DE4040316A1 - Bacteria growth prevention on plastic surfaces e.g. pipe interiors - by contacting media contg. bacteria using fluorine in partic. for crosslinked polyethylene surfaces - Google Patents

Abstract

Treatment of surfaces in contact with liquids or gases which are stationary or flowing and contg. bacteria comprises halogenating surfaces e.g. with fluoro-cpds. The surface can be halogenated plastics and crosslinked polyethylene in partic. Pref. treatment is partic. used for preventing Legionaires Disease in water for heating and/or ventilation layouts. Esp. used materials are fluoridised crosslinked polyethylene pipes. Still water can so prevent Legionaires Disease without affecting the potability of the water. Treatment comprises exposing material (e.g. pipes) to a liq. or gas-contg. e.g. 20-30% fluorine, the percentage is higher for metals or ceramics than for plastics. The exposure time needed is shortened by heating e.g. to 90-140 deg.C and using medium pressurised to 2.5-6 bar. ADVANTAGE - Esp. used for treating surfaces which are not or hardly accessible in operation, e.g. inside hollow bodies. Used to kill off bacteria in the liq. or gas. (3pp Dwg.No.0/0)

Description

The invention relates to a method for germ wax anti-tumble treatment of surfaces of technical Objects according to the preamble of claim 1 as well on a hollow body according to the preamble of claim 7.

To curb the growth of bacteria, spores and fungi or to prevent it completely, it is known to be infested endangered areas of technical surfaces with bacterici to coat the or fungicidal paints. Derar term antimicrobial coatings are significant Effort connected and only for freely accessible surfaces suitable as it is renewed from time to time or at mecha niche damage must be repaired. With Help the bactericide contained in the paints or fungicidal components, the germ growth inhibited on the corresponding surface, around the one below to protect lying bodies.

The invention has for its object a method for the anti-germ growth treatment of surfaces of  to create technical objects that apply on waiters that are difficult or inaccessible during operation Surfaces, especially those of hollow bodies, suitable is and with little effort the germ growth in with the be acted surfaces in contact with liquid and / or gaseous media. Furthermore, you lie the task of designing a hollow body in this way that its with flowing or still liquid and / or gaseous media coming into contact areas have a growth-inhibiting effect on the media exercise contained germs.

The invention solves this problem by a method according to Claim 1 and a hollow body according to claim 8. With regard to essential further configurations referred to claims 2 to 7 or 9 to 14.

The invention creates particularly simple and effective Way in inhibiting germ growth in flowing or stationary liquid or gaseous media, that are in contact with technical surfaces, such as that especially in the case of hollow bodies, e.g. B. containers or pipe lines or ducts and fittings, the case is. About surprisingly, by halogenating the surface such components, the growth of Legionel in particular len inhibited what for heating and / or ventilation systems is of considerable importance, their channels or lines increasingly in various materials standing boundary surfaces for the heat transfer or ventilation present media. In particular, a fluorination Implementation is possible with simple means significant inhibition of growth, such as in cases in which the medium, e.g. B. by its temperature, one strong germ growth feeds, particularly desirable is.

Fluorinated plastic surfaces are very special all those made of cross-linked polyethylene, for drinking and Process water supplies, heating and cooling systems etc., suitable to raise dangers from germ growth for users  to reduce.

Especially in hot water supply systems with longer inter vallen the water withdrawal, as in the often widely ramified Networks in hotels, homes, residential complexes etc. is, for example, the risk of legionella Growth with stationary medium in branch lines at corre sp hot water temperatures are particularly high. With the Use of inside fluorinated tubes can be used in such Line networks the Legionella growth even in dormant Hot water is inhibited, as tests have shown without any other impairment of the water quality goes hand in hand. This also applies to media, the climate flow through plants, as the germ growth inhibiting effect is also detectable in gaseous media.

Halogenation, especially fluorination, of plastic surfaces of objects such as pipes and containers is known per se (EP-OS-02 67 441), but that serves known fluorinating to increase diffusion tightness (EP-A-02 67 441, DE-C-24 01 948, DE-A-35 29 870) or the Boundary layer resistance (DE-C-26 44 508) or the chemical Resistance (DE-A-38 21 015).

The bactericidal or fungicidal action is also known in chemical halogen compounds (DE-A-14 19 962, DE-A 27 56 031, DE-37 06 376), but only for preservation or protective purposes, especially of wooden bodies Additive in exterior coatings.

When performing the halogenation process of the boundary surfaces they become a liquid or exposed to gaseous treatment agent, for example Contains 20 to 30% fluorine. The proportion of halogen in the treatment is from the material of the boundary surface of the component to be treated, whereby for surfaces made of rubber or rubber similarly low proportions as in Plastics are sufficient, while higher shares in metal mical and ceramic materials are required. The duration of exposure of the halogen to the surface  may have an elevated temperature of the treatment agent can be shortened, with increases to 90 to 140 ° C depending material advantageous reduction of the material Effect treatment time, especially if the loading process with a pressure of 2.5 to 6 bar the treatment agent is realized.

Carrying out the treatment according to the invention on germ growth-prone component boundaries is not only effective if, for example, pipes, lines, Ceramic accessories or the like. Sanitary components in front of your Installation halogenated, but also when components are already in use. Then there is a subsequent Be action of the boundary surfaces also feasible, why the boundary surface beforehand a thorough cleaning tion, e.g. B. a descaling and rust removal process undergo.

If there are different materials on the same boundary surfaces to be treated in time will be a ver casual antimicrobial treatment achieved when the treatment parameters for the least reactive material be coordinated.

Claims (14)

1. A method for the microbial growth-inhibiting treatment of surfaces of technical objects, characterized in that in the case of objects with surfaces for the limitation of flowing or still liquid or gaseous media containing germs, these surfaces are halogenated. 2. The method according to claim 1, characterized in that that the surfaces of a temporary exposure one of the halogen-containing liquid or gaseous Be exposed to treatment agents. 3. The method according to claim 1 or 2, characterized net that the surfaces are fluorinated. 4. The method according to any one of claims 1 to 3, characterized characterized in that the treatment agent 20 to 30% fluorine contains. 5. The method according to claim 4, characterized in that the treatment agent has a treatment temperature of 90 to 140 ° C. 6. The method according to claim 4 or 5, characterized  records that the treatment agent under a pressure of 2.5 to 6 bar is kept. 7. The method according to any one of claims 1 to 6, characterized marked that with subsequent halogenation of Surfaces on objects in use Surfaces cleaned and descaled before halogenation and / or derusted. 8. Hollow body, in particular sanitary engineering components such as containers, lines, valves and accessories or the like, on which surfaces to flow or rest liquid or gaseous media containing germs forms, characterized in that the components for germ growth-inhibiting effect on the boundary surfaces are halogenated. 9. Hollow body according to claim 8, characterized in that that the boundary surfaces of the components are fluorinated. 10. Hollow body according to claim 8 or 9, characterized net that at least the boundary surfaces of the components made of steel, stainless steel, brass, copper or the like. halogenated metallic materials exist. 11. Hollow body according to claim 8 or 9, characterized net that the boundary surface of halogenated non-metal material. 12. Hollow body according to claim 11, characterized in that that the surface made of halogenated plastic, in particular their cross-linked polyethylene. 13. Hollow body according to claim 11, characterized in that that the surface is made of halogenated ceramic material consists. 14. Hollow body according to claim 11, characterized in that that the surface of halogenated rubber or rubber consists.