RU203013U1 - MOBILE DISINFECTOR - Google Patents

Abstract

The utility model relates to the field of biotechnology, namely to methods of disinfection of residential and industrial premises, vehicles, storage facilities, containers and other objects from bacterial, viral and fungal contamination, and can be used for preventive, routine and final disinfection. The disinfector contains a container for water, electrolyzer, pump, accumulator, pressure hose, tube, nozzle, control unit. The objective of the proposed utility model is to reduce energy costs during operation, increase the efficiency and reliability of disinfection, and the possibility of carrying out disinfection measures in autonomous conditions. the disinfector allows for a flow-through operation without preliminary water treatment and to obtain a disinfectant (sodium hypochlorite) in autonomous conditions directly at the point of consumption by electrolysis of tap water or a chloride-containing solution.

Description

The utility model relates to the field of biotechnology, namely to methods of disinfection of residential and industrial premises, means of transport, storage facilities, containers and other objects from bacterial, viral and fungal contamination, as well as disinfection of devices, material and other objects located in them, and can be used for carrying out preventive, routine and final disinfection, for example, in military units, in medical institutions, public places, public places, apartment buildings, social security institutions and other facilities.

Known mobile pulsed xenon UV installation for disinfection of air and surfaces of premises, consisting of a compact size monoblock with a handle, equipped with wheels for easy transportation by one person. There is a remote control operating over a radio channel, the xenon lamp is hidden inside the body and extends before the disinfection session (Disinfector "Impulse installation" wikb-01-"Alpha").

The disadvantage of the installation is that disinfection occurs only when the installation is in operation, and after it is turned off, viruses and bacteria can re-settle on the newly disinfected surface. In addition, it should be noted that the energy consumption is quite high and the unsafe effect of UV radiation on the operating personnel in the event of non-observance of safety regulations should be noted.

A known method of obtaining an aerosol used for disinfection of premises (AS No. 365150 A61L 2/22, 1970). To obtain an aerosol, bleach is mixed with ammonium nitrate in water, after which there is a violent release of gaseous products: chlorine, hydrogen chloride, ammonium chloride, which, condensing with water vapor released during heating of the mixture, form a highly dispersed aerosol.

The disadvantage of this method is the need to use harmful chemical (bleach) and explosive (ammonium nitrate) substances, as well as the formation as a result of a chemical reaction of toxic gaseous chlorine (hazard class 2), which requires special safety measures, including the use of insulating suits and gas masks.

The closest analogue of the claimed utility model is a technical solution for an electrolysis plant containing a container for preparing a solution supplied for electrolysis, an ion-exchange softener for water treatment, a dosing pump for supplying a solution of sodium chloride to the electrolyzer (RU 93086).

The main disadvantage of the known installation is: the complexity of the design, due to the numerous elements of control and management, high material costs, multi-stage, multifactorial technological process, at each stage of which a failure is possible. In addition, the use of an ion-exchange softener requires periodic regeneration of the charge by passing a solution of sodium chloride through it, which in turn requires stopping the operation of the device and disposing of the spent regeneration solutions.

The technical result of using the claimed utility model is to simplify the design, reduce energy costs during operation, increase the efficiency and reliability of disinfection, and the possibility of carrying out disinfection measures in autonomous conditions.

This result is achieved by the fact that the proposed mobile disinfector consists of a container that contains water (or a chloride-containing solution), an electrolyzer, a pump, a battery, and a control unit.

Such a constructive implementation of the claimed utility model makes it possible to carry out a flow-through operation without preliminary water treatment and to obtain a disinfectant (sodium hypochlorite) in autonomous conditions directly at the point of consumption by electrolysis of tap water or a chloride-containing solution. In addition, the device makes it possible to obtain a solution with a concentration of active chlorine already equal to that required for disinfection treatment - 200 mg / l, which does not require additional dilution of the solution before spraying.

The utility model is illustrated in the drawings, where FIG. 1 shows a mobile disinfector.

The mobile disinfector consists of a container that contains water (or a chloride-containing solution) 1, electrolyzer 2, battery 3, pump 4, control unit 5. On the outside of the disinfector there is a charger 6, wheels 7 and a handle for transportation 8. At the exit from the electrolyzer has a delivery hose 9 with a tube 10 and a nozzle 11.

The mobile disinfector works as follows.

After pouring through the filling hole 12 into a container of tap water or a chloride-containing solution, the pump 4 is turned on, which supplies water or a chloride-containing solution to the electrolyzer 2, in which a disinfectant is obtained - sodium hypochlorite. Then it is fed to the places of disinfection through the delivery hose 9, the tube 10 and the nozzle 11. To recharge the battery 3, the charger 6 is used, which is connected to the network.

In the process of electrolysis, hardness salts may be deposited on the electrodes; to prevent their formation, the polarity of the electrodes is reversed, which is carried out through the control unit 5.

Claims (1)

A mobile disinfector containing a container for water or a chloride-containing solution, an electrolyzer, a pump, characterized in that the disinfector additionally contains a battery, an injection hose, a tube, a nozzle and a control unit that reverses the polarity of the electrodes in the electrolyzer.

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