UA62085A - Device for disinfecting air in medical premises - Google Patents

Abstract

The device for disinfecting the air in the medical premises contains the housing, the bactericide lamps, the actuators, the source of air ions, and the power supply connected with the actuators.

Description

Description of the invention

The invention relates to medical technology, namely, to disinfecting the air of medical premises with 2 ultraviolet (UV) rays.

There are known bactericidal irradiators for disinfecting air in medical facilities with UV rays, but they reduce harmful microflora by only 50-55 percent in the presence of people, and by 70-75 percent without them.

Reduction of microflora to 70-75 percent (due to an increase in the number of bactericidal lamps and 70 ballasts, which leads to an increase in the size, cost of the irradiator and electricity consumption, but no further reduction of microflora occurs. One of the main reasons for this is that microflora that has settled on air microdust is shielded from UV rays by the hidden cavities of their rough surface. The action of UV rays does not lead to the removal of these aerosols from the air due to their small mass, and therefore insignificant gravitational and convection forces (2, 3 ).The improvement of 12 bactericidal air irradiators is not aimed at improving the removal of microflora from the air, but at the development of new bactericidal lamps and their starting devices |4)|, as well as equipment for their treatment (5).

The bactericidal irradiator (b), accepted as a prototype, consists of a case, start-up control devices and bactericidal lamps. It irradiates with UV rays in the presence of people and without them and has the same disadvantages: ionization, aggregation and deposition of dust and microflora from the air is weak and chaotic.

The basis of the task, which is aimed at the stated technical solution, is to increase the efficiency of ionization and purposeful deposition of microflora and dust from the air of treatment rooms on those surfaces of the room that are convenient for wet cleaning.

The task is solved by the fact that the device, which includes a case, bactericidal lamps and their start-up control devices, additionally contains sources of aeroions and a high electric field. They are 22 electrically connected to start-up control devices. "

The corona emitter of ions can be made: in the form of a set of points, a thin wire, located behind the device body or on it.

Such a scheme of the device for disinfecting premises increases the productivity of ions that are deposited on an aerosol, which forces them to move purposefully to the deposited surfaces due to a high electric field. at

The analysis of known devices for disinfection (quartzization) of air in medical premises confirms the presence of novelty and essential features in the invention.

The figure schematically shows the proposed device for air disinfection of medical premises. at

The device for disinfecting the air of medical premises is made as follows. Ha

Start-up control devices 1 bactericidal lamps 6 UV rays, small-sized generator 2 high voltage on semiconductors, indicator With the presence of ionic current and a high electric field are electrically connected to each other. The ion emitter 4 is simultaneously one of the electrodes that create a high electric field. It is placed behind the housing 5 of the device, while it is in a series circuit with the generator 2.

The ion emitter 4 is located in such a way as to ensure deposition of ionized aerosols mainly on the floor and walls of the room for the convenience of their pre-operative cleaning. The second pole of the generator 2 through C indicator C is grounded. s Small-sized generator 2 of high voltage on semiconductors is low-power, has a small output current, and therefore it is safe in case of accidental touches by medical personnel.

The air disinfection device works as follows.

When the device is connected to the mains, devices 1 and lamps 6 connected to it begin to work, emitting UV rays and partially ionizing the air in the room. b At the same time, the generator 2 starts working, from which a high voltage is supplied to the ion emitter 4. As a result, microbes in the air die, and the flow of ionized aerosols under the influence of a high electric field begins to move towards the walls and floor of the room and settles on them. This process is similar to the process of deposition of finely dispersed aerosol in an electrostatic precipitator. at 20 After this treatment, the device is turned off and wet cleaning of the settled aerosol is carried out in the established way. sl The proposed design of the device for air disinfection of medical premises allows to expand the possibilities of treatment of rooms of significant volumes (or to reduce the time of their treatment).

The proposed scheme has a high productivity of ions and deposition of harmful aerosols, which positively affects the microclimate in the treatment room by saturating large volumes with light ions. oxygen, and most importantly - significantly increases the charge of harmful aerosol with microflora, its movement in a high electric field in a given direction accelerates its fall on surfaces convenient for cleaning.

Sources of information: 1. Medical industry of the USSR. - 1964. - Mo9. - P.49-52. 60 2. Clinical surgery. - 1984. - Mo1. - P.42.

Z. Clinical surgery. - 1988. - Mo1. - P.61. 4. Rokhlin G.I. Discharge the sources of light. - M., 1991. 5. VNIYMP. News of medical equipment: work of the institute, -1971. - Vip.3. - P.121-123. b. Sverdlovsk plant of electromedical equipment. Bactericidal / ceiling irradiator OBP-3000. The passport is also described. - 1985.

Claims (1)

The formula of the invention is a device for disinfecting the air of medical premises, which includes a housing, bactericidal lamps and their start-up control devices, which is distinguished by the fact that it additionally contains sources of aeroions and a high electric field, electrically connected to the start-up control devices. "IS) s "c) s (Se) - with . and? (22) name) («c) o 50 sl 60 b5