DE202009003319U1 - flashlight - Google Patents

Abstract

Flashlight (1) comprising at least one luminous means (9) and at least one device (10) for connecting the at least one luminous means (9) with electric current, wherein the at least one luminous means (9) comprises at least one light diode, characterized in that the Device (10) for wiring with electric current, a printed circuit board (8) having at least two contact surfaces (V +, A1, A2, G1, G2, B1), wherein the at least two contact surfaces (V +, A1, A2, G1, G2, B1) are frictionally connected to at least two contact springs (7), and by twisting the printed circuit board (8), the at least two contact springs (7) connect differently with electrical current.

Description

The The invention relates to a flashlight, comprising at least one Illuminant and at least one device for wiring the at least one lamp with electric current, wherein the at least one lamp comprises at least one light diode.

Known Flashlights in rod form usually have a rod-shaped battery housing Pick up of rod batteries on, a screw on the bottom of the battery case and a removable reflector into which a light source can be inserted is. For wiring the lamp with electric current on the body of the battery case usually a slide switch is present, over which the flashlight can be switched on and off and in many versions this switch a position in which the flashlight for a short time can be switched on by light pressure on the switch. These flashlights designed in this way serve their purpose for most people Applications in a satisfactory way. Show older flashlights as a lamp, battery-operated lamps with a filament, being the filament sensitive to shock or shake reacts, in which the coil in the highly heated state ruptures when shaken. newer Flashlights have to increase the Luminous efficacy on other bulbs, such as xenon high-pressure lamps, in which instead of a filament a plasma of ionized noble gas is used as the light source. Still other flashlights have to further increase the light output Light emitting diodes, wherein light emitting diodes have the disadvantage of monochromatic Having light, the illumination of an object for the human Eye unfamiliar, hence weak, because only in one color range creates existing contrasts. To avoid this disadvantage, one is passed to Equip flashlights with different LEDs, which shine in different, narrowband spectral ranges. To control these light-emitting diode modules, it is necessary at least to switch a current limit between power source and LED. Because the different types of LEDs vary in brightness it is also necessary to change the current of the different To adapt LEDs to a decent white and high contrast To generate light. The current limit is usually electronic made and for that necessary electronics will be in a designated volume of Flashlight housed and usually with a microswitch switched on and off.

At Flashlights for equipment of emergency personnel in public Service, such as police, civil protection, fire or security services but also to the equipment Soldiers have particularly high demands in terms of durability, Reliability, Low maintenance and repair capability posed. It is important that the flashlights are insensitive across from Wetness, frequent Switching and intensive use with frequent on-off operations. These High demands are usually made by known flashlights not fulfilled.

task The invention is therefore to provide a flashlight available which meets the above-mentioned high requirements.

The inventive task is solved by that the device for shading with electric current a printed circuit board having at least two contact surfaces, wherein the at least two contact surfaces with at least two contact springs friction are connected, and by twisting the printed circuit board the at least two contact springs different with electric current wired. Further advantageous embodiments of the invention are in the subclaims specified.

The inventive pocket light draws characterized by the fact that for shading the bulb, here light-emitting diodes, a printed circuit board is used that with contact springs in frictional Connection stands. This circuit board connects the contact springs at different rotational positions with a different electrical current pattern. Especially on this circuit is that this printed circuit board as a switch assembly especially easily replaceable. Especially with equipment of large teams with the same type of flashlight allows this interchangeability of the frequent Use easily wearing Switch a high reliability and easy repair, what the total cost of maintaining large quantities of identical flashlights reduced. Would however, an electronic microswitch is used to control the electronics for the Switching the power supply of the LEDs on and off again, would it be with necessary to replace the microswitch in case of repair, which is usually firmly connected to the battery case or embedded in it is.

In Embodiment of the invention is provided that the contact springs Part of a battery module are inserted into the rod-shaped housing of the flashlight becomes. To connect the bulbs are the contact springs as a replaceable part of the battery module opposite a easily interchangeable printed circuit board twisted.

In Another embodiment of the invention is provided that the at least a device for wiring comprises an electronic circuit, between the at least one light source and at least one the at least two contact springs is connected, wherein the at least a contact spring electrical current to signal a logical State to the electronic circuit forwards. Depending on the position the contact surfaces on the printed circuit trace different switching patterns result, the of the control electronics for the LEDs used as bulbs are evaluated and depending of which the LEDs connected accordingly. Wired the electronic circuit depending on the signaled logical state the at least one bulb with continuous electric current or with electric current pulses. The wiring with continuous electric current, being continuous electrical current is limited by the electronic circuit, leads to maximum performance and thus the highest Brightness level of the so-called light-emitting diodes.

Around to reduce the brightness of the flashlight is provided that the light emitting diodes are charged with current pulses, wherein the Power pulses supplied with such a high frequency of the LED be that the human eye generated by the current pulses Does not perceive light pulses as a flashing light. The frequency is thus higher than about 20 Hz and can be up to 200 kHz. There are even higher frequencies conceivable, but then have to activities be taken that the flashlight no radio communication disturbing Sends out signals, which would unnecessarily increase the price of the flashlight. to Adjusting the brightness is not the frequency decisive, but the pulse-pause ratio, through which the average light output of the light-emitting diode thus controlled is set. If, on average, the switched-on state, ie the state in which the current pulse is applied to the lamp, 10% -15%, the Total time, then a brightness reduction can be achieved, which is essentially proportional to the quotient of current pulse and Sum of current pulse and pause duration of a switching cycle is. It is but possible, that deviations occur. These deviations arise from the Characteristic of the sensitivity of the human eye at different brightnesses, not pure rectangular current pulses, with which the bulbs be driven and component-specific parameters.

Around the relative brightness of different, inserted bulbs to vary, it is provided that at least two used Illuminants are present, the electronic circuit at least two lamps individually with continuous electric Electricity or charged with electric current pulses. This allows the different lamps in their characteristic adapted to each other become. The variation of the relative brightness of different bulbs In addition to the adjustment of the characteristic has the advantage that the luminescent color the flashlight can be adjusted.

Next an operation with white, red, blue, greener and yellow color is also an operation with ultraviolet light or possible with infrared light. For this It has proved to be advantageous if, for example, in combination operation with ultraviolet light, the bulbs for the ultraviolet light not shine together with the visible light at the same time. For example in the inspection of crime scenes under ultraviolet light for visualization Of traces, it is advantageous if, in addition to the ultraviolet light even visible light shines, but the two light sources at different, though imperceptibly short, times shine, if necessary, fluorescent markers not visible To disturb light. In combination operation with infrared light helps the reciprocal Switching on the bulbs, on the one hand an infrared sensitive Camera to illuminate the scene, on the other hand may be a lesser Proportion of visible light can be blended to the human Eye light to see available to deliver. Whether the light sources mutually or not mutually but to be switched with different pulse-pause ratio depends on desired Use case.

Another operating state is the flashing state in which the flashlight flashes alternately, either with one color or with more than one color. If a frequency in the upper frequency range is used for the human eye, and a flashing alternately with more than one color is selected, with the flashlight, for example, in the back and forth or by generating a circular signal by panning in the circle a multicolored circle or arc be generated. These signals can be used as widely visible and differentiable emergency or information signals. When using a flashing signal with only one color, a Morse code can also be given according to the Morse alphabet. Thus, it has proven to be advantageous if an SOS signal is generated as a fixed operating program, that is represented by the blinking sequence Short-Short-Short-Long-Long-Long-Short-Short-Short, where "short" for a short pulse and "Lang" stands for a long Impls. Another possibility of using flashing signals is when a letter is sent out according to the Morse alphabet in a first color, followed by a letter in a second color, because thereby the recipient has the possibility of different, successive to distinguish between the following letters more easily

The The invention will be explained in more detail with reference to the following figures. It shows:

1 a Tachenleuchte invention in an exploded view,

2 a usable in the lamp according to the invention printed circuit board as a switching element,

3 a block diagram of the control electronics of the flashlight according to the invention,

4 a more detailed block diagram of the flashlight invention.

In 1 is a pocket light according to the invention 1 illustrated, comprising a lower battery case 2 with molded on the surface tread grooves 3 for better tangibility of the flashlight 1 , In the battery case 2 a battery module is used 3 that for taking batteries 4 is provided and at his to a reflector assembly 5 pointing side a spring contact arrangement 6 having, wherein the individual spring contacts 7 in electrical contact with the batteries 4 stand and in the longitudinal direction of the battery module 3 are movable against a spring force. The spring contacts 7 stand in the mounted state of the flashlight 1 in frictional engagement with a printed circuit board 8th that are part of a bulb assembly 9 is, in which also a control electronics 10 is present, the yes after Beschaltungsmuster their electrical inputs and outputs, the bulbs in the bulb assembly 9 differently charged with electric current. The battery module 3 is for mounting longitudinally in the lower battery case 2 used, however, the lighting arrangement 9 in the reflector 5 used here, means not shown here ensure that the battery module 3 rotatably in the battery case 2 sits and that the bulb assembly 9 rotatably in the reflector assembly 5 sitting. For final assembly, the units are made of lamp arrangement 9 and reflector assembly 5 on one side and the arrangement of battery module 3 and battery case 2 with each other via a thread 11 screwed together. To the printed circuit board 8th opposite the spring contacts 7 to twist, it is provided that the unit of reflector assembly 5 and lighting arrangement 9 is rotated in the thread. Thus, the entire pocket light according to the invention is minimally opened and closed when switching. The above-mentioned circuit board 8th will be in the next 2 shown in more detail.

In 2 is a plan view of the circuit board 8th represented, which has a central contact surface V +, which upon rotation of the circuit board 8th against the contact springs 7 does not lose its electrical contact because it lies in the fulcrum. A second contact surface G is designed as a concentric arc around the central contact surface V +. An outermost also concentric with the central contact surface V + contact surface B1 spans the same angle, but this contact surface B1 is much larger than the contact surface G due to their outer layer.

Between the arcuate contact surface B1 at the outer end and the inner contact surface G in the inner of the circular circuit board 8th There are two concentric arcuate tracks formed as discontinuous contact surfaces and used to rotate the reflector assembly 5 in different positions a different wiring pattern of the contact springs 7 that with the circuit board 8th in frictional and thus electrically conductive connection are to produce. The effect of this different wiring will be explained with reference to the following figures, in which block diagrams of the in the lamp assembly 8th housed electronics are shown.

In 3 a block diagram is shown, wherein the block diagram is a first module 20 essentially comprising the electronics from the integrated circuit IC1 and the microcontroller IC3 of the lamp arrangement 9 exists and a second module 21 includes that from a part of the battery module 3 and the circuit board in the lamp assembly 8th consists. In the module 21 is achieved by setting a wiring pattern of different inputs and outputs of the electronics in the lamp assembly 8th a function of the electronics in the lighting arrangement 8th activated. The electronics in the lamp arrangement 8th limits the electrical current flowing through the at least one light emitting diode and connects the at least one continuous current or current pulse LED, the frequency being less than about 20 Hz, if it is desired that a flashing light is generated by the current pulses and above about 20 Hz Hz, if a reduction in the total brightness is to be achieved by the current pulses. The frequency about 20 Hz is the cutoff frequency at which a human eye can no longer distinguish a flashing from a lower average brightness. In a special embodiment of the invention, it is provided that the two frequencies are superimposed, that is to say a frequency below 20 Hz and a frequency clearly above 20 Hz, when flashing with reduced brightness is desired.

The interaction of the circuit board 8th he bulb arrangement 8th and the contact springs 7 is in 4 explained in more detail.

In 4 is a block diagram showing only a light emitting diode LED2 shown, with a button SW1 is provided when the LED is to light up only briefly on request. LED2, battery U1 and button SW1 are all in common with a pole on contact G of the printed circuit board via a contact spring 7 connected. To turn off the flashlight, the reflector assembly 5 twisted so far that the contact surface G of the circuit board 8th with none of the contact springs 7 in contact. In all other positions, the flashlight is connected to electrical current flowing through the central contact surface V + and the contact surface G in the electronics. The outer contact surface B of the circuit board 8th connects the positive pole of the light-emitting diodes, this contact running synchronously with the wiring through the contact G. The remainder remain the contact tracks A and G, through which a logic pattern is switched to the electronics. The contact surfaces in 2 show three combinations, G2 and A2, A2, and the combination G1 and A1. These three combinations lead to the connection in stand-by mode (activation of the LED by a push-button), permanent circuit with continuous current and wiring with a pulsed current.

In a special embodiment of the invention, it is provided that the exchangeable lamp arrangement 8th his own circuit board 8th through which the electronics are supplied by two tracks with electric current, and three pure, by which a certain current pattern can be given to the three inputs A, G and B to select different modes he flashlight, such as continuous on, flashing light , SOS signal, different colored flashing signal of different frequency and one or more states with darkened brightness of the bulbs.

1

torch

2

battery case

3

battery module

4

battery

5

Reflektoranordnng

6

Spring contact assembly

7

contact springs

8th

circuit board

9

Lamp positioning

10

control electronics

11

thread

V +

contact area

G

contact area

B

contact area

A1

contact area

A2

contact area

G1

contact area

G2

contact area

B1

contact area

B2

contact area

A

Contact track

B

Contact track

G

Contact track

Claims (11)

Flashlight ( 1 ), comprising at least one light source ( 9 ) and at least one device ( 10 ) for connecting the at least one light bulb ( 9 ) with electric current, wherein the at least one light source ( 9 ) comprises at least one light diode, characterized in that the device ( 10 ) for wiring with electrical current, a printed circuit board ( 8th ) having at least two contact surfaces (V +, A1, A2, G1, G2, B1), wherein the at least two contact surfaces (V +, A1, A2, G1, G2, B1) with at least two contact springs ( 7 ) are frictionally connected, and by rotation of the printed circuit board ( 8th ) the at least two contact springs ( 7 ) with different electrical power. Flashlight according to claim 1, characterized in that the contact surfaces (V +, A1, A2, G1, G2, B1) part of a battery module ( 3 ) are. Flashlight according to one of claims 1 or 2, characterized in that the at least one device ( 10 ) comprises an electronic circuit for connection, which between the at least one lamp ( 9 ) and at least one of the at least two contact springs ( 7 ), wherein the at least two contact springs ( 7 ) electrical current for signaling a logic state to the electronic circuit ( 10 ) hand off. Flashlight according to claim 3, characterized in that the electronic circuit ( 10 ) in dependence on the signaled logical state, the at least one light source ( 9 ) are connected with continuous electric current or with electric current pulses. Flashlight according to claim 4, that at least two light sources ( 9 ), the electronic circuit ( 10 ) the at least two bulbs ( 9 ) individually charged with continuous electric current or with electric current pulses. Flashlight according to claim 5, characterized in that that the current pulses have a lower frequency than 20 Hz for generation have a flashing light. Flashlight according to claim 6, characterized in that the flashing light to the beat of a Mor se signal, preferably in time with an SOS Morse signal flashes. Flashlight according to claim 5, characterized in that the current pulses have a frequency of 20 Hz to 200 kHz, wherein the electronic circuit ( 10 ) the pulse-pause ratio varies depending on the logic state. Flashlight according to one of claims 5 to 8, characterized in that the at least two lighting means ( 9 ) are charged with current pulses at different times. Flashlight according to claim 9, characterized in that the at least two lighting means ( 9 ) Emit light of different spectral composition, which is a combination of different colors of visible light, a combination of visible light and ultraviolet light, or a combination of infrared light and visible light. Flashlight according to one of claims 1 to 10, characterized in that the printed circuit board ( 8th ) and the at least one light source ( 9 ) is summarized as a module and in a screw-off reflector ( 5 ) is provided, wherein means for rotationally fixed connection of the printed circuit board with the reflector are present, which the module during rotation of the reflector ( 5 ) in the mounted state with respect to the contact springs ( 7 ) twisted.