DE102005040185B4 - Underwater light - Google Patents

Abstract

Underwater floodlight (1) with at least one LED (4) as a light source, which is arranged in a housing (2), wherein a cooling arrangement for the housing (2) is provided, characterized in that in a lower region of the underwater headlamp (1) formed as a nozzle Kühlmittelzuführkanal and in an upper region designed as a diffuser Kühlmittelabführkanal (22) are provided.

Description

The The invention relates to an underwater floodlight with at least one LED as a light source, which is arranged in a housing.

From the US 2003/0048632 A1 For example, an underwater spotlight is known which has a housing consisting of a lens and a fixing plate, in which LEDs are arranged. The mounting plate has horizontal slots of constant cross-section so that water can enter the slots for cooling.

From the DE 20 2004 013 308 U1 is an underwater lighting unit with an array of light-emitting diodes known, wherein a housing is provided, the side wall, disc and optionally a part of the rear wall in direct heat exchange contact with the water, in which the lighting unit is immersed in operation, so To cool housing.

From the US 5,556,188 A It is known to arrange a housing with a light unit within a fixture, wherein the enclosure of the lens has similar slots through which water can penetrate into the space between the housing and the fixture, thereby to cool the housing. Due to the arrangement and design of the slots shown there can not be ensured that an exchange of liquid, which is located in the fixture behind the housing, and the liquid takes place before the insert. In particular, this means that no defined flow direction of the coolant can be realized.

An underwater LED light is off DE 20 2004 015 830 U1 known.

Underwater light for private, Hotel, and public Swimming pools (Indoor pools and outdoor pools) like to use light-emitting diodes (Light Emitting Diode (LED)). Thereby can Underwater lights are designed with smaller dimensions. Also offers the LED technology because of the high efficiency and long service life advantages. Because only A low voltage supply is needed, this technology is Can be used advantageously in the swimming pool area because of the low risk.

The Underwater lights are usually in the wall of the swimming pool appropriate. Due to the warming the control electronics of the LED's There may be a failure of the underwater lights, as the heat is in the case of the underwater headlight dams.

task The present invention is intended to remedy this situation.

According to the invention this Task on equally surprising how effective way through an underwater spotlight solved with the features of claim 1. This can cause a heat accumulation in the case be avoided and will reduce the probability of failure of the underwater headlamp significantly reduced. Overheating a printed circuit board and / or arranged in the housing electronics can be prevented. The underwater lights are preferably UV-resistant accomplished and have a temperature resistance up to 80 ° C on. Furthermore, they are stable against chlorine and salt water, for example seawater or water with a salt content of 3.5%. Depending on the requirement the degree of illumination of the swimming pool can be one or more headlights be installed in the pool. By different arrangement of Headlights can different light effects (spot, scattered light) are generated.

A particularly preferred embodiment is characterized by the fact that in the installed state between the housing, which in the installed state at least partially in a built-in part is arranged, and the built-in part at least partially a space is formed by a coolant flow through is. Since the subject of the invention is underwater floodlights, These are at least partially surrounded by water during operation. Therefore Water is particularly suitable as a coolant. Thus, for example, 16 LED's with one Power consumption of 3 W per LED with a maximum current of 1000 mA, a voltage <24 V and a lighting level to be used by 1100 LUX.

In a lower portion of the underwater headlamp is a Kühlmittelzuführkanal and a Kühlmittelabführkanal formed in an upper region. The lower coolant supply duct is as a nozzle and the upper Kühlmittelabführkanal designed as a diffuser. This favors the flow of flow insofar that the flow velocity thereby still increased becomes. This makes it possible the cooling using the thermosyphon effect.

Due to the arrangement of the coolant supply passage and the coolant discharge passage, it is possible for water used as the coolant to circulate around the housing. This ensures that there is always coolant between the fixture and the housing. As soon as the housing heats up, the surrounding water also heats up. The warm water rises due to its lower density upwards and escapes through the top coolant arranged duct into the swimming pool. Cold water flows in through the lower coolant supply channel, so that a natural flow through the (hollow) space between housing and built-in component is established. This effect is already present at a temperature difference between the water in the cavity and the water in the pool of 8 ° K. It is advantageous if the built-in part is designed cup-shaped and can accommodate the housing at least partially.

Especially effective is the heat dissipation from the case, if the case cooling fins having. The cooling fins preferably point into the cavity between the housing and fixture so that they from the coolant flows around become.

There the heat in the case less generated by the LEDs than by the control electronics of the LEDs It is advantageous if a board arranged in the housing is provided is that with the case in heat exchange connection stands, wherein the control electronics preferably on the board is arranged. The board can for example be attached to the housing via dowel pins so that heat over the Cylinder pins from the board to the housing is passed.

In an advantageous embodiment of the invention it can be provided that the housing is formed of a metal, in particular of stainless steel or high-grade bronze (eg CuAlNi ₅ Fe ₄ ) in order to be resistant to salt water. Such a housing allows a good heat transfer to the coolant.

at a preferred embodiment At least one RGB LED unit is provided. This will be a Color lighting, or a color change allows.

at An advantageous embodiment of the invention is a microcontroller provided driving module provided. This is special advantageous in conjunction with one or more RGB (Red Yellow Blue) LED units, because it makes it possible is to program a color game and lighting effects. So it's possible besides a manual selection of single colors, also an automatic, independent to realize ongoing color mixing operation. The duration of the different Color mixtures can be adjustable (color mixing timing).

A Particularly good illumination results when the underwater spotlight a beam angle> 90 °, in particular> 120 °, preferably from about 140 °. Here, the underwater spotlight a diameter (free light area) of at least 70 mm.

Further Features and advantages of the invention will become apparent from the following detailed description of embodiments of the invention based the figures of the drawing, the essential to the invention details shows, as well as from the claims. The individual features can each individually for one or more in any combination at variants be realized the invention.

In the schematic drawings are embodiments of the invention illustrated, which are explained in more detail in the following description.

It demonstrate:

1 a sectional view through an underwater spotlight;

2 a perspective view of the housing of an underwater headlamp;

3 a perspective top view of the mounting part of the underwater headlamp.

The 1 shows an underwater spotlight 1 in a sectional view. In a housing 2 is a circuit board 3 (Board) arranged, which the control electronics for several LEDs 4 wearing. The circuit board 3 is about cylinder pins, not shown, and a cylinder screw 5 Heat conductive to the housing 2 arranged. To the pool is the case 2 through a pane 6 covered by a cover 7 on the housing 2 is held. Between cover 7 , Disc 6 and housing 2 are seals 8th . 9 intended. The cover 7 and the case 2 are about screws 10 screwed together. The housing 2 is in a built-in part 11 used, being between the housing 2 and the built-in part 11 a cavity or

gap 12 is formed, which can be flowed through by a coolant. The electrical connections are via a screw plug 13 and an opening 14 led to the outside. The built-in part 11 , which is also referred to as Einbautopf, is attached to the pool wall. About a so-called clamping pot 15 is the case 2 on the installation part 11 held.

In the 2 is the case 2 to see. At its rear end, the housing 2 cooling fins 20 on that in the cavity 12 point. Thus, a particularly good cooling of the housing 2 ensured. On the case 2 and the cover 7 is a recess 21 provided in cooperation with that in the 2 Built-in part not shown 11 forms a coolant channel. In the 2 the Kühlmittelabführkanal is shown at the upper end of the underwater headlamp 1 is is orders. The cooling fins 20 , the coolant inlet and outlet channels, the space between the housing 2 and built-in part 11 as well as the mounting part represent in the exemplary embodiment a cooling arrangement for cooling the housing.

In the 3 is the underwater spotlight 1 completely shown, with the housing now in the built-in part 11 is plugged in. The coolant discharge channel 22 is represented by a slot. An underwater cable 23 is from the built-in part 11 led out. About the underwater cable 23 on the one hand, the power supply of the underwater floodlight 1 and on the other hand the control of the LEDs 4 , For this purpose may be on the circuit board 3 a control module, which includes a microcontroller may be provided. The microcontroller can via appropriate control lines in the underwater cable 23 be controlled. The control module can be the LEDs 4 , which can be combined to one or more so-called RGB units, drive.

Claims (8)

Underwater spotlight ( 1 ) with at least one LED ( 4 ) as illuminants, which are housed in a housing ( 2 ), wherein a cooling arrangement for the housing ( 2 ) is provided, characterized in that in a lower region of the underwater headlamp ( 1 ) designed as a nozzle Kühlmittelzuführkanal and in an upper region designed as a diffuser Kühlmittelabführkanal ( 22 ) are provided. Underwater floodlight according to claim 1, characterized in that in the installed state between the housing ( 2 ), which in the installed state at least partially in a built-in part ( 11 ) is arranged, and the built-in part ( 11 ) at least partially a space ( 12 ), which can be flowed through by a coolant, in particular water. Underwater floodlight according to one of the preceding claims, characterized in that the housing ( 2 ) Cooling fins ( 20 ) having. Underwater floodlight according to one of the preceding claims, characterized in that one in the housing ( 2 ) arranged board ( 3 ) provided with the housing ( 2 ) is in heat exchange connection. Underwater floodlight according to one of the preceding claims, characterized in that the housing ( 2 ) is formed of a metal, in particular stainless steel or bronze. Underwater floodlight after one of the previous ones Claims, characterized in that at least one RGB LED unit is provided. Underwater floodlight after one of the previous ones Claims, characterized in that having a microcontroller Actuator is provided. Underwater floodlight after one of the previous ones Claims, characterized in that it has a beam angle> 90 °, in particular> 120 °, preferably of about 140 °.