DE3153348C2 - - Google Patents

Description

The invention relates to a lamp according to the preamble of claim 1.

To a light distribution characteristic with a preferred one To achieve the direction of radiation, it is common to have a reflection layer on the inner surface of a glass tube the entire scope with the exception of the desired radiation direction while applying a fluorescent film on the entire inner surface of the reflective layer and the glass tube even where none reflective layer is present, is applied, so that the desired light distribution characteristic is achieved  becomes. There may also be a light reflector partially around the lamp be arranged around so that the desired characteristic due to the direction of the reflector relative to the lamps tube is achieved. In these known lights occurs yet the difficulty arises in that due to light absorption the light from the reflective layer or on the reflector booty is deteriorating and furthermore the directional character teristics of the lamp can be badly influenced and there is little flexibility in this regard.

To the color of the discharge lamp The light that is sent is usually changed inside surface of the fluorescent tube along its circumference different fluorescent colors coated, (e.g. US-PS 22 86 634), in combination with the aforementioned arrangements, so that in a given Direction the color is achieved that in that direction arranged phosphor material corresponds. At this level However, the difficulty arises that light emission also occurs on the phosphors that the desired Rich tion opposite, so that the color is poorly matched can be.

It has also been suggested to selectively color through different colored filters that affect the Lam are arranged around. But also with this measure it is very difficult to get the desired color with a good yield to achieve voting.

With the known fluorescent tube lights it is also not possible, the polar pattern and the Selectively change color.

It is also known to facilitate ignition on the outside surface Surface a fluorescent lamp in the longitudinal direction of the lamp extending, electrically conductive element to be arranged (AT-PS 1 65 248).

The object of the invention is to provide a lamp with a phosphor to create a lamp with the directional characteristic of the radiated light or its color within wide limits Can be changed at will, but without the lights to reduce the prey of the lamp. Is particularly desirable it that both the directional characteristic and the color  can be varied at will without the light off worsen loot.

This object is achieved by the features of patent claim 1 solved.

Advantageous developments of the invention are in the Un specified claims.

A preferred embodiment of the invention is in the drawing shown and is described in more detail below. In the drawing shows

Figure 1 is a partially sectioned Seitenan view of a lamp in which the fluorescent lamp is axially rotatable. and

FIG. 2 shows a cross section of a fluorescent lamp for the lamp according to FIG. 1.

The luminaire contains a fluorescent lamp 141 , on the outer surface of which translucent electrically conductive films 142 to 145 are attached, which extend to the vicinity of the two ends of the lamp tube, that is to say adjacent to incandescent filaments 148, 149 , which are supported by sockets 146, 147 . Inside the fluorescent lamp 141 glass plates 150 are arranged, which act as a device for influencing the discharge zone or space dividing elements. They divide the interior in the circumferential direction according to the associated conductors 142 to 145 . The base pins 151, 152 of the fluorescent lamp 141 are inserted into rotatable bases 153, 154 . A rotatable cylindrical connecting intermediate part 155 is arranged on the mounting side of the rotatable base 153 and is extended at its free end to close to the filament 148 of the lamp 141 . An annular conductor 156 extends over the circumference on the inner surface at the end of the connecting intermediate part 155 and has an annular guide groove 157 , in which the end of a contact element 158 is guided. The other end of this contact element 158 is inserted into a hole in one of the socket pins 151 . An annular conductor 156 is axially extended into a part of the inside of the intermediate connecting part 155 and has a brush 159 which is in contact with the conductors 142 to 145 adjoining it. The rotatable bases 153, 154 are attached to a reflector housing plate 160 .

When the brush 159 is in contact with the conductor 144 , as shown in FIG. 1, and when current is being supplied, a voltage is present between the conductor 144 and the filament 149 , so that a discharge zone is in the area on the side of the conductor 144 is generated. As soon as the discharge zone is formed, it is maintained until the power supply is switched off. The discharge zone is therefore formed in this cross-hatched area in FIG. 2, and there is a downward-oriented light distribution characteristic. In order to change the direction of the light distribution, the connecting intermediate part 155 is rotated so that the brush 159 ge with another conductor in contact, z. B. with the conductor 143 , and then the power source is turned off once and then turned on again. After the discharge zone is formed, the fluorescent lamp 141 can be turned. If the inner surface of the fluorescent lamp 141 , which is divided by the glass plates 150 , is coated with different colored phosphors, the desired light distribution characteristic can be obtained with the respective desired color, in mutually independent combinations.

Use that in the embodiment described above Devices for influencing or controlling the discharge zone or to divide the interior of the phosphor lamp in several areas are made of glass; of course you can too made of ceramics or the like. Furthermore, the ge  Desired coatings reflecting ultraviolet radiation be provided. In other embodiments, too additional color filters or other conventional devices provided on the outside of the lamp.

Claims (9)

1. Luminaire with a tubular, in a socket holder fixation fluorescent lamp, on the outer surface of which an extending in the longitudinal direction of the lamp, an electrically conductive element is arranged, characterized in that to control the formation of a preferred discharge zone inside the fluorescent lamp ( 141 ) several of these electrically conductive elements ( 142, 143, 144, 145 ) are arranged distributed over the circumference of the fluorescent lamp ( 141 ) and are connected to electrical contact elements ( 156, 158, 159 ) at at least one end of the fluorescent lamp ( 141 ), and that a voltage can be applied selectively to these electrically conductive elements ( 142, 143, 144, 145 ). 2. Luminaire according to claim 1, characterized in that the voltage to the electrically conductive elements ( 142, 143, 144, 145 ) can be applied briefly. 3. Light according to one of the preceding claims, characterized in that the fluorescent lamp ( 141 ) is rotatably mounted about its axis se. 4. Luminaire according to claim 3, characterized in that the fluorescent lamp ( 141 ) is mounted in a rotatable base ( 153, 154 ). 5. Luminaire according to one of the preceding claims, characterized in that on the inner surface of the fluorescent lamp ( 141 ) various areas are arranged in the circumferential direction, which contain means which each cause different colors of the emitted light. 6. Luminaire according to claim 5, characterized in that the different areas on the inner surface of the fluorescent lamp ( 141 ) are coated with phosphors that produce different light colors. 7. Lamp according to claim 5, characterized in that different colored filters are arranged over the outer circumference of the fluorescent lamp ( 141 ). 8. Lamp according to one of the preceding claims, characterized in that in the interior of the fluorescent lamp ( 141 ) a separating element ( 150 ) is arranged, which divides its interior into different areas. 9. Lamp according to one of the preceding claims, characterized in that the electrically conductive elements ( 142, 143, 144, 145 ) are designed as translucent films.