DE1589220B2 - CLOSED AND COOLED LAMP - Google Patents

Description

The invention relates to a closed and cooled lamp with a hot light source within one rotationally symmetrical reflector, the apex of which both for the passage of an electrode of the lamp and at the same time has an opening for extracting the cooling air, the cooling air in front of the reflector enters and exits the luminaire behind the reflector.

It is known per se to cool lights and their lamps with the aid of gas. Disadvantageous with the known method "is, however, that either a shadowing by necessary auxiliary devices caused in the luminaire or only insufficient and uneven cooling is achieved. The latter is e.g. B. in a lamp with a xenon high pressure lamp as the light source Case in which the gas is introduced into the housing from the lower lamp base. As you know, joins a xenon high-pressure lamp generates the greatest amount of heat at its anode. With an arrangement of the lamp in the optical axis of the reflector, the anode of the lamp is on the one Reflector side facing away, so that a sufficient heat exchange at this point by introducing of the gas from the reflector is difficult to achieve.

However, there are also known lights in their reflectors in addition to an opening for the passage a lamp electrode and openings for the extraction of the cooling air are arranged. To the one on this Way to increase the improved cooling effect, such a well-known floodlight has higher Power nozzles for blowing, the lamp-with .compressed Cooling air on. The nozzles with their air supply pipe should be inside the luminaire housing be arranged concentrically to the lamp axis so that a shadowing of the from the Luminaire housing escaping light is completely or largely excluded and that, moreover, the The cooling air jet is directed obliquely to the lamp axis (German utility model 1903 117). , · '-,

The object on which the invention is based is '' is now about creating a lamp that can be cooled solely by the special guidance of the cooling air flow is more effective and less expensive.

The solution to this problem consists in a luminaire of the type referred to above according to the invention in the fact that a weak flow of cooling air is sufficient for cooling through it; that through the tan, A single flow of cooling air occurring at the housing jacket creates a vortex formation around the is fanned optical axis, in which the cooling air flow washes around the lamp and swirls along the Longitudinal axis of the lamp ^ - downward from the reflector exit. '

For luminaires with xenon high-pressure lamps as The inlet opening for the gas is conveniently located at the level of the front light source Lamp base. The tangential inflow of the gas creates a vortex. This vortex now enables ideal heat exchange, since the greatest gas velocity is in the center of the Vortex occurs in which the lamp is also arranged. In addition, occurs when the invention Cooling a very small pressure drop, so that only a relatively low fan power is required.

ίο The gas is expediently diverted through an exit opening which is arranged approximately in the middle of the reflector. Such a "cyclone" - Cooling has a number of advantages. It enables good heat exchange at low levels Frictional losses. The amount of gas to be provided is very small. In contrast to the known method By blowing the lamp directly on, the cooling according to the invention is very gentle. aside from that there is no shadowing.

An exemplary embodiment of the invention will be explained with reference to the drawings.

1 shows schematically the section through a lamp with a xenon high-pressure lamp as the light source;

F i g. 2 shows the light from above. In a housing 10 with a reflector 11 is located a xenon high-pressure lamp 12. The holder of the lamp 12 is not shown here. the The light exit opening in the housing 10 is closed airtight by a translucent cover plate 13. At the level of the upper lamp cap, the housing 10 has an inlet opening 14 which . , is arranged so that the gas for cooling the lamp 12 flows tangentially into the housing 10.

In the process, a vortex is formed in the housing 10, which has a particularly advantageous heat exchange the lamp 12 brings about. Through an exit opening 15 in the reflective area and an exit opening 16 in the housing 10, the gas cooling flow emerges again.

Claims (1)

Claim: Closed and cooled luminaire with a hot light source within a rotationally symmetrical Reflector, the apex of which both for the passage of an electrode of the lamp as well at the same time has an opening for extracting the cooling air, the cooling air in front of the reflector enters and exits behind the reflector from the lamp, characterized in that Even a weak flow of cooling air is sufficient for cooling that through the tangential on The occurrence of a single flow of cooling air causes a vortex to form around the casing shell optical axis is fanned, in which the flow of cooling air washes around the lamp and swirls along the lamp's longitudinal axis emerges from the reflector towards the rear.