DE3529488C2 - Lighting device with a liquid-filled light guide - Google Patents

Description

The present invention relates to lighting device as in the preamble of claim 1 in view to US-A-4 009 382 is assumed to be known.

This known lighting device contains a flexible Light guide made of a plastic filled with liquid tube that has a lower refractive index than that Liquid. The hose is made of a fluoroplastic, is closed at its ends by transparent windows and with one end optically with a light source like one High pressure mercury lamp or a tungsten halogen lamp coupled.

DE-A 20 12 100 is a liquid-filled light known head of a flexible hose from a trans Parent thermoplastic material, especially a polymer or mixed polymer of 4-methylpentene-1, containing one Liquid is filled, which has a higher refractive index than the hose material. Organic fillings are mentioned liquids such as benzyl alcohol, nitrobenzene, etc. a. m. The light is coupled axially into one end of the light guide.

There are also cross-pumped dye and other liquids known laser, see e.g. B. OPTICAL TECHNOLOGY, Vol. 40, No. 12, December 1973, pp. 770 to 781. They usually contain rigid ones Cuvettes made of glass and the like

A disadvantage of the lighting devices mentioned above Axial light coupling is that you have concentrated light sources of high luminance, which generate a lot of heat, must use the required light output in the  relatively small cross section of the light entry end of the light to be able to couple in the conductor. The strong heat development is disadvantageous, since they have cooling measures or relatively large, with Shielding and the like provided housing required power. This is e.g. B. in dental lighting devices for polymerizing dental plastic materials undesirable.

The known liquid lasers are used for many applications complex and also require additional light ladder when the light exit point is easy to move and can be manipulated.

The present invention is based on the mentioned lighting device the task of a compact light source with lateral light radiation in the To create light guides.

This task is carried out in a generic lighting device by the characterizing features of claim 1 solved. Further developments and advantageous refinements of Lighting device according to the invention are the subject of Subclaims.

In the present lighting device, one can be relative extensive primary light source, such as B. a low pressure gas discharge lamp (fluorescent tube) can be used little heat developed.

The following is an embodiment of the invention Reference to the drawing explained in more detail. It shows

Figure 1 is a schematic representation of the light guide for the lighting device.

Fig. 2 is a greatly enlarged partial view of the light guide according to FIG. 1 to explain its operation, and

Fig. 3 is a partially sectioned view of an embodiment of the illuminating device.

The light guide according to Fig. 1 comprises a tube 10 made of a transparent plastic, in particular a fluoroplastic. FEP (polytetrafluoroethylene hexafluoropropylene) is preferred; However, PFA (polytetrafluoroethylene with perfluoroacoxy side chains) is also suitable.

The hose is filled with a liquid 12 and closed at its ends by plugs 14 , 16 .

As is known, the liquid 12 is preferably chosen so that it does not wet the plastic from which the hose 10 is made. It can consist essentially of water, but higher alcohols such as diethylene glycol, triethylene glycol and tetraethylene glycol are preferred. Tri ethylene glycol is preferred.

The liquid contains a fluores decorative dye. For example, are suitable Rhodamine 6G, coumarin, fluorescein, also laser color substances such as stilbene, oxacin, Kiton-Rot® (sulphorhodamine B). The fluorescent material is chosen so that it is through the available excitation light is excited to fluorescence and fluorescent radiation delivers in a useful wavelength range. In this context it is advantageous that the fluoroplastics mentioned above, in particular FEP and PFA have a high ultraviolet transmittance  sen what a good use of the stimulus or Pump light guaranteed.

The liquid 12 containing the dissolved dye must have a larger refractive index than the material of the tube 10 . The difference in the refractive indices should be as large as possible. As shown in FIG. 2, fluorescence radiation emanating from a predetermined point P is broken away from the solder at the interface 18 between the liquid 12 and the tube 10 , so that it can no longer emerge from the liquid at a certain critical angle, but instead is totally reflected. The totally reflected radiation spreads in the longitudinal direction of the tube until it reaches the stopper 14 , which consists of a transparent material for the fluorescent radiation, so that the radiation can escape through the stopper 14 , as indicated by an arrow.

The plug 16 at the opposite end is preferably provided with a reflective layer 20 , it can therefore consist of any material. The reflecting layer 20 reflects the fluorescent light propagating to the left in FIG. 1 to the stopper 14 and thereby increases the intensity of the output light.

Fig. 3 shows a lighting device that can be used for example for the polymerisation of dental plastic materials. The illumination device of FIG. 3 includes a light-tight cylindrical housing 30, a light source in the form of a fluorescent tube 32 is arranged in the axis thereof. The fluorescent tube is held in sockets 34 and connected to a conventional power supply (not shown).

The fluorescent tube 32 is surrounded at a distance from a part 36 a of a light guide 36 of the type described with reference to FIG . One end of the helical part 36 a of the light guide 36 is closed with a reflective plug 16 , at the other end the light guide at 38 leads out of the housing 30 , preferably approximately tangentially, in order to avoid excessive bends which lead to a loss of light would.

The led out piece 36 b of the light guide 36 is as long as is necessary for the intended purpose and provided at the end with a handle 40 , which facilitates handling. The handle-side end of the light guide 36 is closed with the transparent plug 14 , the end face of which can be designed as a collecting lens.

The fluorescent tube 32 is an extended light source of relatively low luminance that generates little heat. Due to the concentration effect of the light guide filled with a fluorescent liquid, a surprisingly high light output is nevertheless available at the outlet end (stopper 14 ) of the light guide.

Because the radiation from the light source is not direct is made usable, but via the detour of the Fluorescent light can be used as a light source to improve the Efficiency also includes a mercury vapor low pressure gas discharge Use lamp without fluorescent coating on the bulb the.

In a preferred embodiment of the invention, the tube 10 consisted of clearly transparent FEP with a wall thickness of 0.3 mm and an inner diameter of 6 mm. The filling liquid consisted of a solution of fluorescein in triethylene glycol.

The filling liquid can also be several different ones contain fluorescent dyes, for example a desired spectral character around the output light lend ristik, z. B. to achromatic (white) To produce light.  

The inner wall of the housing 30 can be ausgebil det as a mirror, so z. B. be vaporized with a reflective layer or be formed by a polished metal surface. The helical part 36 a need not rest on the inner wall of the housing 30 .

Since the exciting light can enter the tube 10 from all sides and over the entire length, high fluorescent light intensities can be achieved at the output end of the light guide even with relatively weak and diffuse excitation light.

Claims (9)

1. Lighting device with a light guide from a liquid-filled plastic tube, which has a lower refractive index than the liquid and is closed at least at one end by a transparent window, characterized in that

• the liquid contains a fluorescent dye,
• - The hose contains a substantially helical part ( 36 a) which surrounds an elongated light source ( 32 ).

2. Lighting device according to claim 1, characterized characterized in that the hose from a fluorine art fabric exists. 3. Lighting device according to claim 1 or 2, characterized in that the liquid is an aqueous Contains solution of the dye.   4. Lighting device according to claim 1 or 2, characterized in that the liquid has a contains higher alcohol. 5. Lighting device according to claim 4, characterized characterized in that the liquid diethylene glycol, Contains triethylene glycol or tetraethylene glycol. 6. Lighting device according to claim 1 or 2, characterized in that the liquid at least contains one of the following dyes: Rhodamine 6G, Coumarin, fluorescein, stilbene, oxacin, Kiton-Rot® (Sulphorhodamine B). 7. Lighting device according to claim 1, characterized characterized in that the light source is a low pressure Gas discharge lamp, especially low-pressure mercury Is gas discharge lamp. 8. Lighting device according to claim 1 or 7, characterized in that the helical part ( 36 a) of the light guide in a cylindrical housing ( 30 ) is arranged concentrically and that the elongated light source runs along the axis of the housing. 9. Lighting device according to one of the preceding claims, characterized in that the one end of the tube is provided with a plug ( 16 ) which acts as a reflector.