WO2001065172A1

WO2001065172A1 - Illuminating body for humid rooms of all types

Info

Publication number: WO2001065172A1
Application number: PCT/IB2001/000145
Authority: WO
Inventors: Istvan Ficsor
Original assignee: Istvan Ficsor
Priority date: 2000-03-03
Filing date: 2001-02-07
Publication date: 2001-09-07
Also published as: DE10010606A1

Abstract

The invention relates to an illuminating body for swimming pools, whirlpools, garden ponds and/or humid rooms of all types. Said illuminating body is comprised of an installation housing (10) provided with a transparent covering (11), a power supply (14) and with a number of diodes (13) which function as illuminating means and which are arranged on and fastened to a printed circuit board (12) (board). According to the invention, a body (16) is located underneath the printed circuit board (12) while abutting on the same. The printed circuit board (12) can be arched by the adjustable relative change in position and/or volume of said body. The diode voltage is preferably inductively generated in a contactless manner by a magnet coil located outside of the installation housing.

Description

description

Lighting fixtures for damp rooms of all kinds

The invention relates to a lighting fixture for swimming pools, whirlpools, garden ponds and / or damp rooms of all types, consisting of a built-in housing with a transparent cover, a power supply and several diodes as illuminants, which are arranged and attached to a circuit board (circuit board).

Such lighting fixtures are generally known from WO 99/23413. The advantage of the luminescent diodes (LED) lies in particular in the fact that, in contrast to an incandescent lamp, these semiconductor diodes require significantly less space and radiate significantly less heat during operation. This enables a relatively flat construction of the lighting fixtures. In contrast to an incandescent lamp, the emission spectrum of the LED is generally limited to a narrow wavelength range, which essentially depends on the diode material. The spectral emission of light-emitting diodes can be material-dependent, monochrome, two or three colors. The lifespan of light-emitting diodes with 10 to 15 years is very long, so that a frequent change of light bulbs, as is necessary with conventional headlights, can be omitted. Furthermore, light-emitting diodes with high radiation intensity have also been developed in the meantime, so that in conjunction with low operating voltages between 1 and 2.5 volts at currents of 10 to 20 mA, far more economical operation is possible. Due to their favorable time behavior with switching tents down to the nanosecond range, light-emitting diodes can also be controlled directly, for example using digital circuits. The small space requirement of LEDs and the possibility of arranging several LEDs next to each other due to the low heat radiation, leaves a great deal of freedom in terms of lighting body design, in particular the design of underwater spotlights, but also for lighting fixtures for saunas, shower rooms, steam rooms and all kinds of damp rooms. Any headlight shapes are conceivable, each with a low installation height. Depending on the desired light emission, different LEDs are used, each of which emits monochrome light individually or in groups. WO 99/23413 also proposes to control the LED individually or in groups separately via a control circuit and / or to regulate the light intensity. This makes it possible to generate individual radiation patterns in the form of geometric figures in the lighting fixtures. The figures can consist of abstract patterns or possibly colored images such as animal or landscape motifs. If a control circuit is used which enables the light-emitting diodes to be operated intermittently, "living" lighting images can be emitted in a sequence which changes over time.

However, the disadvantage of the light-emitting diodes arranged on a flat circuit board is a relatively narrow radiation cone with a cone angle of at most 30 °. In order to achieve full illumination of a swimming pool or other rooms, many lighting fixtures have to be arranged next to each other. Basically, there would be the possibility of arranging several boards at different angles within an embau house and / or by designing and arching the cover glass to achieve as large a scatter as possible of the emitted light, but this considerably increases the manufacturing outlay. In part, these measures also lead to an undesirable increase in the overall height. It is an object of the present invention to provide a lighting fixture of the type mentioned at the outset which, with a low installation height, enables a radiation which is as wide as possible and which can preferably be adapted to the respective spatial conditions.

This object is achieved with the lighting fixture according to claim 1, which is characterized according to the invention in that a body rests below the printed circuit board, by means of whose adjustable relative position and / or volume change the printed circuit board can be bulged. The printed circuit boards used as printed circuits have a hard paper plate or a glass fiber-reinforced synthetic resin plate as the supporting body, whereupon the diodes and possibly further control elements are inserted into the provided bores and arranged in a corresponding circuit via copper solder tracks. However, the boards have a certain elasticity, which is used according to the invention. A controllable force is exerted via a body arranged on the back of the board, by means of which a desired curvature is generated. In the case of a circular circuit board, this results in a part-spherical shell, on the outer jacket of which the diodes arranged there are tilted against one another by an amount corresponding to the curvature. Depending on the degree of bulging, the spatial radiation angle can be specifically changed up to 180 °. In the case of underwater spotlights in swimming pools, this has the advantage that instead of several lamps arranged side by side, only one spotlight arranged centrally on a wall has to be used. If desired, it is also possible according to the present invention to change the curvature of the circuit board as a function of time, the manipulated variable being able to follow a regular harmonic or linear function or an irregular function as a function of time. Developments of the invention are listed in the subclaims.

The relative change in position and / or volume of the body can be controlled mechanically, pneumatically, hydraulically or electromechanically. In the simplest case, the body consists of a threaded screw which is guided in a threaded hole in the Embaugehaus. By turning this screw, the desired degree of curvature can be set as required. This mechanical solution is preferably used where a one-off and final adjustment is required in accordance with the desired lighting conditions. As an alternative to this, it is possible to form the body from a hydraulically or pneumatically actuated elastic bellows, with only as much air or liquid being pumped into the bellows as is necessary for vaulting the circuit board. Just like the electromechanical or electromotive regulation of the body, the pneumatics or hydraulics can also be set in operation in the operating state of the lighting fixture, as a result of which widening or tapering cone angles can be set in dependence on the time.

Light-emitting diodes of different colors or wavelength ranges and / or light-emitting diodes which emit light of different spectral composition depending on the voltage applied are preferably arranged on the printed circuit boards. In addition to the diodes emitting a monochrome light, for example in the colors from red to blue, two- or three-color diodes are also known which change their light color when the voltage applied changes. Through targeted circuit control, multiple effects can be achieved. In addition to controlling the light intensity of each individual diode or also of diode groups, any color pattern can be varied Generate sequence. The monochrome colors emitted by the individual diodes can also be "mixed" into new colors. This results from a simple superimposition of the conical radiation areas of the diodes, possibly also with other optical aids, such as lenses, prisms or the like. Insofar as two- or three-color diodes, whose radiation areas overlap with the radiation areas of other diodes, are controlled in such a way that a color change occurs depending on the voltage task, a color play that changes over time can be generated with this. Depending on the cover lid used (as front glass), changing color mixtures can be realized according to the invention, which the viewer perceives as pleasant. The available color palette ranges from white to violet. With such lighting controls, therapeutic areas of application can be opened that go beyond pure room lighting. As is known in principle from WO 99/23413, a grid-like arrangement of the light-emitting diodes on the circuit board and its controllability, which can be carried out separately or in groups, leads to the possibility of possibly emitting “moving images”.

According to a further embodiment of the invention, the diode voltage is controlled depending on the frequency and / or the volume of a given sound sequence. Music that has been recorded and can be heard by the viewer of the lighting fixture is thus converted into lighting images in synchronism with the clock and / or rhythm.

In order to expand the possibilities of the color mixtures, the cover has prism-like areas which have a light scattering and / or a different refraction depending on the wavelength. If the front glass of a lighting fixture according to the invention has a plurality of prisms strung together, the dispersive lenses produced thereby can Effects that color variants are increased significantly, especially if the circuit board curvature is also varied depending on the time.

According to a further embodiment of the invention, the Embau housing of the lighting body is part of a swimming pool skimmer, preferably such that the Embaugehause is arranged below the ski opening for the water drainage. This combination of a skimmer known in terms of structure and principle with a lighting fixture creates the advantage that instead of those previously used according to the prior art

Several construction niches for the separate installation of the necessary lighting fixtures and the skimmer, only one construction opening must be created in the pool wall. In private swimming pools, this opening is arranged approximately in the middle of a swimming pool wall. The combination is only possible with the present invention, since the lighting fixtures previously equipped with diodes did not ensure a sufficiently large radiation angle. Because there is a strong movement of water, especially in the area of the skimmer, the resulting different light refractions and diffractions create additional optical effects.

Already by using diodes, many parts of the Embaugehaus can be made of plastics that are welded together so that they cannot be detached, because due to the long life of the diodes, access to the circuit board is no longer necessary. A further improvement can be achieved in that the diode voltage is generated inductively by a magnetic coil, which is preferably arranged outside the housing. The inductive electrical power transmission enables a hermetic, moisture-proof construction of the lighting fixture, which no longer has any connections leading to the outside. Exemplary embodiments of the invention are shown in the drawings. Show it

1 shows a cross section through a lighting fixture according to the present invention,

2 shows a skimmer with an integrated lighting fixture,

Fig. 3 is a Pr zip representation of an inductively powered lighting fixture.

The lighting fixture shown in FIG. 1 essentially consists of an embau housing 10 with a transparent cover 11 and a circuit board 12 on which a plurality of light-emitting diodes 13 are arranged. The voltage supply 14 to the circuit printed on the circuit board 12 is led through an opening in the housing, which is hermetically sealed to the outside. The housing 10 has a shaft part 15 with an internal thread, in which a screw 16 is rotatably guided. This screw 16 rests with its tip 17 on the rear side of the circuit board 12 and bends it up to the arch shown, so that the light beams 18 radiated centrally from the diodes 13 are not parallel, as in the case of the plane circuit board, but rather radially of the bowl-shaped bent-up blast. This results in improved room lighting. Instead of the screw 16, which can be actuated by hand or by means of a suitable tool, a pneumatic or hydraulic cushion can also be located in the cavity 19 below the circuit board 12, which cushion has a corresponding curvature of the circuit board by means of the pneumatic or hydraulic medium introduced under pressure herbeifuhrt. The diodes 13 can be arranged in lines and columns in the form of a grid and can be controlled individually or in groups. be bar, so that numbers and letters, such as the water temperature, or different images, such as animal motifs, can be displayed.

The diodes 13 can be two-colored or multi-colored luminescent diodes which emit light of different colors or wavelengths depending on the voltage applied. The cover 11 is preferably composed of individual prismatic bodies strung together or formed as a dispersive light scattering disc by embossed corrugation. The diodes, which emit different light colors in accordance with the control circuit (not shown in detail), enable countless color mixtures depending on the control, which can continuously emit an approximately constant light intensity with changing colors or also intermittently.

The lighting fixture can have a circular, angular or other shape. An embodiment of the illuminating body 20 can be seen in FIG. 2. This essentially rectangular lighting fixture 20 is part of a skimmer 21 with its housing, which is a permanently installed part of a swimming pool wall 22.

While the required voltage is supplied via a cable 14 in the embodiment according to FIG. 1, the electrical power in the embodiment according to FIG. 3 is transmitted inductively. The lighting fixture 30 is fastened to a wall 31 together with the circuit electronics integrated on a circuit board 32. In the rear part of the Embaugehaus there is a conductor coil 34 wound around the magnetic core 33, through which a (primary) current flows and thereby induces corresponding conductor tracks or secondary coils on the circuit board 32, with which the diodes 35 are fed. With this inductive electrical power transmission the Power supply to the board in the form of a cable can be dispensed with; Appropriate seals at the location of the cable entry are not required. Since the diodes and the circuit board together with the control circuit are regularly fault-prone for a long time, there is also no need to completely remove the lighting fixture in the event of a cable break. To do this, it is only necessary to open the rear part of the Embaugehaus to make a corresponding cable or coil noise of the primary coil 34. The selected inductive power transmission can also be used to feed an electric motor that rotates the screw shown in FIG. 1. Such an electric motor or another electric motor can also be used to set the circuit board arranged on a turntable in rotation, so that individual regions of this circuit board pass through different magnetic fields which are generated by one or more primary coils. This measure allows locally different voltages to be induced in the secondary windings on the conductor coil, according to which the color and / or light intensity of the light-emitting diodes is changed.

Claims

protection claims

1.Lighting body (10, 20, 30) for swimming pools, whirlpools, garden ponds and / or damp rooms of all kinds, consisting of a built-in housing (10) with a transparent cover (11), a power supply (14, 34) and several diodes (13 , 35) as illuminants, which are arranged and fastened on a printed circuit board (12, 32) (circuit board), characterized in that below the printed circuit board (12, 32) a body (16) rests, through the adjustable relative position and / or Volume change the circuit board (12, 32) can be arched.

2. Lighting fixture according to claim 1, characterized in that the relative change in position and / or volume of the body (16) can be controlled mechanically, pneumatically, electromechanically or hydraulically.

3. Lighting fixture according to claim 1 or 2, characterized in that the body consists of a threaded screw (16) which is guided in a threaded bore of the mounting housing (10).

4. Lighting fixture according to claim 1 or 2, characterized in that the body consists of a hydraulically or pneumatically actuated elastic bellows (cushion).

5. Lighting device according to one of claims 1 to 4, characterized in that the light-emitting diodes (13, 35) of different color emission or wavelength ranges and / or light-emitting diodes which emit light of different spectral composition depending on the voltage applied, on the circuit board (12, 32 ) are arranged.

6. Lighting device according to one of claims 1 to 5, characterized in that the light-emitting diodes (13, 35) arranged in a grid on the circuit board (12, 32) and separated or m groups can be controlled via a control circuit and / or m of the supply voltage can be regulated separately ,

7. Lighting fixture according to one of claims 1 to 6, characterized in that the diode voltage is controlled depending on the frequency and / or the volume of different sound sequences.

8. Lighting device according to one of claims 1 to 7, characterized in that the cover (11) has prism-like areas.

9. Lighting fixture according to one of claims 1 to 8, characterized in that the embaugehause (20) is part of a swimming pool skimmer (21), preferably such that the embauging housing (20) is arranged below the skimmer opening.

10. Lighting fixture according to one of claims 1 to 9, characterized in that the diode voltage is generated inductively by a magnetic coil (34), which is preferably arranged outside the Embaugehaus, without contact.