DE202006014503U1 - Light emitting diode-illuminating device for use with e.g. flashlight, has convex lens moved relative to diode, where distance variation of diode relative to lens lies within dual focal length of lens and within preset range - Google Patents

Abstract

The device has a power supply device provided inside a main body (1), and a light emitting diode (LED) (21) electrically connected with the power supply device and fixed in the interior of a front part of the body. A convex lens (5) is arranged in front of the LED and moved relative to the LED. The distance variation of the LED relative to the lens lies within a dual focal length of the lens and within the range of 0-32 millimeters.

Description

The The present invention relates to an LED lighting device, in particular, an LED lighting device with the capability for fast adjustment of the focal length, which is suitable for many types of lighting fixtures how display lamps are applicable.

In everyday life, for example, flashlights are used as a portable lighting device. In conventional adjustable flashlights, the illuminance is adjusted by turning the lamp socket. As the bulb radiates the light spherically, it is moved between the rear and the front of the bulb in the reflective cup to adjust the illumination distance and power of the flashlight. However, this adjustment can not meet the real needs, because the adjustability of the illuminance and the distance to be adjusted of the bulb are limited. In addition, LED (light emitting diodes) are used as a light source, with lenses of the fully reflective cup for LED have already been used. However, the fully reflective cups of the bulb and the lenses of the fully reflective cups for LED can not very well realize the function of adjusting the illumination distance; In addition, the reflective cup blocks the adjustability of the distance, so that the range of change of the angle is very small, and so the light beams are not changeable at a considerable angle. As an example of a lighting device capable of adjusting the illumination distance, the following embodiment is shown.
Out CN 032249225 (Publication date: 28.04.2004) is known a flashlight of conventional structure with the ability to adjust the illumination distance. This flashlight consists of a sleeve body, a lamp socket connected to the sleeve body, a bulb located on the bulb socket, a reflective cup and a lamp head, a switch knob electrically connected to the bulb being provided on the bulb socket, and an LED (Light Emitting Diode) the border of the funnel-shaped through hole of the reflective cup is provided. The positive pole and the negative pole of the LED are respectively connected to the positive terminal and the negative terminal, whereby the positive terminal is again electrically connected to the positive terminal of the current source, and the minus pole lead contacts the sleeve body. Since the bulb and the LED are arranged in the same direction, the focus of their illumination distance is determined by the position of the bulb or the LED.

however be at the o. g. known structure of a flashlight two different light sources, namely a bulb and an LED, used, so that the illumination distance is determined by the position of the different light sources. The structure of the flashlight is complicated, so that further illumination removal can not be achieved. If a big one Distance up to 30 meters for situations like one modern war, a night fight of the police and a fight in the alley, between the upper and the lower floor and between two buildings should be adjusted, the light scattering is a good view prevent; but when a storm fight breaks out, where the participants into the building, storm onto the stairs and the door have to blow up, the lighting needs to be focused on a small point, no panoramic view, which requires a scattering light source. In addition, the generated by the reflective cup reflected light annular cone of light, which is easy cause an uneven light intensity, where it is light in the middle and darker at the edge.

• 1. dass die parallel zur Hauptachse befindlichen Lichtstrahlen nach dem Brechen durch den Fokus an der anderen Seite hindurchgehen werden,
• 2. dass die durch das Zentrum der Linse hindurchgehenden Lichtstrahlen ohne Brechen gerade verlaufen,
• 3. dass die durch den Fokus hindurchgehenden Lichtstrahlen nach Brechen gerade parallel zur Hauptachse verlaufen,
• 4. dass die Lichtstrahlen nach Hindurchgehen durch die konvexe Linse nach innen ausweichend sich brechen und somit fokussiert werden, und
• 5. dass konvexe Linsen Bilder aufbauen, gilt. wenn der Gegenstand sich an einem unendlich fernen Punkt befindet, wird er als ein Punkt am Fokus auf der anderen Seite der Linse gebildet; wenn der Gegenstand sich weiter als 2f befindet, wird er verkleinert an einer Stelle zwischen f-2f auf der anderen Seite der Linse gebildet; wenn der Gegenstand sich an der Stelle 2f befindet, wird er symmetrisch an einer Stelle 2f auf der anderen Seite der Linse gebildet; wenn der Gegenstand sich zwischen f und der Linsenfläche befindet, wird er vergrößert auf der gleichen Seite der Linse gebildet.

The invention is in particular the object of providing an LED lighting device with the ability to quickly adjust the focal length. Due to the properties of a convex lens, namely

• 1. that the light rays parallel to the main axis will pass through the focus on the other side after breaking,
• 2. That the light rays passing through the center of the lens are straight without breaking,
• 3. that the light rays passing through the focus after breaking are straight parallel to the main axis,
• 4. that the light rays, after passing through the convex lens, deflect inwardly and thus become focused, and
• 5. that convex lenses build images, applies. when the object is at an infinitely distant point, it is formed as a point at the focus on the other side of the lens; if the object is further than 2f, it is formed downsized at a position between f-2f on the other side of the lens; when the object is at point 2f, it is formed symmetrically at a position 2f on the other side of the lens; when the object is between f and the lens surface, it is formed enlarged on the same side of the lens.

there an LED is provided as the only light source, with the front End of the LED is arranged a convex lens. When adjusting of the focus, the convex lens can move forward and forward relative to the LED move backwards. To change the angle of light after breaking is not a reflective cup required. Thus, an advantageous lighting device which is small, a wide lighting area allows and can quickly adjust the focus.

to solution In the foregoing, the present invention provides an LED lighting device with the ability ready for quick adjustment of the focal length, mainly consisting from a main body, in the interior of which a power device is arranged; an LED, which is electrically connected to the power device and at the front End of the main body is attached; and a convex lens, which is placed in front of the LED is and can move relative to the LED, the relative to convex lens made distance change of the LED within the is twice the focal length of the convex lens.

in the Following are objects and advantages of the present invention with reference to the detailed description of the embodiments and the accompanying drawings be explained in more detail. However, the invention should not be limited to the description and the accompanying drawings limited be. Show it:

1 a three-dimensional exploded view of an embodiment of the invention;

2 a three-dimensional exploded view of another embodiment of the invention; and

3 a three-dimensional exploded view of a still further embodiment of the invention.

According to 1 For example, the present invention provides an LED lighting device capable of rapidly adjusting the focal length, particularly comprising a main body 1 a light-emitting element 2 , a sliding sleeve 3 , a pressure lid 4 and a convex lens 5 exists, being inside the main body 1 a power device (not shown in the figure) is provided which comprises a battery compartment and at least one battery; furthermore, they are a first one 11 and a second rest 12 provided on the external side, and a support body 13 is at the rear end of the main body 1 arranged.

The light-emitting element 2 has a circuit board 22 on, in front of an LED 21 is attached. The LED 21 has epoxy resin on its surface so that the LED 21 is designed as a light-condensing LED. Furthermore, at the front end of the circuit board 22 a light reflecting disc 24 glued, which serves for light reflection. At the rear of the circuit board 22 a conductive disk (not shown in the figure) is provided. The circuit board 22 is on a peg 23 attached, in front of the main body 1 is fixed, and the light-emitting element 2 is at the main body 1 attached. The LED 21 is through the circuit board 22 and the conductive disk (not shown in the figure) is electrically connected to the power device (not shown in the figure).

The sliding sleeve 3 is designed as a sleeve, at the front end of a pressure lid 4 is arranged, being between the pressure lid 4 and the sliding sleeve 3 a convex lens 5 is provided. The light reflecting disc 24 is between the LED 21 and the convex lens 5 arranged, with the convex lens 5 as a single convex lens or double convex lens can be performed. In this embodiment, a single convex lens is used. The LED itself 21 facing side of the convex lens 5 is flat and the other side is convex. The convex lens 5 is on the light path in front of the LED 21 intended. At the lower part of the sliding sleeve 3 is a vertical groove 31 arranged in the interior of an L-shaped trailer 32 is arranged, depending on the illumination distance in the first rest 11 or in the second rest 12 intervenes

In a further embodiment (see 2 ) is the sliding sleeve 3 at the main body 1 arranged and can be forward / or. Move backwards freely. At the main body 1 is a waterproof damping ring 14 arranged, with the sliding sleeve 3 is positioned by the frictional force caused by the friction with the damping ring 14 is produced. To avoid the omission of the sliding sleeve 3 from the main body 1 becomes the buttstock 23 to the main body 1 screwed connected, with the front end of the peg 23 larger than the inner diameter of the rear end of the sliding sleeve 3 is, so the set 23 on the sliding sleeve 3 can support.

In a further embodiment (see 3 ) becomes the sliding sleeve 3 by the on the outside of the main body 1 located fast screw thread 15 to the main body 1 screwed. To avoid the omission of the sliding sleeve 3 from the main body 1 becomes the buttstock 23 to the main body 1 screwed on, with the front end of the peg 23 larger than the inner diameter of the rear end of the sliding sleeve 3 is, so the set 23 on the sliding sleeve 3 can support.

As from the experimental data (I) in the table below, are two sentences of convex lenses for the experiment has been taken, with the diameter of the convex Lenses are each 38 mm and 22.8 mm. At one point, the 5 m before it is possible the convex lens with a diameter of 38 mm, the light source to bundle a cone of light with a diameter of 35 cm, and allows the convex lens with a diameter of 22.8 mm, the light source to a light cone with a diameter of 40 cm to bundle; at a point 30 m in front, the convex one allows Lens with a diameter of 38 mm, the light source to a Focus light cone with a diameter of 1.1 m, and the convex lens with a diameter of 22.8 mm allows the light source to a cone of light with a diameter of 2 m.

Experiment data (I)

In this experiment, first the light rays of the LED 21 itself bundled so that the light beam of the light source is refracted approximately at an angle of 140 degrees; then the position of the convex lens 5 has been adjusted, wherein the adjustment range within twice the focal length of the convex lens 5 remains. By adjusting the position of the light source, the light beam angle is changed by the light source through the convex lens 5 generated, the beam angle depends on the distance, and the range of change is between 6 to 120 degrees. Because the convex lenses 5 in the invention are of different sizes, the optimum distance to adjust the focal length is between 0 and twice the focal length of the convex lens 5 , Thus, the focal length is even faster adjustable.

At the convex lens 5 with a diameter of 22.8 mm, for example, the epoxy resin has the light source of the LED 21 Initially bundled at an angle of about 140 degrees so that the LED 21 forms a focused light source with a larger beam angle. When the relative distance between the LED 21 and the convex lens is 50 mm (eg so that the pendant 32 in the second rest 12 engages), the light will produce a beam of light at an angle of about 120 degrees after breaking. That is, the light scattering the sliding sleeve 3 such that the relative distance of the LED 21 to the convex lens 5 within twice the focal length (eg so that the trailer 32 in the first rest 11 engages). The light beam of the light source to be focused is through the convex lens 5 broken, wherein: if the angle of refraction is 6 degrees, a cone of light having a diameter of 40 cm is formed at a position 5 m in front of it by the bundling; and at a point about 30 m in front of it, the bundling produces a cone of light with a diameter of 2 m.

Because the LED 21 has high luminous intensity, and the invention focuses the light twice, the light condensing (the light source is within twice the focal length) and the light scattering (the distance between the light source and the convex lens 5 is 0) of the light source to be focused merely by adjusting the light beam angle (by 120 degrees ~ 6 degrees) that the LED 21 relative to the convex lens 5 moved (distance is between 0 mm and 32 mm). As a result, the light intensity in the Lighting at a great distance increases, and the lighting area is increased in the illumination at a small distance. Since no reflective cup is used, the illumination device will be small and the range for light beam changes becomes larger; In addition, the focal length is advantageous to adjust quickly.

For further detailed explanation: if the trailer 32 the sliding sleeve 3 in the first rest 11 of the main body 1 snaps into place, the light source to be collimated within twice the focal length will produce optimal light bundling, that is, the distance between the LED 21 and the convex lens 5 is largest, and the light beam angle is 6 degrees, assuming that the distance here represents the optimum distance to the adjustment of the focal length 13 mm; if the trailer 32 the sliding sleeve 3 gradually into the second rest 12 of the main body 1 engages, the movement distance from the first rest 11 to the second East 12 change from 13 mm to 0 mm, wherein the original light beam angle of the light source to be focused by the distance change of 6 degrees can increase to 120, and can be switched from light bundling to light scattering, ie from twice the focal length to 0. By repeating the above Action can be switched from light bundling to light scattering or vice versa.

According to the invention, the Size of the aperture be adjusted freely by adjusting the angle of refraction, with no uneven cone of light be incurred, so that the lighting device according to the invention a wide application in flashlights, combat lights for military and police Purposes, table lamps, searchlights, projection lamps and display lamps Can be found. In this case, the lighting device according to the invention depending on the distance and the size of the object to be illuminated be adjusted quickly and appropriately. In addition, the sliding sleeve is at all o. g. embodiments movable, and the LED is fixed. But if the sliding sleeve the LED lighting device with the ability for quick adjustment the focal length fixed executed is, and the LED is moving, is the relative Distance between the two also adjustable, and the lighting achieves the same effect.

The The above description represents only the preferred, executable embodiment of the invention and is not intended to limit the claims. All equivalent changes and modifications made using the description and the Drawings are made as to the invention include Protection of the present invention.

1

main body

11

first rest

12

second rest

13

support body

14

waterproof damping ring

15

fast screw thread

2

light emitting element

21

LED

22

circuit board

23

steady rest

24

reflective disc

25

transparent waterproof lid

3

sliding sleeve

31

vertical groove

32

pendant

4

pressure cap

5

convex lens

Claims (8)

LED lighting device capable of quickly adjusting the focal length, comprising: a main body ( 1 ), inside which a power device is provided; an LED ( 21 ), which is electrically connected to the power device and inside the front part of the main body ( 1 ) is attached; and a convex lens ( 5 ), in front of the LED ( 21 ) and relative to the LED ( 21 ), wherein the relative to the convex lens ( 5 ) distance change of the LED ( 21 ) within twice the focal length of the convex lens ( 5 ) lies. LED lighting device according to claim 1, characterized in that the LED ( 21 ) is designed as a light-bundling LED. LED lighting device according to claim 1, characterized in that the convex lens ( 5 ) as a single convex lens or double convex lens. LED lighting device according to claim 1, characterized in that at the front end of the main body ( 1 ) a sliding sleeve ( 3 ) is arranged, wherein at the front end of the sliding sleeve ( 3 ) a convex lens ( 5 ) is arranged so that the convex lens ( 5 ) through the sliding sleeve ( 3 ) relative to the LED ( 21 ) can move freely. LED lighting device according to claim 4, characterized in that on the main body ( 1 ) a waterproof damping ring ( 14 ) is arranged, on which the sliding sleeve ( 3 ) is attached. LED lighting device according to claim 4, characterized in that the main body ( 1 ) a quick screw thread ( 15 ), so that the sliding sleeve ( 3 ) with main body ( 1 ) can be screwed. LED lighting device according to claim 1, characterized in that the range of change of the distance in which the convex lens ( 5 ) relative to the LED ( 21 ) is between 0 mm and 32 mm. LED lighting device according to claim 1, characterized in that between the convex lens ( 5 ) and the LED ( 21 ) a light reflecting disc ( 24 ) is provided.