DE19748256A1 - Prevention of unpleasant odors arising from air conditioning equipment - Google Patents

Abstract

A thin, water-permeable polymeric sheet embedded with heavy metals or a heavy metal compound of low solubility, is fitted to the inner surface of an air conditioner evaporator housing to prevent colonization of microorganisms, which can emit unpleasant, musty odors. The sheet can be embedded with copper powder or a sparingly soluble silver salt such as silver chloride (AgCl) or silver(I)oxide (Ag2O).

Description

The present invention relates to a method for preventing musty odors, especially when switching on air conditioning systems after long downtimes, as well an air conditioning system, in which no more musty smells occur, especially not stationary air conditioning systems and particularly preferably air conditioning systems in motor vehicles.

If an air conditioning system is switched on again after a long period of inactivity, it can be for a short time an unpleasantly musty, musty smell. The reason for one such odor is u. a. in the deposition of tiny particles of different Look for origin on the evaporator fins of the air conditioning system. In particular Microorganisms, that is bacteria and fungi, settle under warm, humid conditions Conditions z. B. on the evaporator fins, their catabolic metabolites then cause the unpleasant smells.

A variety has been found in the prior art made suggestions so that the operator of such a system is no longer immediate exposed to such unpleasant smells.

DE 195 17 336 proposes fungal attack on the evaporator to reduce the unpleasant smell due to the fact that the compressor of the Air conditioning is cooled to a certain temperature, which in turn is then above the Evaporating air cools down, which limits the formation of odors.

An opposite solution proposal is made in USP 5,385,028, where after after turning off the air conditioner, the flow direction of the refrigerant is reversed, whereby heated refrigerant flows into the evaporator, around there the fins of the evaporator heat up. As a result, the odorous substances are distributed quickly.  

DE 41 05 724 proposes that the odor and Adsorb pollutants using a filter. The filter is designed for a The broadest possible spectrum of odors or pollutants creates a filter effect that the rapid adsorption of odors or pollutants and their gradual, strong delayed desorption. This causes a short term high Concentration of odor or pollutants in an extremely low, but long persistent emission is converted, which is below with a sufficiently large dilution a predetermined odor or nuisance threshold remains.

In DE 32 22 983 the air-swept surface of the lamellar ribs is one Heat exchanger at least in some areas with an odor or pollutant eliminating substance, preferably activated carbon. This is supposed to Odor reduction can be achieved.

Another proposal is described in EP 0 549 474, where an odor filter in the Air conditioning intake duct is set. This is to prevent that after the Switching off the air conditioning system Fix odorants from the air flow on the fins.

In the German application 197 18 355.7, finally, the evaporator conducted air, which is otherwise led into the passenger compartment, briefly during the start-up phase of the Air conditioning, led outside into the passenger compartment.

Furthermore, air conditioning systems with deodorising agents and for motor vehicles are such known with an automatic nozzle pivoting in the passenger compartment.

These embodiments are in part technically very complicated and when using Adsorbents only partially effective. In addition, the air resistance in the Air conditioners increased. The actual cause of the smell remains. The Substances that cause the smell are only diluted to below the sensation of smell or temporarily redirected.

The invention is therefore based on the object of a simple, inexpensive method to provide with which the actual cause of odor formation is permanent  is eliminated so that these smells can not even arise and one of these Air conditioning system implementing the process.

According to the method, the object is achieved with the features of claim 1. The attachment works with the features of claim 9. Advantageous embodiments are Subject of the subclaims.

The invention is based on the following process of odor formation, which for each in particular non-stationary embodiment of an air conditioning system with an evaporator for a refrigerant is to be expected and, in a particularly preferred embodiment, one Air conditioning system for motor vehicles is described: while the motor vehicle is traveling, or with ventilation switched on, flows through air introduced from outside or at Recirculation mode, the air circulated in the vehicle interior constantly the evaporator Air conditioning. This also happens when the air conditioning is switched off and regardless of the Heating adjustment. The air flow usually carries small amounts of aerosols different inorganic and organic substances - sometimes also odors - in all three physical states (solid, liquid, gaseous) with themselves, their concentration mostly is so small that the occupants of the motor vehicle no longer perceive a smell can.

As a result of the air flow, there is a constant flow on the surfaces of the evaporator Adsorption and desorption process take place, the adsorption predominating at first. This leads to the formation of deposits on the air-flowing surfaces of the evaporator and on the inside of the housing housing the evaporator. Are in this surface usually contain odor-intensive components, the concentration of which alone not enough to exceed the odor threshold, at which a clearly unpleasant Odor sensation is caused, but it is so high that the odor threshold due to the strengthening effect of microorganisms that are also on the surface settle, is clearly exceeded.

When the air conditioning compressor is switched off or on, adsorption and Desorption is kept essentially in an equilibrium state, so that none increased odorant formation occurs. Usually also takes place when you turn off the Air conditioning no sudden desorption of the odorants instead, so that  Concentration in the air flow is too low to be noticed. Will the Air conditioning, however, especially after a long standstill, switched on again, so the Evaporator cooled down very quickly in a very short time.

At the same time, the water vapor contained in the air condenses in the over the fins flowing air and strikes itself as condensation in a thin film on the Surface of the slats down. The water film that forms dissolves the on the Evaporator surface adhering to the evaporator surface and activates the Metabolism of the also adhering microorganisms, which leads to increased formation smell-intensive substances. At the same time, the water film is subject to the Influence of the air flow sweeping over the lamellas a constant assembly and disassembly through evaporation or aerosol formation. This will also make the smell-intensive Released and reach substances in a relatively high concentration in the air flow with this in the passenger compartment. Due to the action of the microorganisms Transport of odor-intensive substances in the air flow then increased so that the for Vehicle occupants perceptible threshold for these substances significantly exceeded becomes musty about what is more or less short of time to perceive the unpleasant musty smell.

In addition, microorganisms or their germs and spores can also be found in the Evaporator area get there, settle there and form colonies. They can be found at summer temperatures and issued air conditioning ideal living and Multiplication conditions before: heat, high humidity due to the evaporator remaining residues of condensed water, darkness and rich food supply the aerosol coating on the inner surfaces of the housing walls of the air conditioner and the evaporator surfaces. When the ventilation or air conditioning is switched on again after about 4 to 5 hours the mixture of different odor intensive Metabolic products - generated by the microorganisms - e.g. Tie Vehicle interior washed in and perceived as a very unpleasant smell.

This sequence of odors explains that the known measures for Odor prevention, such as B. rinsing and heating the evaporator, only limited can be effective. It is also evident that due to the large number of possible  Odor-intensive substances adsorbents also only to a limited extent their concentration can lower the level of perception.

The problems and effects described above occur particularly blatantly Motor vehicle air conditioning systems on, the odor formation partly for a short period of time (10 s up to 2 min) can be almost unbearable.

The invention takes advantage of the fact that, on the one hand, by inserting a oligodynamically active heavy metal and / or a poorly soluble in water Heavy metal connection in particular in a carrier layer on the evaporator surface the microorganisms adhering there are killed or so disturbed in their growth be that they can (no longer) form odor-intensive substances and to change that the odor-intensive substances adhering to the evaporator surface when Solving in condensed water alone does not reach such a high concentration that it Exceed perception threshold for musty smell.

Air conditioning evaporators are mainly made of aluminum alloys and have chromate coating on their outer surfaces as a protective measure against corrosion which is usually supplemented by a silicate-based seal. Of the The evaporator and usually also the expansion valve are usually in one housing Polypropylene housed.

On the evaporator surface as well as on the inner surface of the evaporator and that Expansion valve containing housing is a very thin suitable, water-permeable (where diffusion permeability is already sufficient), polymers Carrier layer, preferably made of a varnish, applied, which the oligodynamically contains effective heavy metals or heavy water-soluble heavy metal compounds. For example, polyurethane or polyester can be used as varnishes. As oligodynamic active heavy metals can preferably be metallic copper, in particular in powder form and poorly soluble silver salts, such as silver chloride or silver oxide. Alternatively, the heavy metal can be applied as a layer or the lamellae of the Evaporators are made from heavy metal.  

Due to the solution pressure on the evaporator surface as well as the Heavy metals or heavy metal compounds applied inside the housing surface condensation that forms there is a small amount in the condensation Concentration of heavy metal ions, which is clearly above the toxic Limit concentration of the respective heavy metal ions for those on the evaporator surface microflora and the inner surface of the housing, which means that the already existing Microorganisms are killed and further colonization is prevented.

Air conditioning systems in which the method according to the invention comes into play offer the Advantage that the real cause of odor formation is already in statu nascendi is prevented so that no subsequent measures for reduction or Redirection of odors that have already occurred are more necessary.

Claims (17)

1. A method for preventing musty smells of air conditioning systems, especially when switching on and in particular after long downtimes, characterized in that a thin layer is applied to the evaporator of the air conditioning and / or on the inner surface of the housing housing the evaporator, which has an oligodynamically effective Contains heavy metal and / or a heavy metal compound that is difficult to dissolve in water. 2. The method according to claim 1, characterized in that the heavy metal or Heavy metal compound in an at least water-permeable, in particular polymeric carrier layer is embedded. 3. The method according to claim 1 or 2, characterized in that in the carrier layer in particular powdered copper is embedded or that the layer of copper is. 4. The method according to claim 2, characterized in that in the carrier layer in Water-poorly soluble silver salt is embedded. 5. The method according to claim 4, characterized in that in the carrier layer Silver chloride is embedded. 6. The method according to claim 4, characterized in that in the carrier layer Silver oxide is embedded. 7. The method according to any one of claims 1 to 6, characterized in that the Layer with the heavy metal and / or the heavy metal compound on the  Evaporator and / or the inside of the evaporator housing from non-stationary Air conditioning systems or the starting materials for this is applied. 8. The method according to claim 9, characterized in that the non-stationary Air conditioning is the air conditioning system of a motor vehicle. 9. Air conditioning system with an evaporator for a refrigerant, characterized in that the evaporator and / or the inside of the evaporator housing Housing is covered with a thin layer, which is an oligodynamic effective heavy metal and / or a poorly soluble in water Contains heavy metal compound, or that the evaporator at least in its Surface area contains an oligodynamically effective heavy metal. 10. Air conditioning system according to claim 9, characterized in that the heavy metal or the heavy metal compound in an at least water-permeable, in particular polymeric carrier layer is embedded. 11. Air conditioning system according to claim 9 or 10, characterized in that in the Carrier layer of powdered copper is embedded or that the layer of copper is. 12. Air conditioning system according to claim 10, characterized in that in the carrier layer poorly soluble silver salt is embedded in water. 13. Air conditioning system according to claim 12, characterized in that in water sparingly soluble silver salt is silver chloride. 14. Air conditioning system according to claim 12, characterized in that in water sparingly soluble silver salt is silver oxide. 15. Air conditioning system according to one of claims 9 to 14, characterized in that it is a non-stationary air conditioner.   16. Air conditioning system according to one of claims 9 to 15, characterized in that it in Motor vehicles is installed.