RU2574910C1 - Method of disinfection of ventilation system - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: method of disinfection of ventilation system includes disinfection of the ventilation channel by disinfectant. The disinfection is performed by the disinfecting device installation at input or output of the ventilation channel, the device contains disinfectant evaporated under action of the air flow passing through the ventilation channel. The cartridge with the disinfectant inserted in the holder is used as the disinfecting device. The disinfecting device securing on the ventilation grating or its location directly in the air duct creates the disinfecting filtration barrier in the output or input hole of the channel ventilation.

EFFECT: permanent extended disinfecting action at input or output of the ventilation system.

5 cl, 12 dwg

Description

The invention relates to the field of disinfection and can be used to create a disinfecting barrier on the supply and exhaust openings of ducts for ventilation and ventilation grilles of natural and mechanical ventilation systems.

Currently, ventilation systems of various types and configurations provide air exchange in residential, public, industrial and other types of buildings and premises. Sanitary and hygienic monitoring of the condition of the systems is often absent, which can lead to the occurrence of infections transmitted by airborne droplets. This is due to the fact that during operation particles of various origin accumulate on the walls of air ducts and equipment of the supply and exhaust ventilation systems. Moisture condensing due to temperature fluctuations promotes the formation and growth of bacterial microflora on the surfaces of systems. Microbes from ventilation shafts enter the premises and provoke various diseases and allergic reactions in people.

Ventilation systems, both supply and exhaust, must be not only cleaned, but also disinfected with special disinfectant solutions according to sanitary standards at least once every six months (SP 3.5.1378-03 “Sanitary and epidemiological requirements for the organization and implementation of disinfection activities”, “Guidelines for the organization of control over the cleaning and disinfection of ventilation and air conditioning systems”, approved by the Federal State Institution TsGSEN of Moscow, 2004).

In the territory of the Russian Federation, the following chemical groups of active substances are allowed for use and are traditionally used: oxidizing agents, halogen-containing, surfactants, phenolic, guanidine derivatives, aldehydes, alkalis, acids, alcohols (Panteleeva L.G. Modern antimicrobial disinfectants). The main results and prospects for the development of new tools // Disinfection business. - 2005. - No. 2. - S. 49-56). The most widely used disinfectants based on chlorine, hydrogen peroxide, Quaternary ammonium compounds (HOUR), alcohol and aldehydes (Smirnov AM, Talanov GA Dioxides: sanitary and toxicological value // Veterinary medicine. - 1999. - No. 9. - S. 49-51; Sokolova NF Modern problems of the organization and conduct of disinfection measures in the ZhSU for the prevention of nosocomial infections // Disinfection business. - 2005. - No. 4. - P. 31-39).

Modern methods of disinfection of ventilation systems are carried out by methods of wiping, soaking, immersion, irrigation and aerosolization. These methods require the use of related technical equipment and installations for spraying a working solution of a disinfectant. Disinfection involves the evacuation of people from a disinfected room (building), a complete shutdown of ventilation and air conditioning systems, personal protective equipment and special skills of disinfection personnel. At the end of disinfection, the treated surfaces must be washed with tap water using a rag, dried with a dry rag and aerated.

A known method of disinfection of supply ventilation systems, according to which disinfection is carried out according to epidemiological indicators after sampling the air at the outlet of the duct by drawing air mixture with formaldehyde vapors through the ducts (Instructions for operating and monitoring the effectiveness of ventilation devices at healthcare facilities // USSR Ministry of Health, 1977 ., p. 6). This method involves the need to heat formaldehyde to a vapor state, which is environmentally hazardous both during implementation and after the disinfection process; It requires the complete release of the treated premises from people, as well as the subsequent neutralization of formaldehyde vapor.

Closest to the proposed method is the disinfection of supply ventilation systems, which involves the use of a disinfectant solution in the form of an aerosol based on the results of bacteriological studies of flushes from the internal surfaces of the ventilation system. At the time of disinfection, the system is put into exhaust ventilation mode and aerosol is fed into the exits of the ventilation system. The air flow injected into the ventilation system draws the aerosol throughout the ventilation system, ensuring the effectiveness of disinfecting its surface (see patent RU 2519668 C1, publ. 06/20/2014).

To carry out disinfection in a known manner, it is necessary to interrupt the operation of the system as a supply ventilation system, and the system is affected only during sanitization, and not during the entire period of normal operation of the system. The method is aimed at cleaning and disinfecting the walls of the ventilation ducts, but not at disinfecting the air entering the premises.

The problem solved by the invention is to improve the existing disinfection technologies for both supply and exhaust ventilation systems by extending the effect of the disinfecting effect while reducing labor costs for processing. The technical result consists in providing a permanent disinfecting effect at the inlet or outlet of the ventilation system.

The problem is solved in that the method of disinfecting the ventilation system, including disinfecting the ventilation duct with a disinfectant, differs from the closest analogue in that the disinfection is carried out by placing at the inlet or outlet of the ventilation duct a disinfecting device containing a disinfectant vaporized by the flow of air passing through the ventilation channel.

It is advisable to use a cartridge with a disinfectant inserted into the holder as a disinfecting device.

In the case of placing the disinfecting device on the ventilation grill, it is preferable to use a frame with a clamp as a holder, and as a cartridge, material impregnated with a disinfectant or a bottle with a disinfectant and with a cord placed inside it and brought out to vaporize the specified means.

If the disinfecting device is placed directly in the duct channel, two plates with holes can be used as a holder, and material impregnated with a disinfectant and placed between the plates as a cartridge can be used.

The claimed method allows to complement the complex of disinfecting measures and to extend the disinfecting effect by creating in the supply and exhaust openings of the air ducts of the channel ventilation systems a permanent disinfecting filtration barrier by attaching the disinfecting device directly to the ventilation grill itself or by placing it directly in the duct.

The claimed invention is illustrated in graphic materials.

In FIG. 1-3, an embodiment of a disinfecting device in the form of a frame and a material impregnated with a disinfectant is shown: in FIG. 1 - material impregnated with a disinfectant and a frame for attaching it; in FIG. 2 - frame with impregnated material, side view; in FIG. 3 - the same front view.

In FIG. 4-9 show an embodiment of a disinfecting device in the form of a holder including connected plates with holes and a material impregnated with a disinfectant: in FIG. 4 - material impregnated with a disinfectant and a holder for vertical fastening; in FIG. 5 - holder for vertical fastening with impregnated material, side view; in FIG. 6 - the same front view; in FIG. 7 - material impregnated with a disinfectant and a holder for horizontal fastening; in FIG. 8 - holder for horizontal fastening with impregnated material, side view; in FIG. 9 is the same front view.

In FIG. 10-12 is an embodiment of a disinfecting device in the form of a frame and a bottle with a disinfectant: in FIG. 10 - a bottle with a disinfectant and a frame for attaching the bottle; in FIG. 11 - frame with a bottle, side view; in FIG. 12 is the same, front view.

The method of disinfection of an exhaust ventilation system is as follows.

The disinfecting device is placed in the supply or exhaust opening of the ventilation duct (duct) or can be attached directly to the ventilation grill and have various configurations.

In a preferred embodiment, the disinfecting device comprises a holder - a frame 1 with a latch 2, made by plastic molding. Using the latch 2, frame 1 is attached to the ventilation grille of bathrooms, bathrooms, showers, kitchens, etc. The design of the device implies the possibility of installing both a felt (cardboard) cartridge (material 3 impregnated with a disinfectant) (Fig. 1-3), and a bottle 4 with a liquid disinfectant (Fig. 9-12).

Fastening to the ventilation grille is carried out by placing the latch 2 in the intermediate hole between the louvers of the ventilation grill. The arc bend of the retainer 2 provides a pressing of the holder frame 1, sufficient for reliable fixation of the device on the surface of the ventilation grill. The central hole of the frame 1 circulates air through the material 3 impregnated with a disinfectant installed inside the frame 1 of the holder. To install the material 3 or the bottle in the holder frame 1, special grooves and a vertical bounding plate are provided on one of the faces of the frame 1. Replacing or installing the cartridge in the form of impregnated material 3 or bottle 4 does not require removing the holder from the ventilation grill.

The cartridge in the form of material 3 is a plate of a certain shape (for example, rectangular or round), made of pressed felt, or cardboard, or woven or non-woven fabric, impregnated with a filler - disinfectant. To prevent premature evaporation of the filler, the cartridge is placed in a protective packaging that can be removed immediately before installing the cartridge.

For mounting the cartridge directly into the ventilation duct, a holder according to FIG. 4-9 in two versions for horizontal and vertical cartridge arrangement. The holder is made by plastic molding and contains two plates 5, one or two of which have a central hole and which are connected by a base 6. The holder is fixed inside the ventilation duct using adhesive tape 7, applied to one side depending on the spatial design (horizontal on Fig. 4-6 or vertical in Fig. 7-9). The cartridge - material 3 is fixed inside the holder due to the location of the fixing plates 5 at a small angle with respect to each other. The evaporation of the filler - disinfectant is carried out through the open sides of the material 3, as well as through the Central hole on one or both plates 5.

A bottle 4 with a liquid filler - a disinfectant (Fig. 10-12) is presented in the form of a non-separable structure consisting of two communicating vessels 11 and 12, separated by a hollow partition 13, inside which a tube with an evaporating cord is placed 8. The vessels are enclosed inside a plastic form 9 , which is a rectangular frame with a central hole. The upper end of the evaporation cord 8 is fixed inside the upper restrictive cap, and the lower end is immersed in the lower part of the bottle between the vessels 11 and 12 in a liquid filler 10 - a disinfectant. The evaporation of the filler 10 is carried out from the outer surface of the cord 8 under the action of convective flows passing through the central holes in the upper parts of the frame 1 and the plastic form 9 of the bottle 4 inserted into it.

As a liquid disinfectant, for example, alkyldimethylbenzylammonium chloride (HOUR), polyhexamethylene guanidine hydrochloride (PHMG) or N, N-bis (3-aminopropyl) dodecylamine diluted with water can be used; or a mixture thereof in various combinations; or, for example, a mixture based on a complex of two HOURs, PHMG with a surfactant additive, conditioning additives and / or insect repellent additives. In order to impart a gel-like consistency to the agent, a gelling agent, for example glyoxal, may be added to the composition. An example of such a composition:

alkyldimethylbenzylammonium chloride - 5%,

glyoxal - 8%,

water - 87%.

Other liquid and gel disinfectants are also possible.

The claimed method is based on the use of heat from the air flow generated by the ventilation system to vaporize the disinfectant and draw its vapor into the ventilation duct. This allows you to simplify the design solution as much as possible and get away from the use of combustion reactions.

Disinfectant vapors create a disinfecting filter barrier at the inlet or outlet of the ventilation duct, which destroys microbes, bacteria, microorganisms, spores, and also through the introduction of changes in the composition of the disinfectant, can additionally neutralize odors, repel insects, etc. The disinfecting effect can be maintained in the ventilation duct at a distance of about 30 cm from the ventilation grill during the time the disinfectant is vaporized. This also disinfects the ventilation grill itself.

Claims (5)

1. The method of disinfection of the ventilation system, including disinfection of the ventilation duct with a disinfectant, characterized in that the disinfection is carried out by placing at the inlet or outlet of the ventilation duct a disinfecting device containing a disinfectant vaporized by the flow of air passing through the ventilation duct. 2. The method according to p. 1, characterized in that as a disinfecting device using a cartridge with a disinfectant inserted into the holder. 3. The method according to p. 2, characterized in that as a holder use a frame with a latch, and as a cartridge - material impregnated with a disinfectant. 4. The method according to p. 2, characterized in that as a holder use a frame with a latch, and as a cartridge - a bottle with a disinfectant and placed in it and brought out to the outside for the evaporation of the specified funds. 5. The method according to p. 2, characterized in that as a holder use two plates with holes connected by a common base, and as a cartridge - material impregnated with a disinfectant and placed between the plates.

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