DE202004005448U1 - Torch has light emitting diode light source and the solar cell that charges energy storage device, device for aligning torch when laid on surface, enables long operating life and long working periods - Google Patents

Abstract

The torch has a housing (2), an energy storage device, a light source (3) and at least one solar cell (4), whereby the light source is a light emitting diode (LED) light source and the solar cell charges the energy storage device. The torch has a device for aligning the torch when laid on a surface so that solar cell always faces upwards, preferably parallel to the supporting surface.

Description

The present invention relates to a flashlight with a case, an energy storage device and a light source.

Flashlights are from the stand the technology known in different configurations. The so far Known flashlights use light bulbs and have energy storage devices Batteries on which are arranged in a battery compartment in the housing are. Because the lightbulbs used Consuming a relatively large amount of electricity is the operating time of the flashlight only relatively short, so that the batteries are changed relatively frequently got to.

Recently, so-called LEDs (Light Emitting Diodes) use. Such LED light sources are based on semiconductor connections, that can convert the electricity directly into light. Recently, LED technology has been used size Progress has been made to include blue and white light can be generated with LED light sources. This also makes an application of LEDs in flashlights interesting because the LED's compared to the conventional ones light bulbs have lower power consumption. This can increase the operating time a flashlight compared to the known conventional ones Flashlights with lightbulbs significantly extended become. However, the problem is not solved here either mostly in the unfavorable When the flashlight batteries run out, so the Flashlight is no longer ready for use.

It is therefore the task of the present Invention to provide a flashlight that has a long Operating time enabled and one if possible has a long service life. This object is achieved according to the invention a flashlight with the features of claim 1 solved. The under claims have advantageous developments of the invention the subject.

The flashlight according to the invention comprises a Casing, an energy storage device, an LED light source and a solar cell. The Solar cell on the energy storage device. The energy storage device can thus the flashlight during the day Solar cells are charged so that the energy storage device the flashlight almost always when using the flashlight is in the charged state.

The flashlight preferably has a device for aligning the flashlight in such a way that the solar cell of the flashlight placed on a surface is always directed upwards. This ensures that when the flashlight is lying down, the solar cells always at least approximately are directed towards the incident light to the charging process to enable the energy storage device. The facility for Aligning the flashlight can be, for example, a flattened one Opposite side of the flashlight be the solar cell or protruding from a cylindrical flashlight Areas in the form of feet, which also opposite the solar cell on the housing the flashlight are arranged.

A particularly compact flashlight is to be provided in the housing the flashlight has a recessed grip in which the solar cells are arranged. The recessed grip preferably has a flat surface floor area on, the solar cells being part of the flat floor surface. The attachment should be done so that the solar cells no over stand out from the bottom of the recessed grip, but with this one level area form. The housing of the flashlight is more preferably essentially tubular educated.

To avoid any protruding parts on the To have a flashlight is preferably an operating button for switching the flashlight on and off in the recessed grip arranged.

The recessed grip is particularly preferred with the integrated solar cells and the energy storage device and / or the actuation button designed as a pre-assembled module. This allows this to be pre-assembled Module simply in one in the housing formed opening be used. This results in considerable cost advantages in the manufacture and assembly of the flashlight. Furthermore, this can Color versions of the flashlight realized in a simple manner be, for example, the same module for different colored and / or used with a different shape designed housing of the flashlights becomes. A further cost reduction can be achieved if the recessed grip module to the LED light source by means of a plug connection or a resilient contact can be connected. This can make us faster secure contact between the energy storage device and the LED light source can be realized. The recessed grip module is in the housing preferably by means of a snap connection or a clamp connection attached.

The flashlight according to the invention further preferably comprises a connection element for charging the energy storage device. This will be another option given the charging of the energy storage device, if for example the torch should be charged when there is no light. Charging can take place, for example, via the existing power grid or about a cigarette lighter in a vehicle or similar respectively.

The housing is particularly preferably formed in three parts with a main part, a front end part and a rear end part. The LED light source is arranged in the front end part, the connection element for charging the energy storage device is arranged in the rear end part and in The main part is the solar cell and the energy storage device. This makes it possible to design the front and rear end parts of the flashlight as modules, which then only have to be joined together. The end parts can preferably be fastened to the main part of the flashlight by means of a screw connection or a latching connection or a clamp connection.

As an energy storage device preferably an accumulator and / or a capacitor is used.

The flashlight is further preferred waterproof. If the housing is made of several parts is preferably seals between the housing part connections arranged.

The following is with reference on the accompanying drawing an embodiment of a flashlight according to the invention described in detail. In the drawing is:

1 2 shows a partially sectioned top view of a flashlight according to an exemplary embodiment of the present invention,

2 a partially sectioned side view of the in 1 shown flashlight and

3 a sectional view taken along the line III-III of 2 ,

1 shows a top view of a flashlight according to the invention 1 according to a first embodiment of the present invention.

As in 1 shown includes the flashlight 1 a housing 2 which consists of three parts 2a . 2 B and 2c consists. The part 2a is a main part of the housing, the part 2 B a front end part and the part 2c a rear end part of the case. The end parts 2 B and 2c are with the main body 2a each connected by means of a threaded connection so that they can be quickly and easily detached from one another or connected to one another by hand.

The flashlight also includes 1 three LED light sources as light sources 3 which in the front end part 2 B are arranged. The housing 2 the flashlight 1 is essentially cylindrical and has a recessed grip 5 in the main part 2a on. How out 2 can be seen, the recessed grip 5 an essentially flat surface on which several solar cells 4 are arranged. The solar cells 4 form with the edge of the recessed grip 5 the flat surface. It is also in the recessed grip 5 another push button 7 arranged to turn the flashlight on or off. The actuation button 7 has a height which is equal to or less than the depth of the recessed grip 5 is. As a result, the actuation button stands 7 not over the outer circumference of the housing with the flashlight.

At the rear end part 2c the housing is also a connector 12 for charging an energy storage device 6 intended. The energy storage device 6 is in 3 schematically shown and should be a rechargeable battery in this embodiment.

How further out 3 can be seen are the solar cells 4 and the energy storage device 6 as a common module 8th formed which as a module before assembly in the housing 2 be pre-assembled. In the housing 2 are several tabs 11 trained and on the module 8th several latches 10 provided, which in the assembled state behind the projections 5 snap in and thus the module 8 on the housing 2 Fasten. It should be noted that the module 8th for example by gluing to the housing 2 can be attached. An attachment by means of a snap connection 9 However, it has the advantage that the module can be detached from the housing in a non-destructive manner and, for example, after a certain period of use, if the performance of the rechargeable batteries should decrease, they can simply be replaced.

The energy storage device 6 is with the LED light sources 3 connected via a plug connection, not shown. Another possibility is to provide a spring-loaded contact between the LED light sources 3 and the energy storage device 6 ,

The flashlight according to the invention 1 The energy storage device can thus use daylight or artificial light via the solar cells 6 charge so the flashlight easily with the solar cells 4 must be stored facing upwards. This can improve the operational readiness of the flashlight. To ensure that the solar cells 4 always pointing upwards, an additional alignment unit can be provided on the flashlight. This can be a flattened area on the housing, for example 2 be which of the solar cells 4 exactly opposite, so the flashlight 1 cannot roll away automatically.

Claims (13)

Flashlight comprising a housing ( 2 ), an energy storage device ( 6 ), a light source ( 3 ) and at least one solar cell ( 4 ), the light source ( 3 ) is an LED light source and the solar cell ( 4 ) the energy storage device ( 6 ) charges. Flashlight according to claim 1, characterized by a device for aligning the flashlight placed on a surface such that the solar cell ( 4 ) is always directed upwards, preferably parallel to the ground. Flashlight according to one of the preceding claims, characterized in that in the housing ( 2 ) a recessed grip ( 5 ) is formed and the solar cell ( 4 ) in the recessed grip ( 5 ) is arranged. Flashlight according to claim 3, characterized in that the recessed grip has a flat bottom surface, the solar cell ( 4 ) is part of the flat floor area. Flashlight according to claim 3 or 4, characterized in that an actuating button ( 7 ) to switch on and / or switch off the flashlight in the recessed grip ( 5 ) is arranged. Flashlight according to one of claims 3 to 5, characterized in that the recessed grip ( 5 ) with the solar cell ( 4 ) and the energy storage device ( 6 ) and preferably the control button ( 7 ) as a pre-assembled module ( 8th ) are formed, which in a in the housing ( 2 ) opening formed can be used. Flashlight according to one of the preceding claims, characterized in that the energy storage device ( 6 ) with the LED light source ( 3 ) can be connected by means of a plug connection or a resilient contact. Flashlight according to claim 6 or 7, characterized in that the module ( 8th ) in the housing ( 2 ) by means of a snap connection ( 9 ) or a clamp connection can be attached. Flashlight according to one of the preceding claims, characterized by a connecting element ( 12 ) for a connection to an energy source for charging the energy storage device ( 6 ). Flashlight according to one of the preceding claims, characterized in that the housing ( 2 ) in three parts with a main part ( 2a ), a front end part ( 2 B ) and a rear end part ( 2c ) is formed, with in the front end part ( 2 B ) the LED light source ( 3 ), in the rear end part ( 2c ) the connection element ( 12 ) and in the main part ( 2a ) the solar cell ( 4 ) and the energy storage device ( 6 ) is arranged. Flashlight according to one of the preceding claims, characterized in that the two end parts ( 2 B . 2c ) by means of a threaded connection or a detachable snap connection on the main part ( 2a ) can be attached. Flashlight according to one of the preceding claims, characterized in that the energy storage device ( 6 ) is an accumulator or a capacitor. Flashlight according to one of the preceding claims, characterized characterized in that the flashlight is waterproof.