight with a housing ( 22 ) and at least one light emitting diode (LED) ( 5 ), the flashlight ( 21 ) can be operated in at least two different brightness ranges and / or with two different colors, characterized by at least two different electrical contacts ( 8th . 10 ; 8th' . 10 ' ) with different electrical resistances as well as a contact-closing spring element, which in response to a force with one or more of the electrical contacts ( 8th . 10 ; 8th' . 10 ' ), so that a circuit via different electrical contacts ( 8th . 10 ; 8th' . 10 ' ) closed is. Flashlight according to claim 1, characterized in that the spring element longitudinally relative to the housing ( 22 ) is movably mounted, wherein the spring element is arranged lamp head side or end in an end cap. Flashlight according to one of claims 1 or 2, characterized in that the spring element a on a holder ( 2 ) arranged wave spring ( 1 ) with wave spring mountains ( 3 . 3 ' . 3 '' ) and wave spring valleys ( 4 . 4 ' ). Flashlight according to one of claims 1 to 3, characterized in that the wave spring ( 1 ) on an electrical contact ( 8th . 8th' ), which has a resistance which is greater than the inherent resistance of the terminal ( 6 ), wherein the wave spring ( 1 ) in the relaxed state with no further electrical contact ( 10 . 10 ' ) connected is. Flashlight according to one of claims 1 to 4, characterized in that the wave spring ( 1 ) by a force with another electrical contact ( 10 . 10 ' ) having a resistance smaller than the resistance R. Flashlight according to one of claims 1 to 5, characterized in that the wave spring mountains ( 3 . 3 ' . 3 '' ) and wave spring valleys ( 4 . 4 ' ) each of the holder ( 2 ) are equally spaced, wherein the electrical contacts are arranged at different distances with respect to the holder, so that for a contact closure different forces must be applied.

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