DE202005020734U1 - Hazard beacon for identifying flight obstacles, has cylindrical supporting unit with number of assembling spaces for arrangement of diodes on lateral surface of unit, where spaces have mounting surface inclined to symmetrical axis of unit - Google Patents

Abstract

The beacon has a cylindrical supporting unit (1) with a number of assembling spaces for the arrangement of diodes on a lateral surface of the unit, where the spaces have a mounting surface that is inclined to a symmetrical axis of the unit. Mounting boreholes are provided in the mounting surface, where the boreholes lie in a line parallel to the axis. A number of cooling pins running parallel to the axis is provided inside the unit.

Description

The The invention relates to a danger fire for the identification of Flight obstacles.

hazard fire of this kind are on buildings or facilities that may constitute an obstacle to flight. Corresponding In their exposed work site, the danger fires are relatively direct to the environmental influences exposed. According to their purpose and their limited accessibility There are high demands on their service life as well as on their own Reliability.

The today's availability enabled by high-intensity LEDs the fulfillment the requirements with low energy consumption.

In order to the aircraft to be warned from a long distance on the existing Danger can be pointed out should the intensity of the emitted light comply with the relevant regulations. Because tall buildings, towers, Wind turbines etc. but often are also located in residential areas, but at the same time also the light distribution neither exceed nor fall below prescribed values. These increased demands for danger fires are in the ICAO Annex 14, Table 6-3, Type B and C.

Of the Invention is based on the object, an improved danger fire propose.

The Task is characterized by a danger fire with the specified in claim 1 Measures resolved.

advantageous Further developments of the invention are the subject of the dependent claims.

As also known from the prior art danger fires, points the danger of the invention a cylindrical support member having a plurality of mounting locations for Arrangement of lighting elements on the lateral surface of the cylindrical support element on.

to Improvement of the radiation characteristic are the mounting surfaces of the Assembly stations, unlike the prior art, with respect to an axis of symmetry "S" of the cylindrical Supporting element inclined. This creates trapezoidal mounting surfaces the lateral surface of the cylindrical support element.

By this feature and / or through the use of narrow-banding Optics is it possible to have one predetermined emission characteristic with upper and lower limits for the to maintain radiated intensity, with simultaneous enabling the simple and reliable Mountability of the lighting elements and the realization of a good Heat transfer between the luminous element and the support element. The mounting surfaces have opposite the symmetry axis at an angle between 0.1 and 1.5 degrees, depending after used optics.

In every surface mounting holes are provided, which in one to the axis of symmetry lie the support element parallel line. This allows the lighting element (without Aufstrereuoptik) particularly easy with multifunctional bolts attached to the support element and fastened. The multi-function bolts provide at the subsequent Placing the Aufstrereuoptik for their exact vertical orientation.

On The top of flight obstacles often have more extreme temperature and airflow conditions as on the ground, extending beyond can also change very fast and extremely. The emitted light intensity of the used Light sources (LEDs) are inherently temperature dependent. Therefore is it for the danger fire especially important from the lighting elements additionally Heat generated again effectively to be able to deliver to the environment.

By heat dissipating Measures and / or Electronic control becomes a constant light intensity of the danger fire independent of the ambient temperature reached

To For this purpose, the support element is hollow cylindrical for free flow performed by the ambient air and are on the inside of the support member a plurality of cooling fins provided, which run parallel to the axis of symmetry. Consequently The inside can effectively be used to remove the heat generated be over there the outside the danger fire only a small part of the resulting heat are dissipated can.

Around this heat transfer performance on the environment as possible To keep high, are very many very narrow cooling fins intended. To reduce this effect no more than necessary, are only where on the outside Mounting holes are provided on the inside cooling fins provided whose thickness is greater than The diameter of the mounting holes is to maximize heat dissipation to enable.

In the proposed danger fire in a first plane perpendicular to the axis of symmetry a predetermined number of mounting locations can be provided with the same distance from each other, and in a second, perpendicular to the axis of symmetry plane the same number _of mounting positions in turn with the same distance be provided from each other. With provision of two or more rows on the tubular or cylindrical support member, it is of considerable advantage in view of the horizontal intensity distribution when the mounting locations provided in the different planes are offset from one another.

The light elements used in the danger fire include an LED board, LEDs, collimator lenses, lens holders and scattering optics, wherein the Aufstrereuoptiken after their attachment in front of the collimator lenses through the multi-function bolts parallel to the vertical axis of symmetry are aligned while the multifunction bolts at the same time the LED board with lens holder and lens on the mounting surface fix. Advantageously, between the collimator lens and the optics holder arranged an elastic element that for a precise and for the optical functioning indispensable elastic positioning the lens on the LED ensures.

to Achieving a uniform horizontal intensity distribution the Aufaufreuoptik has a plurality of parallel Lichtbrechelementen on which are located on the inside of Aufstreuoptik and after placing the Aufrereuoptik on the previously mounted LED board with the on her arranged optical components, through the multi-function bolts parallel to the symmetry axis "S" of the carrying element are aligned.

The Collimator lens serves to light the light emitted from the LED panels of the LED boards preferably leaves the light elements in parallel. For this The collimator lens is fitted with a socket on the collar of the LED housing placed on the LED board located LED and is in the collimator lens a recess provided in the mounted on the LED housing Condition of the light-emitting part of the LED enclosed by the recess becomes. This poses, along with the elastic mount of the lens in the lens holder (see above) a defined and centered positioning between LED element and collimator lens safe and thus one possible effective and parallel, and related to the LED board, vertical Emission of light rays.

Around then as possible constant light intensities to be able to make sure when the environmental conditions change extremely rapidly one or more temperature sensors are provided on the support element itself. The output signal of these temperature sensors is a control device supplied which is thus in the position, the lighting elements supplied Current characteristic under consideration to adjust the output signal of the temperature sensors. A change the emitted light intensity Due to temperature fluctuations this is only in very narrow Borders possible. Ensure the large-scale, with the outside air in contact with cooling fins in the open inner region of the support element.

Around the legally compliant period of use of the danger fire as possible To keep high, the lighting elements are redundantly connected. This is a continued operation at fulfillment The regulations also possible in case of failure of individual LEDs.

The individual features of the subclaims can be individually and in each any combination with the features of claim 1 combined become.

The Invention will be explained in more detail with reference to FIGS.

The 1 shows a support element with some exemplary luminous elements.

The 2 shows a luminous element from the side, applied to the support member

The 3 shows a lens.

In the 1 is with 1 a support element, with 2 a mounting place, with 3 a lighting element, with 4 a cooling fin, with 5 an LED board, with 7 a Aufstreuoptik, with 9 a multifunction bolt and with 10 a lens holder. With "S" the axis of symmetry of the support element is designated.

The cylindrical support member is hollow cylindrical or tubular and is made of aluminum. It is in one piece.

On the lateral surface of the cylindrical support element 1 are a number of assembly places 2 recognizable. Every assembly place 2 has a mounting surface and at least two mounting holes, which are provided one above the other, ie in a line parallel to the axis of symmetry.

Like from the 1 As can be seen, the mounting surfaces are trapezoidal. This figure arises because the mounting surface is flat, and is inclined relative to the outer wall of the lateral surface or relative to the axis of symmetry of the cylindrical support element. The inclination angle α of the surface is between 0.1 to 1.5 degrees, depending on the optics used. Corresponding 1 the inclination goes up.

In the 1 four assembly stations - two per horizontal plane - are shown by way of example. The number of mounting positions per horizontal plane and the number of levels one above the other depends on the intensity requirement of the rule to be fulfilled.

On the inside of the cylindrical support member are a plurality of cooling fins 4 intended.

These run vertically or parallel to the axis of symmetry "S" of the cylindrical support element 1 , The cooling fins are aligned with the center of the cylindrical support element. To increase the cooling effect are as many cooling fins 4 provided so that the single fin is relatively thin. However, where mounting holes are provided on the outside, which are in the 1 the places where multi-function bolts are used, thicker cooling fins provided to a reliable attachment of the lighting elements 3 to enable. The cooling fins at these locations are significantly thicker than the diameter of the mounting holes.

The assembly places 2 the upper level are offset from the mounting positions of the lower level by half the width of a mounting place. Depending on the number of assembly stations per level and number of levels, the offset can be any width proportions of a mounting location.

The lighting elements 3 are from the 2 better visible. With the exception of an elastic element 8th for the elastic positioning of the lens on the LED, the LED 14 and the light emitting part of the LED 15 are all elements of the 2 also from the 1 seen.

The LED board 5 has a flat base, which on the flat mounting surface of the assembly space 2 is arranged so that the multifunction bolt 9 through it in a mounting hole of the support element 1 can be screwed and at the same time the LED board attached to the support element. The LED board has an LED element 14 ' 15 on, the light gives off. The light emitted by the LED element has a beam angle of up to 120 degrees. To make this light largely parallel light is the collimator lens 6 provided, as, from 3 seen, a lens base 11 and a recess 12 having. A lens holder mounted on the LED board holds and positions the lens on the LED. The lens base 11 is placed on the LED that the LED element 15 the LED board 5 in the recess 12 the lens 6 is arranged.

Between the lens 6 and the lens holder 10 is the elastic element 8th , By means of the two multi-function bolts 9 now become the LED board 5 with attached lens 6 , glued lens holder 10 with elastic element 8th on the mounting surface of the assembly station 2 screwed. Then the Aufstreuoptik provided with positioning holes or positioning forks 7 , guided by the upper part of the multi-functional bolts 9 over the lens 6 aligned, positioned and fastened.

The multi-functional bolt 9 therefore serves both for mounting the LED board with attached lens and lens holder on the mounting station as well as for the exact vertical alignment of the Aufstrereuoptik after placement on the unit of lens and lens holder.

The Aufstreuoptik 7 has a plurality of light refraction elements 13 on. These serve to achieve wide-angle and uniform scattering of the light collimated by the lens while maintaining collimation in the vertical region.

The refractive elements 13 are mounted on the inside of the Aufstrereuoptik. They are vertical. From the 1 For reasons of illustration, only a few of these prismatic protrusions can be seen, which are provided on the inside of the scattering optics. The number of refractive elements depends on the horizontal Aufstreuwinkel to be achieved.

Not shown in the figures are sensor elements for determining the temperature of the cylindrical support element 1 , Also not shown is the control device which controls the current supplied to the lighting elements such that the emitted light intensity remains constant. For this purpose, the control device takes into account the light output stored in a memory as a function of the temperature of the LED elements as well as the output signal of the temperature sensors.

The individual lighting elements 3 are interconnected so that in case of failure of a single luminous element, the neighboring lighting elements whose task as far as possible with take over.

Claims (13)

Danger fire with a cylindrical support element ( 1 ) with a plurality of assembly stations ( 2 ) for the arrangement of luminous elements ( 3 ) on the lateral surface of the cylindrical support member, wherein the mounting locations have a mounting surface which is inclined to an axis of symmetry of the cylindrical support member. A danger fire according to claim 1, characterized in that the mounting surfaces with respect to the axis of symmetry an angle (α) between 0.1 to 1.5 degrees. A hazard fire according to claim 1, characterized that in every mounting surface at least two mounting holes are provided in a for Symmetry axis parallel line lie. A danger fire according to claim 1, characterized in that the support element is hollow cylindrical, and that on the inside of the support element a plurality of cooling fins ( 4 ) are provided, which run parallel to the axis of symmetry. A danger fire according to claims 3 and 4, characterized that where on the outside the support element mounting holes are provided on the inside cooling fins are provided, whose thickness is greater than the diameter of the mounting holes projecting into them is and that the Thickness of the rest cooling fins less than the diameter of the mounting holes arranged cooling fins is. A hazard fire according to claim 1, characterized that in a first, perpendicular to the axis of symmetry plane a predetermined number of assembly sites with the same distance from each other are provided that in a second, perpendicular to the axis of symmetry Plane the same number of mounting locations equidistant from each other and that the assembly areas provided in the first level are opposite to the offset in the second level provided assembly stations. A danger fire according to claim 1, characterized in that the lighting elements an LED board ( 5 ) with LED ( 14 ), a collimator lens ( 6 ) with lens holder ( 10 ) and elastic element ( 8th ) and a separately attached Aufrereuoptik ( 7 ), wherein the individual luminous element without Aufstreuoptik ( 7 ) with multifunction bolts ( 9 ) is attached to the mounting surface A hazard fire according to claim 7, characterized in that between the lens holder ( 10 ) and the collimator lens ( 6 ) an elastic element ( 8th ) is arranged, which is an elastic, stress-compensating, positioning and centering of the collimator lens ( 6 ) on the LED ( 14 ) in the process of attaching the lens holder ( 10 ) on the LED board ( 2 ). The elastic element ( 8th ) the shape may have an O-ring. A hazard fire according to claim 7, characterized that the scattering optics has a multiplicity of light-refraction elements, which are arranged in parallel on the inside of Aufstreuoptik. A hazard fire according to claim 7, characterized in that after passing through the multi-function bolts ( 9 ) guided placement of Aufstreuoptik on the lens holder, the Aufaufreuoptik ( 7 ) is positioned exactly such that the light-breaking elements ( 13 ) are aligned parallel to the axis of symmetry ("S") of the support element. A hazard fire according to claim 1, characterized in that the collimator lens ( 6 ) a lens base ( 11 ) for centering on the collar of the LED ( 14 ) and a recess ( 12 ), the light emitting part of the LED ( 15 ) completely encloses and aligns lens and LED optimally to each other, so that the light of the LED can be optimally collimated and almost lossless. A hazard fire according to claim 1, characterized in that on the support element ( 1 ) Temperature sensors are provided, and that a control device influences the luminous elements supplied to the current parameters, taking into account the output signal of the temperature sensor so that the emitted light intensity is temperature-independent constant. A hazard fire according to claim 1, characterized that the lighting elements are connected redundantly.