TH75358B - Methods for reducing allergens in closed rooms - Google Patents

Abstract

The DC60 (13/01/49) provided is a method for reducing fungal spores. and small particles in the air in a closed room in this closed room This method consists of the process of attaching the vacuum to the air handling system and the exposure of the air handling system to type 1 antimicrobial agents, insertion. Perform cleaning of carpets and furnishings in an enclosed room, covering this enclosed room with mist of Secondary antimicrobial action, ozone emissions in closed chambers for a period of time and ozone emission termination to allow ozone concentrations to return to normal, oil tank filling. The tea tree enters the air management system. and the start-up of the air purifier with the air in the enclosed room, where for a period of at least 90 days, the particles in the air in the enclosed room will be less than 1.0 million airborne particles per cubic meter of air, fungal spores in the air below the amount of mold spores in the air in the air outside the closed room before doing this method. at least 1.1 times, and surface fungal spores in the enclosed chamber were below the surface fungal spores level. At least 3.0 times in a closed room prior to this method. The Invention Summary 15/09/2015 provided is a method for reducing fungal spores. and small particles in the air in a closed room where this closed room has or contact with the air handling system. This method consists of the process of attaching the vacuum to the air handling system and the exposure of the air handling system to Type I antimicrobial agents. Cleaning agents to carpets and furnishings in a closed room, covering this room with mist of Secondary antimicrobial action, ozone emissions in closed chambers for a period of time and ozone emission termination to allow ozone concentrations to return to normal, oil tank filling. The tea tree enters the air management system. and the start-up of the air purifier with the air in the enclosed room, where for a period of at least 90 days, the particles in the air in the enclosed room are the particles that less than 1.0 million particles per cubic meter of air, the amount of fungal spores in The air in the air in the closed room is lower than the amount of mold spores present in the air in the air outside the closed room. At least 1.1 times prior to this method and the surface fungal spores in the closed chamber were below the spores level. At least 3.0 times of surface fungi in the closed room prior to this procedure ------------------------------- ---------------------------------------------------- ------ Provided are methods for reducing fungal spores. and small particles in the air in a closed room in this closed room This method consists of the process of attaching the vacuum to the air handling system and the exposure of the air handling system to type 1 antimicrobial agents, insertion. Clean carpets and furnishings in an enclosed room, covering this enclosed room with mist of Secondary antimicrobial action, ozone emissions in closed chambers for a period of time and ozone emission termination to allow ozone concentrations to return to normal, oil tank filling. The tea tree enters the air management system. and the start-up of the air purifier with the air in the enclosed room, where for a period of at least 90 days, the particles in the air in the enclosed room will be less than 1.0 million airborne particles per cubic meter of air, fungal spores in the air below the amount of mold spores in the air in the air outside the closed room before doing this method. at least 1.1 times, and surface fungal spores in the enclosed chamber were below the surface fungal spores level. In a closed room before this method, at least 3.0 times

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: EDIT 15/09/2015 1. Methods for reducing allergens in closed rooms. Where allergens are selected from The group consists of airborne particles, airborne mold spores, and surface mold spores. And where the air in the closed room contacts the air management system This includes the steps of a) the insertion of a vacuum in the air handling system b) the application of an actuation solution consisting of a first antimicrobial agent. To the air handling system Where the solution is applied by blowing air into it; c) Using a vacuum with the carpet. And furniture upholstery materials in the room closed with machines Vacuuming with a high-efficiency particulate air filter High-Efficiency Particulate Air (HEPA) d) Application of a formulation containing a cleaning agent to carpets and upholstery in enclosed rooms. Where the cleaner is the element which Contains non-ionic surfactants, benzalkonium chloride, 2-propanol or di-N-alkyl. (C8-C10) -N, N-Dimethylamonium Chloride e) Mist-shrouded chamber surface treatment of the compound formulation. With a second type of antimicrobial agent Where a second antimicrobial agent is a constituent consisting of actuase organosilane, quaternary chloride or hydrantoin resin f) chamber ozone release. Closes at a rate of at least 2 parts per million (ppm) for at least an hour. G) Termination of ozone emissions. And the release of the ozone concentration in the closed room It was reduced to below 0.05 ppm h). The filling of the holding tank containing the composition of tea tree oil into the system. Deal with air So that when the air handling system is running, the tea tree oil will be distributed in a closed chamber where the tea tree oil can be diffused to allow the air to be drawn into the handling system. About air coming into contact with the tea tree oil that spread. And distribute the tea tree oil into this enclosed room i) start up the air handling system and j) start the air purifier. In which the air purifier is equipped with a filter (HEPA) and an activated carbon filter, which after the j-stage and periodic start-up of the air purifier For at least 90 days, the airborne particles in a closed chamber are airborne particles below 1.0 million particles per cubic meter of air, and there are fewer mold spores in the air in a closed chamber than the spores. Of The airborne mold outside the closed chamber prior to the procedure a) to j) was at least 1.1 times lower and the amount of surface mold spores in the closed chamber was lower than that of the fungal spores at the closed chamber. At least 3.0 times the surface in the closed chamber prior to the procedure a) to j) 2. Method of claim 1, where airborne particles are below 30,000 particles per cubic meter of air. According to claim 1, where the amount of mold spores present in the air in a closed room is lower than The amount of fungal spores in the air outside the closed chamber prior to the procedure a) through j) is at least 1.5 times 4. Method according to claim 1, where the amount of fungal spores at In the lower closed room air The amount of mold spores in the air outside the closed room is at least 100 times higher. 5. Method according to claim 1, where the amount of mold spores at the surface in a closed room is lower The amount of surface mold spores in the closed chamber prior to the procedure a) through j) at least 5 times 6. Method according to claim 1, where antimicrobial agent I was 2-Bo. Romo-2-nitro-propane-1,3-diol 7. Method according to claim 1, where the cleaner is an element composed of non-surfactant. - ionic, benzene alconium chloride, 2-propanol or di-N-alkyl (C8-C10) -N, N-dimethyl ammonium chloride. 8. Method according to claim 7, where the formulation containing non-ionic surfactant is added with hydrogen peroxide 9. Method according to claim 7, where the reducing agent Non-ionic surface tension is the polyoxide. Ethylene Fat Acid Ester 1 0. Method according to claim 1, where the second antimicrobial agent is the component which Contains actives, organosilane, quaternary chloride. Or hydrantoin resin 1 1. Method according to claim 1, where actuys organosilane is 0.75% by weight of Formulas containing actives organosilane 1 2. Method according to Clause 11, where actuase organosylane is octadexyl a Mino-dimethyl trimoxyoxylylpropyl amonium chloride 1 3. Method according to claim 1, where the ozone concentration in the closed chamber is between 4 parts per million. And 8 parts per million Before the cessation of ozone emission 1 4. Method according to claim 1, where the composition of tea tree oil is combined 8% tea tree oil 1 5. Method of claim 14 where the composition of tea tree oil is composed of Combined with lemon tea tree oil 1% 1 6. Method according to claim 1, where the air-conditioning management system is Personal temperature control 1 7. Method for claim 1, where the air handling system consists of air duct work 1 8. Method according to claim 1, where all exposed surfaces are completely exposed Significance Has been made Cover with a mist of a compound containing a second antimicrobial agent. 1 9. Method in claim 1 where a closed room is a hotel room, a condominium or a hotel room. Tourist boat -------------------------------------------------- -------------------- 1. Methods for reducing allergens in closed rooms. Where allergens are selected from The group consists of airborne particles, airborne mold spores, and surface mold spores. And where the air in the closed room contacts the air management system This includes the steps of a) the insertion of a vacuum suction in the air handling unit b) the application of an actuation solution consisting of a first antimicrobial agent. In air handling systems using air to blow in. C) Using a vacuum with carpets. And furniture upholstery materials in the room closed with machines Vacuum the dust assembled with the filter. High-Efficiency Particulate Air (HEPA) d) Formulated application of mixtures consisting of a cleaning agent for carpets and upholstery in enclosed rooms. Where the cleaner is a mixture composed of non-ionic surfactant, benzene-alkonium chloride, 2-propanol or di-N-alkyl. T (C8-C10) -N, N-Dimethylamonium Chloride e) Mist-shrouded chamber surface treatment of formulated mixtures including With a second type of antimicrobial agent Where the second type of microbial agent is a mixture containing actuys organosylane, quaternamic chloride. (F) Closed chamber ozone emissions at a rate of at least 2 parts per million (ppm) for at least one hour. G) Termination of ozone emissions. And the release of the ozone concentration in the closed room It was reduced to below 0.05 ppm h). Adding a hopper containing a mixture containing tea tree oil into the management system. Air So that when the air handling system works Tea tree oil Was distributed into a closed chamber where the tea tree oil could Has been pulled into the unit Handling about the air coming into contact with the spread tea tree oil. And spread the oil The tea plant enters this enclosed room i) start up the air handling system and j) start the air purifier. In which the air purifier is equipped with a filter (HEPA) and an activated carbon filter, which after the j-stage and periodic start-up of the air purifier For at least 90 days, the airborne particles in the closed chamber are less than 1.0 million airborne particles per cubic meter, and the amount of mold spores present in the closed chamber air is lower than the amount of airborne mold spores. The airborne mold outside the closed chamber prior to procedures a) to j) was at least 1.1 times lower and the amount of surface mold spores in the closed chamber was lower than that of the mold spores in the closed chamber. Closing chamber prior to procedures a) through j) at least 3.0 times 2. Method in claim 1, where airborne particles are below 30,000 per cubic meter of air. Right number 1, where the amount of mold spores present in the air in a closed room is lower than The amount of fungal spores in the air outside the closed chamber prior to procedures a) through j) is at least 1.5 times 4. Method in claim 1, where the amount of fungal spores at In the lower closed room air The amount of mold spores in the air outside the closed room is at least 100 times higher. 5. Method of claim 1, where the amount of mold spores at the surface in a closed room is lower The amount of surface mold spores in the closed chamber prior to procedures a) through j) is at least 5 times 6. Method in claim 1, where antimicrobial agent I is 2-BO. Promo-2-Nitro-Propane-1,3-Diol 7. Method in claim 1, where the cleaner is a mixture consisting of Non-ionic surfactant, benzene alconium chloride, 2-propanol or di-N-alkyl (C8-C10) -N, N-Dimase. Thylammonium Chloride 8. Method in claim 7, where formulated mixtures containing surfactants Non-ionic surfactant is supplemented with hydrogen peroxide 9. Method in claim 7, where non-ionic surfactant is polyoxide-ethylene fat. T acid ester 1 0. Method in claim 1, where the second antimicrobial agent is a mixture that combines With actuase organosilane, quaternary chloride Or Hidantoin resin 1 1. Method in Clause 11, where Acquias organosilane is 0.75% by weight of Formulated mixtures containing actives, organosilane 1 2. Procedure in Clause 11, where actuys organosylane is octadexyl amino-imethylomethoxyoxylylpropylamno. Nium chloride 1 3. Method for claim 1, where the ozone concentration in a closed chamber is between 4 ppm and 8 ppm. Before discontinuing ozone emission 1 4. Method for claim 1, where a mixture containing tea tree oil contains 8% tea tree oil. 5. Procedures in Clause 14, where a mixture containing tea tree oil is compounded. Next, with lemon tea tree oil 1% 1. 6.Method of claim 1, where the air management system is a temperature regulator. Personal air 1 7.Method of claim 1, where the air handling system consists of air duct work 1. 8. Procedures in claim 1, where all exposed surfaces are substantially Has been made Cover with a mist of the formula mixture. Which includes a second type of antimicrobial agent 1 9. Method for claim 1, where a closed room is a room in a hotel, a condominium or a room in Tourist boat