PROTECTIVE PIPE FOR A UV TUBE, IN PARTICULAR A UV-C TUBE

Abstract

A protective pipe for a UV lamp for accommodating a tube includes a rod-shaped encasing pipe, wherein a viewing window is provided on the circumferential surface, through which viewing window the radiation, in particular the UV-C radiation, emitted by the tube can escape. A coating made of polytetrafluoroethylene is applied to the inner face of the protective pipe as a reflector. The protective pipe is composed of metal and is surrounded, at least in the region of the viewing window, by an at least partially transparent hose composed of plastic. Preferably, a transparent Teflon material is proposed for the hose.

Claims

1. Protective pipe for a UV lamp (1) for accommodation of a tube (2) having a rod-shaped encasing pipe (5), wherein a viewing window (11) is provided on the circumferential surface (7), through which viewing window the radiation (12), particularly UV-C radiation, emitted by the tube (2) can exit, wherein a coating (13) of polytetrafluoroethylene is applied to the inner side of the protective pipe (8) as a reflector (14), wherein the protective pipe (8) comprises metal, and wherein the viewing window (11) is surrounded by a hose (15) that comprises plastic and is at least partially transparent, at least in the region of the viewing window (11).

2. Protective pipe according to claim 1, wherein the protective pipe (8) comprises stainless steel or aluminum.

3. Protective pipe according to claim 1, wherein the hose (15) comprises plastic.

4. Protective pipe according to claim 3, wherein the hose (15) comprises polytetrafluoroethylene.

5. Protective pipe according to claim 1 or 2, wherein the UV lamp (1) comprises a UV-C source.

6. Use of polytetrafluoroethylene for a reflector (14) of a protective pipe (8) of a UV lamp (1).

7. Use of polytetrafluoroethylene for a hose (15) of the protective pipe (8) according to claim 1.

Description

DRAWINGS

[0035] The drawing shows:

[0036] FIG. 1 a perspective view of the UV lamp with protective pipe, as an example, in an exploded representation;

[0037] FIG. 2 a perspective view of the protective pipe according to the invention;

[0038] FIG. 3 a perspective view of the protective pipe, as well as a hose that surrounds the protective pipe, partly in section.

DESCRIPTION OF AN EXEMPLARY EMBODIMENT

[0039] In FIG. 1, a UV lamp 1 is shown. This UV lamp 1 consists of a UV tube 2, which in turn comprises a socket 3 with an electrical connector 4. A UV source is coupled with the socket 3; the source is not shown in any detail in the drawing. The UV source is surrounded by a rod-shaped encasing pipe 5. The encasing pipe 5 generally consists of a quartz glass. The end of the UV tube 2 that lies opposite the socket 3 has an end element 6. A protective pipe 8 having a circumferential surface 7 surrounds the encasing pipe 5. The protective pipe 8 has rotation symmetry and is open at both its end faces. In this way, it is possible to push the protective pipe 8 over the encasing pipe 5. In a preferred exemplary embodiment, which is shown in FIG. 1, the protective pipe 8 has elements 9 on both sides, which each interact with inside threads 10 within the protective pipe 8, so that the UV tube 2 can be firmly positioned within the protective pipe 8. Alternative attachment means for the elements 9 are also conceivable, such as, for example, a magnetic closure, bayonet closure, etc.

[0040] The protective pipe 5as also shown in FIG. 2furthermore has a viewing window 11. This viewing window 11 extends over a partial region of the circumferential surface 7 of the protective pipe 8. This viewing window 11 gives access to the encasing pipe 5 and has no transparent covering. This brings with it the advantage that the radiation 12 of the UV source, which is emitted out of the encasing pipe 4, is released in the direction shown.

[0041] The coating 13 of polytetrafluoroethylene is affixed within the protective pipe 8 and forms a reflector 14. A major portion (approximately 95%) of the radiation emitted from the protective pipe 5 is reflected into the environment by way of the reflector. Because of the very simple processing of polytetrafluoroethylene, the reflector 14 can be shaped to fit the encasing pipe 5. Furthermore, very close contact with the encasing pipe 5 is possible, because a facet-like configuration, as it is known when using aluminum, is eliminated.

[0042] In FIG. 3, a perspective view of the protective pipe 8 according to FIG. 2 is shown, but with the difference that this pipe is surrounded by a protective hose 15. This protective hose 15, as it is shown in FIG. 3, surrounds the protective pipe 15 completely and lies closely against its circumferential surface 7. This protective hose 15 extends over the free ends of the protective pipe 15, and is accommodated by the elements 9, together with the corresponding seals. The seals lie closely against the outer wall of the protective hose 15. In this way, the encasing pipe 5 that lies on the inside is completely sealed off. If the UV source is exposed to extreme environmental conditions, dirt also cannot get to the encasing pipe from the outside, since the viewing window 11 is completely covered by the hose 15, which consists of transparent material. The material is selected in such a manner that the emitted radiation 12 is not influenced or is only influenced slightly. Preferably, a transparent Teflon material is proposed, since this is also extremely tear-resistant.

[0043] In this way, a protective pipe 11 having a reflector. 14 as well as a hose 15 that surrounds the protective pipe 11 is made available, which pipe provides uniform UV steel quality and power almost independent of the field of use, with reference to the environment, because it was surprisingly found that a constant local environment for the radiation source has a significant influence on the emitted radiation power. Furthermore, such a UV source can also be used in critical areas, for example the foods industry.

REFERENCE SYMBOL LIST

Protective Pipe for a UV Tube, Particularly a UV-C Tube

[0044] 1 UV lamp [0045] 2 tube [0046] 3 socket [0047] 4 connector [0048] 5 encasing pipe [0049] 6 end element [0050] 7 circumferential surface [0051] 8 protective pipe [0052] 9 elements [0053] 10 inside thread [0054] 11 viewing window [0055] 12 radiation [0056] 13 coating [0057] 14 reflector [0058] 15 hose