HU230171B1 - Method for operating automatic airconditioner disinfection systems - Google Patents

Abstract

The subject of the invention is an automatic airconditioner disinfection system, making possible the elimination of the microorganisms settled in the filter units, air-tube systems and heat exchanger systems of air conditioning equipment, ensuring this way the supply of contagious matter-free, clean air. The automatic airconditioner disinfection system, according to the invention, containing a cartridge, disinfectant, a vaporizer head, which is characterized by that, cartridge(s) (3) filled with quantity of disinfectant (8) under overpressure, proportioned to the capacity of the flues (4) of the air-conditioning system are located in the air- conditioning unit (1) of the air-conditioning system, or in the storage unit (19) placed directly next to the air-conditioning unit (1), where said cartridge(s) (3) is automatically trimmed-off, interposing a manual, or electronic timer switch, in a point of time and order, determined in advance, at the receipt of the signal from the starting switch (6), and in given case the disinfectant (8) is injected (BE) into the flue (4) of the air- conditioning system through the conduit (18) and the vaporizer head (10), then the disinfectant (8) is kept in the flues (4) of the air-conditioning system for a proper contact time, then after the expiry of the cleaning phase (TI) it is removed from the flues (4) of the air-conditioning system by ventillation (SZE). The automatic airconditioner disinfection system accoeding to the invention, containing unit radiating ultraviolet light, and lamp, which is characterized by that, a unit, and lamp(s) radiating ultraviolet light are placed at the access of the flue (4) leading out of the air-conditioning unit (1) of the air-conditioning system, or in case of demand at the proper points of the flues (4) of the air-conditioning system in such a way, that with the help of the interposed manual or electronic timer switch at proper time periods the surface of the flues (4) and the air flowing through the full cross-section is transilluminated in a proper extent.

Description

File number: Forward ÖÖ419

A procedure for operating a car-free climate control system

The present invention relates to a method for operating an automatic air-conditioning system which enables the elimination of microorganisms settling in air conditioner filter units, air duct systems and heat exchangers, providing the enclosed space with decontaminating clean air.

Today, the unsteady is of increasing importance. or the need for effective protection against infectious and allergic diseases caused by inadequately cleaned air conditioners, which is still an unresolved task. With the increasing use of air conditioners, it is increasingly important to decontaminate their filtering units and ducting systems. especially in the case of air conditioners created by recirculation of indoor air, a large number of indoors people, breathing pollutants, settle in and then multiply into the components of the air conditioners.

At present, air conditioners are cleaned and disinfected manually by spraying with airborne aerosol disinfectant into the air conditioner filter unit. The quality of the cleaning done in this way depends on the thoroughness of the maintenance staff, and because of the training of the air conditioner units, many of the roomy patterns that are not readable in 5.1 tg of phenotype can not be read into these parts. Another disadvantage of this type of disinfection is that in the event of disinfection of the disinfectant, only a part of the ages are destroyed, ie the complete eradication of the pathogens is not achieved because in most cases the short-term disinfection process is not sufficient to destroy the pathogens.

ο

Expert test taker is not enough to clean the air conditioning system once a year, and not only with manual, subjective results, but at least twice or every several times a year, an effective method of cleaning every cavity, surface debilitating discharge,

Λ state of the art DE 202 009008674 Ul. German field application description describes a disinfectant perfume system which allows for the perfuming of the disinfection of ventilation equipment, sewerage piping systems and rooms. The system comprises one or more compressors or pumps which are electrically controlled by magnetic valves ., time relays, humming switches, charge level indicators, fuses, sockets, transformers (etc.), and one or more pressure and charge / supply units having a desire for a plurality of disinfectant and perfume media containers, e.g. are connected to a vessel or can that is located in a bazbun ktrübuk and enables, independently of the air stream, various perfuming and disinfecting media to be used in ventilation equipment such as ducts and rooms. the intake and release of this,

The system can be housed in a compact housing, which in some chambers, e.g., compressors or pumps, is pressure-maintaining; can be divided into pots and cans as well as electric supplies and \ porridge. Mmdeukol alkabua / h, i. E., The compressor bi / U'suja or pumps make it possible to generate the required pressure to release various media via conduits. The solution described herein allows controlled and controlled release of the various phyto-desulphurisers and fragrances in ventilation equipment to kill germs, bacteria, viruses and fungi, while delivering a pleasant scent to the air.

The Chinese Application Specification CN2716704 discloses a duct-type ultraviolet air sterilization and purification unit for central air conditioners, characterized in that the sterilizing ancestral cleaning unit comprises an ultraviolet sterilizing lamp and the ultraviolet sterilizing lamp is installed in the aeration unit of the central air conditioning. The use pattern is a compact and reasonable and easy-to-install structure, which is used in the central air-conditioning air duct to greatly kill bacteria and viruses in the air duct. In this way, cross-contamination with pathogens can be prevented through the air channel and disinfection and air cleaning can be carried out.

It discloses a system for disinfecting buildings using patent ozone as disclosed in OS2O042Ö257O. The method comprises the steps of connecting a disinfection system capable of producing air and ozone, using an air recirculation system that serves the ozone-enriched supply air. for a given period of time for the system. By selecting the machine control of the ozone and spamming periodically! to minimize ul to minimize the ozone underneath caused by their arm. in the material, such as the c'-process, the bile; and disinfect. The method of toxabha comprises the steps of circulating lighted interiors and / or air from the area with ultraviolet and / or adjusting the relative humidity to the desired level. Kunis also describes a system for disinfecting a particular area, which includes a generator: an ozone generator, a detector to measure the concentration of roe deer, and a regulator to control the generator to maintain the concentration of ozone in the area within a specified time.

FR284-A564 discloses a motor vehicle air conditioner having a disinfection tank and an atomiser. which injects vapors and eliminates odors. The air conditioning system has a series of air and control locks, a vent, a heater, a vaporizer and a drain pipe that removes liquids condensed to the evaporator. In addition, there is a reservoir of liquid for the hopper and an atomiser / reservoir for injecting the liquid before or after the air is circulated. The disinfection nozzle is actuated by a controller connected to the air conditioning control unit.

Patent Publication FR292Ö348 discloses a removable disinfectant cartridge for heating, ·· and air conditioning units of motor vehicles. The cartridge has a fastening portion of an egv, such as a slot that cooperates with a groove in the housing opening of the running and air conditioning unit and temporarily secures the cartridge to the housing. Windows are arranged around the periphery of the cartridge to contain volatile chemicals, e.g. for diffusion of cavities at the inside of the case where the cartridge is cylindrical or column shaped.

[0002] Patent Specification No. CN1 / 0376 / 8I discloses ventilating, heating or air-conditioning apparatus, particularly for vehicles equipped with devices for treating air by the diffusion of volatile active ingredient. The equipment is there. a wall separating the air from the air, u wall has an opening for a treatment cartridge, the hgs food divider defines one. a diffusion chamber for the volatile drug substance, and this portion is located inside the air circulation.

The solutions described below need to completely eliminate the microorganisms that are found in the filter units, air ducts and heat exchangers of the air conditioning systems.

Our goal in developing a vermit mole solution is to provide d ', ams kidobo / asa', which will allow khme teak systems to destroy any pollutants or microorganisms that are installed in any unit of the air conditioning system at any time.

In the process of the present invention, it has been discovered that when the appropriate amount of an infectious substance contaminated with the air conditioning unit or directly adjacent to the air conditioning unit is loaded into the cartridge (s) under pressure, either directly into the air conditioning unit or separately containers are filled with ferric fuel and propellant gas, and a predetermined purely oral transdermal fluid and foam opt. cg \ common adnuolo ee \ see, insert dispenser, then manual or electronic beats timer switch to start the trigger switch by automatically dispensing the disinfectant or disinfectant from the dispenser unit and through the hair gas, spraying a spray case for the air-conditioning system, optionally compressed air for conveying a disinfectant to the air-conditioning system, and providing the supernatant.

keep the air conditioning system in contact with air for a sufficient period of time, then. after this, the kltoarodosystem is vented out of the air, then the cooked target is reached.

The invention thus relates to a method for operating an automatic air conditioning system comprising a cartridge, an infectious agent and an atomiser milk, which is placed in a climate unit of a climate system or in a storage unit near the climate unit under pressure to maintain the airflow rate. · Fill in ink cartridges, which are ink cartridges) with manual or electronic timer switches, which are automatically triggered by kts / gentlemen to start the mute switch. and the phenothelotic cell? optionally, they are sprayed through the airway of the air-conditioning system through tens of pods, and then the disinfectant is held in the air-conditioning system for a sufficient time to contact, and after this cleaning phase, can be realized either manually or automatically, during manual start, the user of the air conditioning system, for example in a building or car, presses the start switch itself, which activates the air conditioning system; automatically activates the air conditioning system at the time, so the first step in the process is to spray the disinfectant into the storage starts with the first member of the cartridges in the unit after it is mechanically sprayed out by the signal from the starter switch, ie it filters out and overloads the pad with a suitable amount of disinfectant through the line through the nozzle head to the positioning points optimized for legion bags, it is sprayed into the system and every cavity is there, v, n Expelled, for this purpose every part of the Khmereudsze kgjaruta e \ is executed in such a way that the flow fluid is optimum, that is, the disinfectant can reach every point of the air conditioner thereafter, as a second step of the process, a lithitis phase is carried out, which, by distillation into the air conditioner, is a heporlastotic disinfectant through a predetermined cootactide which is transmitted to the user by mtos / er, il lene is predetermined according to the design of the climate.fectendez, fills the entire volume of the airway, enters into the air with all the elements and the development of its air. and the adhering roi-croquettes (bacteria, algae, fungi, protozoa, viruses) are killed by the disinfectant, and the amount and pressure of the disinfectant in the cartridge is scaled so that the disinfectant is released into the climate system When determining the amount of lake / o, centrifenn bunt, the time required for killing microorganisms in the climate system should also be taken into account, and in the first step of the process, the ventilation phase starts automatically after In case they have to ensure that the disinfectant is removed from the inside of the car through the windows, during the process the pre-use cartridge of the air conditioning system is packed in a case in this case, the seal is closed by means of the cartridge t pubou, and the cartridge in the housing is connected to the sealed sole, the base of which is provided with a piercing pin or pin from the storage part, the wire is placed in such a way that the oaonohoh on their soles is tensed at their soles looking for woofers connected to the dhehched wire, and when the automatic khnuús / um system is triggered by the start switch, , as a result of the boot process, you will punch the cartridge cartridge seal. that is, the puncture needle pierces the cartridge seal and the disinfection charges in the cartridge, which are sized to the volume of the air-conditioning piping system and are pressurized with appropriate menstrual pressure, pass through the puncture needle into the conduit and then duct a, eh ^ zte terbo. if necessary, the car's kkmurends / cteneh vahtmmmv passes through · the filter, the air entrainer enters and unlocks the unodemost, and <λζ during the subsequent contact / duct, holds the disinfectant in the system and holds it in the system it causes the microorganisms deposited in the valaoethm subunit of the air conditioning system to be destroyed and after the contact time has elapsed, the air conditioner fan is automatically activated, which causes the disinfection of the air conditioning system to be blown out. and the windows at the bottom of the car are ataxUmbe at the bottom of the kbmabeu'ndezes floating air mt arch.

which process is repeated from time to time, or the process is repeated more frequently according to individual needs, which is repeated every time the next cartridge is used.

In a preferred practical application of the process of the present invention, the lotion blowing agent material is ClO2, or K3horohydrate, or OPA, or Benzalkonium chloride, which may be sealed under pressure in the cartridge.

In another preferred practical application of the process of the invention, the choice of the material of the propellant gas: is adapted to the material of the disinfectant used.

Tu'Jman} e'prav '.owbbi lead ^ em nlkalma / a-j. alive "fom> tk'm, e \ / e?

choice of solvent is based on the type of disinfectant used,

In another preferred celerial application of the tachymene method, the contact time of the bbc tofa / ks is determined by the volume of the air-conditioning system, the hair gas pressure, and the mechanism of action of the desiccant, preferably the salt. 30 minutes

The present invention will now be described with reference to the accompanying drawings in which:

Figure L is a schematic diagram of a possible operational flow diagram of an embodiment of a kbmat purification system used in the process of the present invention.

Figure 3 illustrates a possible embodiment of a cartridge embodiment of the kbmat purification system used in the present invention.

THE 3. Fig. 6A is a sectional view showing a possible pre-dawn design of a white-ink cartridge used in the process of the present invention and a possible dispensing embodiment thereof.

Figure 4 is a cross-sectional view of a pre-use configuration of a pre-used cartridge of an air conditioning system used in the process of the present invention and another possible application thereof.

Figure 5 illustrates a possible embodiment of a tank cleaning system used in the process of the invention.

FIG. <RTIgt; depicts </RTI> another possible embodiment of a tank cooling system used in the process of the present invention,

Fig. 1 shows a possible operational lobby of a 3 pair embodiment of the air conditioning system used in the process of the invention. Fig. 1 shows the process of the air conditioning system, i.e. fbm ms / hm. Start the dusting of the 8 disinfectants. then the need * lubricated with tide trust.umsu the clean-up phase ΤΪ followed by the SZH ventilation, As a result of the flame process, the desired Tt · clean 4 airflow in the air conditioner is realized.

Would the climate change inmtasa> inmtasa materialize? a. vr & \ mannallun, <ag \ automatically, During manual startup, the user of the klnmdistue system, for example, in a building or in a car, press 6 Startup Switches to activate the khmstyle system. In case of auto-start, the pre-time will turn on Uhl ss watcher »the htdssokapesolo st will be triggered amoomatically at the set time o kdma'os.'Oo

Correspondingly, for example, the injection of BB 8 into the storage unit 19 starts with the first member of the cartridges 3 in the storage unit 19 after being triggered by the trigger 6. received signal dltpj.ma 3 p.usoo nstA'.artkmAg pddéui k $ \ z, n, A \; d kummnuk ts \ t pmambest overpressure, i.e., a sufficient amount of tennis smoothing agent 8 passes through line 18 to atomizer 10. through the 4 air passages, at optimized location points, BE is dusted into the system and there all the cavities were pushed by tuyes, In this region is the khtnarend? 4! Egp, mrt es mseden ekmv. n, \\ t.g \ is executed to optimize ámmsásteehmk.drtg, so that the disinfectant 8 can work at every point of the air conditioner.

This is followed by the ΪΙ hs / lyase phase. During the flour phase of Ti, the air conditioner BE is sprayed into the air conditioner by S lumenso ^ 'e ~, </ predetermined via a compact which is found in the j \ dnsj / e * í S crouee ^ mr dv ό u I n nabcumv and v For the purpose of predetermination, it fills the entire volume of the 4 passages, contacting all elements of its 4 passages, and where: the taproot organisms (bacteria, algae, fungi, protozoans, viruses) are killed by the action of 8 cells.

The amount and pressure of the phenotypic agent 8 in the cartridge 3 must be dimensioned such that a heporlasotic disinfectant 8 enters the air conditioning system and fills the airway 4.

The time needed to kill microorganisms in the climate system should also be taken into account when determining the conidia of TI purification.

After the TI purge phase, the ventilation phase of the SZE starts automatically, that is, the clan, ·, system centlatt. its fans blow out the disinfectant 8 at the carriageway 4 Then, for example, in the case of a car, it must be ensured that through the windows the disinfectant 8 'is removed from the interior of the car.

In closed office buildings, where the space is closed, there are no windows that can be opened, there is a ventilated monster that takes it out at night, on public holidays, etc. A blended air system containing 8 disinfectants was generated when the system was switched on.

so at the end of the toh urn, TI was assured. clean 4 flights,

For their core systems, such as buildings, office buildings, a refrigeration / cooling system should be designed to provide the desired disinfection for the entire system or for each section of the system. In order to do this, the air conditioning system needs to put more appropriate blades on the climate control system,

During the operation of the kh'mattress system, they shall ensure that the doors and windows of the building are in a closed state during start-up, BE-injection, TI-cleaning and during this time. do not operate any other ventilation system indoors. because this would significantly reduce the output of tis / tn <K. After the TI flushing surface, however, it is understood that during the SZE ventilation phase, it must be ensured that the disinfectant 8 enters the interior with the help of the men, v, m / u / fennie femvi, tnsdarutok μήκ, ο ret ^ i or the climate system.

Fig. 2 illustrates a possible embodiment of a soda-ash treatment system 3 used in the method of the invention. The figure shows the air-conditioning unit 1 to which the air ducts 4 and the air outlet cavities 5 are connected via the distribution space 2. The figure illustrates that the atomiser nozzle 1Ö extends into the distribution space 2 and is terminally connected to the cartridges 3 in the storage unit 19 with a starter switch 6.

The patronized khmatis / tioio solution described in Schemeii is suitable for the ejection system of ehosorhan cars, but can be used in other places, such as buildings, air conditioners, and air conditioning systems.

A representation of a gifted exploration of the 3 sleeves of the uhlm.un o / emu elgua'x mmu z'halma oü khmah'xzín · 'billionrd' zvr, upstream Ewnalat, and a possible scattering implementation thereof. In the figure the cartridge 3 is placed in the case 12, the disinfectant 3 is placed in the cartridge 3. Cartridge 3 is sealed by cartridge 13 closure. As shown in the figure, the cartridge 3 in the housing 12 is connected to a base 16 provided with a gasket 15, which is provided in the base 1.6 with the puncture pin -4 connected to the conductor 18.

Fig. 4 is a possible shoutout of a preloaded cartridge 3 of an air-conditioning system used in the process of the invention. and another possible application of it is shown in section. The cartridge 3 in the case 12 is shown. The cartridges 3 contained these disinfectants 8. z3 Cartridge 3 is sealed by cartridge 13 closure. As can be seen in the figure, the cartridge 3 in the pouch 12 is connected to the firing foot provided with an IS gasket which is mounted in the foot 16 by the filter spike 17 and the lead 18 from the storage portion 19 of the firing foot.

Figure 5 illustrates a possible embodiment of a containerized embodiment of the kbtnuhshi system used in the process of the present invention. In the figure, the cartridge 3 filled with disinfectant 8 and the tank 20 filled with refrigerant gas 7, the drive gas 7 and the disinfectant 8 are introduced into the dispensing unit 11 and mixed into the airway 4 via the spray nozzle 10 via line 18 , to the heat exchanger. Hydrogen gas 7 can be stored in cartridges 3 on request and disinfectant 8 can be stored in 20 bottles on request.

The tank khmatis dry system described above is not applicable to cars. me «space requirements are very high. This solution is particularly applicable to air-conditioning systems installed in a building, as it has the advantage that the containers 20 can store large amounts of 7 gas and 3 disinfectants.

Another embodiment of a containerized air conditioning system used in the process of the present invention is shown in the figure. The figure shows the container 9 filled with disinfectant S, the disinfectant 8 is sprayed into the hanging goods 4 through the nozzle head 11 and then through the nozzle 18. In this case, the hair gas 7 is not used, so that the baffle 8 is discharged with a blast furnace blast. The opening into the trenches 4 is covered by the injection of compressed air SL. The 11 can be electrically or pneumatically operated.

The tank khmuüsznto remfe / et mats described below are not uikalma / huto because of their large space requirements. This solution is particularly applicable to air conditioning systems installed in a building, since it has the advantage that a large amount of § disinfectant can be stored in the storage tank 9.

In a possible advantageous application of the K-cleaning system used in the method of the present invention, a storage unit 19 is mounted in a defined portion of the car, preferably near the discharge unit 1, into which cartridges 3, preferably 12, containing disinfectant 8 are placed. The cartridges 1.2 of the cartridges 3 are attached to the firing soles by inserting the cartridge, since in this case it is less necessary to dispose of the used cartridges. and replace them with new, refilled cartridges.

A. The cartridges 3 are connected to the IR wire in the storage unit 19 via their spout 14 mounted on their shots 12. The automatic air-conditioning system is activated by a removable switch 6, which can be done manually or by a timer switch. To perform the start-up process I, the cartridge 13 is closed by a known method, i.e. the H 2 ^ / uro needle filters the cartridge 13. and dispensing a suitable amount of pressurized disinfectant 8 in the cartridge 3, which is sized to the volume of the wet bodies of the clonarendsxer, through the filter 14 into the conduit 18 and then through the conduit 18 to the suction nozzle 10 inserted therein.

After this, from the distribution space 2, in this case, it passes into all the air ducts, filters and air outlet cavities 5 of the car's air-conditioning system. S disinfectant and fill it. This is followed by the. TI relief fax, when the pre-determined 8-phytogenetic agent in the air-conditioning system is stored inside the system and causes the microorganisms deposited in all components of the air-conditioning system to be destroyed,

After the contact time has elapsed, the fan of the lime unit 1 automatically switches on, which cools the disinfectant 8 to disinfect all 4 airways in the climate system. To do this, it is advisable to open the car doors or pull down the windows. After the SZE is ventilated, clean air is introduced into the passenger compartment through the air conditioning system.

It is advisable to repeat the above process in at least one or two cases per year, but we may do it more often according to individual needs.

In the case of a repeated process, the next 3 cartridges will naturally be used.

In another possible advantageous application of the air conditioning system used in the inventive harvesting system to the busted part of the building constructed with the air conditioning system, it is preferable to. In the vicinity of one prayer unit, the barrier gas 7 is placed in a container 20, and the disinfectant 8 is placed next to it in another container 20. From the tanks 20, the barrier gas 7 and the disinfectant 8 are piped from the tank to a common stake, the dispensing unit 1.1. controlled by an intermittent timepiece electronics, controls the amount of propellant gas 7 and disinfectant 8 entering the dispensing unit 11;

1.1. can be set in a dosing unit depending on the size of the air conditioner and the tank.

In the dosing unit 11, the propellant 7 and the disinfectant 8 are mixed and then transmitted via the dosing unit 11 to the nebulizer 10, where the nebulizer 10 is sprayed into the air stream 4L and continues to flow therefrom. for all interoperable units of the air conditioning system.

Thereafter, the TI delivery phase occurs when the 8 tenotlenno pellets in the lymphatic system are exposed to microorganisms deposited in all components of the climatic system / er, prior to their predetermined contact time.

After the contact time has elapsed, the xeutilhior of the air conditioning unit 1 is automatically switched on, which causes all the ducts of the air conditioning system to be discharged with the help of the disinfecting agent 8. During this phase of operation, it is necessary to ensure that the disinfectant 8 is removed from the premises of the building, providing the occupants with air-free air.

The above process should be done at least once or twice a year. it is advisable to repeat it, but according to individual needs my processes can be repeated several times.

Muci in this case are 'folded', \ alarms are stored in 8 large tanks / cr in large 2b tanks, which ensures that they are refilled less frequently. Where appropriate, a level sensor or pressure sensor may be provided in these tanks to track the amount of material contained therein.

In a further advantageous application of the air conditioning system according to the invention, the storage tank 9 is disposed in a diseased part of the building constructed with the air conditioning system, preferably near the air conditioning unit 1 or in the large air conditioning unit 1 itself. In this case, the reservoir 9 is placed in the storage tank 9.

At the start of the air cleaning process 1, the disinfectant 8 from the storage tank 9 is pushed through the line 18 to the spray nozzle 10 via the feed unit 11, where. it is sprayed into the 4 exits of the air conditioning system. In this case, the phenotoxicant S is delivered to the units of the air-conditioning system by blowing in air of fe'gjar.ttbu SL 4 near the 10 poles / oil.

In this solution, a timer electronics controls the amount of disinfectant to be delivered from the dosing unit 11 to the air conditioning system. Quantification can be set in the dosing unit 11, depending on the size of the climate and the storage tank 9.

For all buildings with air-conditioning systems, it is necessary to dimension exactly the amount of § disinfectant to be introduced into the system and the diameters of the passages. the amount of propellant gas, depending on its length, which ensures that the disinfectant 8 reaches each ptu of the icnds in kCh. In the case of multi-storey vpules, it is advisable to install several cooling systems on each level, and optionally on each level.

In a further preferred embodiment of the air-purifying system used in the process of the present invention, the air-conditioning system is air-conditioned. and, in the case of a car or building with a climate system, at a specific point or points of the climate system, preferably a. , a suitable lamp, such as an LED-shaped gcrmicidal lamp, is emitted which emits ultraviolet light itself. By exposure to ultraviolet light, a large proportion of the microorganisms in the air passing through a given cross-section are killed, thus allowing the microorganisms to enter the climate system. do not form a focal point.

When installing the ultraviolet emitting lamp, care must be taken to illuminate the entire surface of the passageway 4, i.e., to treat the air passing through the entire surface of the cross-section. A larger khma would regularly place a bluish-like spot on the uluaibofea light emitting lamps.

The automatic khmadylation system used in the method of the invention, at intervals determined in advance, optionally in combination with an appropriate timing system or an automatic warning system eeforomkiK, manually activates an oe / o cleaner, S disinfectant set according to the parameters of the particular air conditioner. , should be present at an appropriate concentration at unfavorable points in the flow, and provide the necessary effect, which is to kill microorganisms, providing sufficient contact time,

The choice of the 8 disinfectants is a very important parameter for the tendin / Ct n.dekom nmkode ^ e. The 8 frying eyes. has to meet many requirements for brain, such as shelf life (chemical stability over time):, solubility in appropriate solvents at appropriate concentrations, human toxicity properties, concentration, temperature. pH value, etc.

The disinfectant grains used must meet the requirements of being non-toxic to humans, of providing stability over a relatively long period of time, of being non-corrosive and of no harmful by-products during use, and of removing by-products from the climate system,

The material of the disinfectant 8 may be;

- Chloroenzymes: Oxalizing moieties: Halium permanganal, Hydrogen Nvroside, Ethyleneoxy, H

- Aldehydes: formaldehyde, glialarehyde, orpho-aldehyde

- whitewash

- Compounds containing chlorine; extraction gas, bipochlorides, monochloroam, chloramine-T, chlorine dioxide

- Alcohols

- Phenol derivatives

- Kvater.net Ammonium: Compounds: Beazalconium Kortortd, Clothexide but preferably: € 102, Chloramine-T, ÖPA, Benzalkonium Cleride, which can also be pressurized in 3 cartridges,

Λ Solvents for 8 disinfectants should be selected according to the material of the 8 disinfectants. \ ⁷ hujtoga.- 'materials should be selected according to the material of the 8 disinfectants.

For example, for C102 § disinfectant 7 is preferably used as hair gas, SI, saline air *, while in the case of Chlormin-T, ÖFA, Öenzalkone n-chloride, nitrogen, argon or air 7 is preferred. storage tank When selecting the material of the dispensing unit 11, the container 20 should be taken into consideration the material of the propellant gas 7 and the disinfectant 8, such as aluminum, stainless steel, steel, preferably plastic.

When selecting an atomizing device and its nozzle head 10 for use in the automatic de-icing system used in the process of the present invention, the properties, density, consistency, etc. of the sterilizing agent 8 used should be taken into account. I polished the 8 fine cleansing agents. Since the smallest drop size can be achieved with the help of pneumatic sprayers, this is the best way to disinfect the air conditioners.

The pressure of the propellant gas 7 is stored in up to 3 cartridges or in the container 20: the nebulizer and its 1.0 liter spray, the droplet size of the disinfectant 8 on the desired nebulizer. and is determined as a function of the stake teeth of the 4 passages of the air conditioning system. When designing, care must be taken to ensure that the volume of metering gas 7 supplied at atmospheric pressure does not exceed the volume of the interior space of the air conditioning system, since then it is blown out by the propellant gas 7 providing the flow of planting agent.

our previous experiments so far, the contactido emuk application of 8 disinfectants' - 'did not exceed 30 minutes from the point of view of obtaining the keik,' cooling, since the amount of disinfectant S and the pressure of 7 propellants were adjusted to the volume of the climate system. . The automatic air conditioning system used in the process of the present invention has two types of stone solution. For smaller heh gums, particularly for disinfecting amine clinic devices, disinfectant 8 is placed in cartridge 3.

In this case, when the trigger 6 is integrated into the passenger compartment of the car, or automatically triggered, the first cartridge 3 in the storage compartment 19 is repeatedly filtered and the system and the lew 8 disinfectant are always filtered and activated. tnvmo medium is sprayed through predetermined optimum pressure and through optimized ducts to reach even the most critical cavities, performing a disinfection operation For health protection purposes, the cleaning operation is performed only when the vehicle is stationary, preferably in the evening or after several hours of operation. value should be time to leave. After the cartridges 3 have been released, approx. After 10 ~ o0 pete, the vents will automatically blow out the 8 disinfectant from the air conditioning system.

For example, in the case of larger cars, buses, where the airflow of the climate system 4 is significantly larger, more than one, two, three cartridges 3 are required. For larger air conditioners, the disinfectant 8 and the propellant gas 7 are preferably stored in separate larger containers 2 (1) to provide sufficient feedstock for multiple disinfection. Electronic timing is required for proper synchronization of the flap in both versions.

Newly perfect kUmatis / nto tends / u usetexx used in fahdmany leaching must accurately design the system flow system, ie the optimal route for the 8 disinfectants, so that all surfaces of the kmmnend / i.-r , or unavailable: cavities may not be in the system. The topa / grade 7 of the hair should be determined accordingly, how much better or less it may be necessary for the container 20 containing the hair gas 7 to release a sufficient amount of propellant gas in a disinfection process. .Felhasználású kiírna the particular method and the specific requirements of the cleaning process must be designed in accordance with one start-up phase, such that ^one manually or automatically, the I startup phase. In the case of automatic start-up 1, it is necessary to determine in advance the frequency with which the stem is to be set. íéieveme. monthly, at what time of day, on a calendar day. e.g. Saturday night, etc., will be repeated.

The advantage of the present invention is that the efficiency of the automatic air conditioning system does not depend on the conscientiousness and thoroughness of the installation personnel. Primarily in the automotive industry. We can achieve the efficient, more advantageous use of the air conditioners used for the purpose of serving your health and comfort needs. The system is also suitable for cleaning any non-automotive climate. It is a further advantage of the invention that it is easy to carry out several cleaning operations each year.

L A method for operating an automatic air conditioning system comprising an automatic air conditioning system comprising a cartridge, a disinfectant, and an atomiser head comprising a pressure unit within a climate unit (1) of an air conditioning system or a storage unit (1 (1) close to a print unit (!)). (4) a heater disinfectant (X) (3), dimensioned to the volume of the air conditioning system Ségídr, post s4), which cartridge (s) (3) is inserted manually or electronically, in a predetermined time and order, they will be automatically launched / dropped to start the launcher (s). and the disinfectant lake * optionally on the duct 5181 through the purLe / totoes (10) into the air-conditioning system airway (4) is air-bonded (OE), today the infctlemtos (X) is kept in the contact system (4) with a suitable contact link K and then, after this purification phase (Ti), is removed from the air circulation (4) of the air-conditioning system by a vent (SZE), characterized by the fact that starting the air purification system (1) and spraying (BE) method can be reversed. , \ ag \ manually, \ ug \ automattka ^ am _d m, the user of the air conditioning system, for example, in the building or in the car, press the start switch (6), the air conditioning system appears to be activated; After the time has been set, the start switch (6) automatically activates the khma-cleaning system at the set time, as a first main step, the spraying (ON) of the deserting agent (8) starts with the first member of the cartridges (3) in the storage unit (19) after the cartridge (3) is mechanically opened by the signal received from the starter switch (6), that is, it filters out and disinfects (ON) the disinfectant (3), which is placed under overpressure in the cartridge (3), that is, at a suitable pressure, through the conduit (18), through the nozzle (shoot) at optimally located points (4); and there, filling all the cavities evenly, in order to do so, the air system's most ancient (4) ancestor, part of the work is done to optimize the flow rate, that is, the disinfectant (8) can reach and exert its effect followed by the purification step (TI) as the second step in the process, (TI) the air conditioner sprayed (BE) disinfectant (S) at a predetermined contact time (which is the disinfectant used). tllebe is predetermined by the design of the air conditioner, fills the entire volume of the airway (4), comes into contact with all its elements, surfaces, and the mtkmoganic muscles (bacetics, broad-bodied pyotozoons, overburden (81) and to which the amount and pressure of the disinfectant (8) in the cartridge (3) is discharged so that the disinfectant (8) sprayed into the climate system reaches its expiration 14) and fills the air flow (4).

and the tis / mofa / is (TI) configurational determinant / asakov should take into account the time required for the killing of microorganisms in the climate system.

In the third step of the procedure, after the purification phase (TI), the ventilation phase (SZB) is automatically started, ie the air conditioning system is on the verfilter, its fans blast the fertmfe'mtoszer from tSs u legions t4s, the bee . that through the windows, the disinfectant (8i is removed from the interior of the car, during the process, the pre-filled cartridge (3t) of the chamfer / Uo system is placed in a case (12) and the disinfectant (8) is placed in this cartridge (3); the cartridge (3) being sealed by the cartridge closure (13), and the cartridge (3) housed in the housing (12) is connected to a base (16) provided with a seal (1.5) which is placed in the lead (18). from the storage part of the connected two-filter needle (14k or prick pin (1?) talammt from the top of the sole), λ thousands · ι 1 Sk were thus made difficult by the cartridges (3) fixed to the sleeve (12) in their soles (16). ) are connected via their trained pins (1.4) to the lead (18) in the storage unit (19), and when the automatic clitrant grease system is activated, the starter switch (6) sezu <ge \ e mam ah \ modor, \ au> dorneb kaommlovul pvgtonemk «u mdu-M; P fohunuU causes the cartridge closure (13) of the cartridge (3) to be pierced, i.e. the piercing needle (14) filters through the cartridge closure (13) and the cartridge (3). , was it dimensioned for the volume of the air conditioning piping? · kfosdkank is led through the puncture needle 4) to the nozzle head (10) extending through the puncture needle (18) and then through the conduit (18) extending into the distribution space (2) and from the distribution space (2), if necessary, to all air passages (4), punctures, air outlet cavities (5) of the car air-conditioning system: the disinfectant (8) and it. fills and during the subsequent lystitosis (Π), the disinfectant (8) in the air conditioning system is stored inside the air conditioning system for a predetermined period of time, and as a result, the air conditioner system rcs / am. microorganisms on the goby deposit are destroyed and the fan of the leachate unit (1) is automatically switched on after the contact tube has expired, causing the. the disinfection agent (8) is blown out of all the air ducts (4) of the air-conditioning system, whereby the car door may be opened or it may be possible to open its windows, and after the ventilation has been completed, the interior of the car clean air is introduced, which is repeated periodically, or more frequently according to individual Requirements, which, in the case of a repeated process, is always used for the next cartridge.

Claims (4)

A method according to claim 1, characterized in that the disinfectant (8) is made of Q2, or Kiommio-T, or OPA, or Benzalkylenediamine chloride, which is also stored in the cartridge (3) The process according to claim 1 or 2, characterized in that the choice of the material of the propellant gas (?) Is based on the material of the inertial lubricant (&) used. Method according to any one of claims h to 3, characterized in that the choice of the solvent for the disinfectant (8) is based on the material of the disinfectant (8) used. Method according to any one of claims L-4, characterized in that the contact time of the purification phase (TI) is the volume of the air system air passages (4), the value of the pressure of the gas (7) and the mechanism of action of the tertorienine A / er (8). this time shall not exceed 30 minutes