RU2452903C1 - Closed air distribution system for cleaning and sanitation of air near workplaces in workshops - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: closed air distribution system comprises a plant for dust catching, a fine air filter, fans, air collector, diffusers and air intake and air exhaust pipelines. A device for dust catching and a fine air filter are installed upstream an air collector, the vessel of which is arranged in accordance with a shape of a regular pyramid. Air exhaust pipelines are connected to an air collector at the top of the pyramid, and their quantity is equal to the number of regular pyramid faces. Diffusers installed at the ends of air exhaust pipelines are shaped as sockets and are equipped with corona-forming electrodes with connection of a high-voltage supply unit to a negative side, and a reservoir with biologically active substances, for instance, fir oil.

EFFECT: increased biological activity of air by means of its saturation with phytoncides and air ions.

1 dwg, 4 cl

Description

The invention relates to the field of creating controlled health-improving climatic conditions in various rooms, for obtaining a biologically active atmosphere that affects the functioning of the human body: respiratory, circulatory, nervous system, etc.

A device for ventilation of a building by ed. St. No. 1613814, class F24F 7/06 of January 25, 1988. The device comprises a housing, partitions separating the supply and exhaust air flows, fans, recuperative heat exchangers, an air heater and a condensate collecting pan with a drain pipe, an supply air outlet with shutters. The device further comprises a recirculating air processing unit, including an additional fan, a two-position air damper, an air intake and an air outlet of the room recirculating air with louvers installed in them, an opening in the housing communicating the supply air flows with the recirculating air of the additional unit. The heater is located in an additional unit. A two-position shutter is attached to the housing with the possibility of alternately overlapping the openings in the housing and the air outlet of the recirculated air. The louvers of the air outlets are directed at an angle to each other.

The disadvantage of this device is that the air supplied to the room does not have healing properties due to the lack of biologically active substances.

By author St. No. 1399604, class F24F 7/06 of 03/05/1986, a room ventilation system is known, comprising an exhaust fan, an air duct formed by the room wall and a partition, in the first of which air inlets are made, and in the second - air inlets and recirculation openings. The system additionally contains perforated nozzles installed in the air duct and communicated with the room through the inlet openings of the partition, one ends of which are attached to the partition, others are installed with a gap relative to the wall of the room. The supply air openings in the wall and the partition are aligned.

However, this system only ventilates the room without recreational functions.

Known ventilation device for the distribution of air in the room by ed. St. USSR No. 1629703, class F24F 13/06 of March 30, 1989. The device comprises a duct with outlet openings in its front wall and flow swirls installed in the openings with guide visors. The air distributor further comprises dissecting plates installed in the duct with the formation of equal-volume compartments perpendicular to the front wall, an optical diffuser for aligning the flow, attached to the latter. In the side walls of the box made additional exhaust holes.

However, such a device is applicable only in small-volume premises, namely for ventilation of vehicle cabs.

A device for collecting fine dust containing an air duct, a fan, a cyclone having a cylindrical body with a conical bottom, with a central exhaust pipe installed therein, connected to the negative electrode of the current source, the cyclone bottom is grounded, while between the cyclone, the air duct and the central exhaust pipe electrical insulators are installed (RU 2369427, IPC B01D 45/12, publ. 10.10.2009).

A disadvantage of the known device is that this device cannot be used for cleaning and improving air in large rooms.

The objective of the invention is the cleaning and improvement of the air atmosphere at workplaces indoors.

The technical result achieved by using the invention is to create a closed air distribution system for cleaning and improving the atmosphere near workplaces in workshops.

The specified technical result is achieved in that the closed system for air distribution consists of a device for trapping fine dust, a fine air filter, fans, an air collector, the casing of which is made in the shape of a regular pyramid, diffusers and air intake and exhaust pipes. A dust collector and an air fine filter are installed in front of the air collector. The air exhaust pipelines are connected to the air collector at the top of the pyramid and their number is equal to the number of faces of the regular pyramid, diffusers are installed at the ends of the air exhaust pipelines and equipped with corona electrodes connected to a high voltage power supply unit and containers with biologically active substances, such as fir oil, to increase the biological activity of air by saturating it with phytonpids and aeroions. The device for collecting fine dust contains an air duct, a fan and a cylindrical body with a conical bottom, with a central exhaust pipe installed in it, connected to the negative electrode of the current source, the bottom of the cyclone is grounded, and electrical insulators are installed between the body, the air duct and the central exhaust pipe.

Figure 1 is a simplified diagram of a closed air distribution system for cleaning and improving air near workplaces in workshops.

It includes an apparatus 1 for collecting fine dust containing a cylindrical body 2 with a conical bottom 3 and a central exhaust pipe 4 installed therein, connected to a negative electrode of a current source, while the bottom of the housing is grounded, and electrical insulators are installed between the housing and the central exhaust pipe (on not shown).

The fine filter 5 for air purification consists of a housing, inside which partitions 6 with many holes are installed, which serve as precipitation electrodes, corona electrodes 7 and a high-voltage power supply 8. In the fine filter 5, each partition 6 is made of a material impregnated with essential oils. The filter 5 is installed in front of the air collector 9, made in the form of a regular pyramid. Fans 10 are used to pump air from the room through the installation 1 and the filter 5 into the air collector 9 through the intake pipes 11.

The air outlets 12 are connected to the air collector 9 in its upper part, i.e. at the top of the pyramid, they are used to disperse air from the air collector 9. At the ends of the air exhaust pipelines 12, diffusers 13 are installed, made in the shape of sockets, which are equipped with corona electrodes 14 and a capacity of 15 with biologically active substances, such as fir oil, to increase the biological activity of the air by saturation its volatile and air ions. The corona electrodes 14 are connected to a high voltage power supply 8.

The air exhaust pipelines 12 are made in an amount at least equal to the number of faces of the regular pyramid of the air intake housing 9, and are placed in the workshop in the shape of a spider. Air exhaust pipelines 12 with diffusers 13 are installed near workplaces in the workshop.

The operation of a closed air distribution system for cleaning and improving air near workplaces is as follows. When the fans 10 are turned on, the air contaminated in the workshop first flows through the intake pipe 11 to the fine dust collection unit 1. In the cylindrical body 2, the air is cleaned of dust by creating an electrostatic field, as a result of supplying a negative electric charge to the central exhaust pipe 4, and cylindrical body 2 - a positive electric charge by grounding.

Then, through the central exhaust pipe 4, air enters the fine filter 5, is cleaned, saturated with air ions. Further, through the pipeline, air enters the air intake 9 and is supplied to workplaces through the air exhaust pipes 12. Passing through the corona electrodes 14 and the container 15 with biologically active substances, the air is finally cleaned, additionally saturated with volatile and air ions and gets to workplaces in the workshop.

Claims (3)

1. A closed air distribution system for cleaning and improving air near workplaces in workshops, including a device for collecting fine dust, containing an air intake pipe with a fan inside, a cylindrical body with a conical bottom, a central exhaust pipe installed in it, connected to the negative electrode of the current source , the bottom of the housing is grounded, and electrical insulators are installed between the housing, the duct and the central exhaust pipe, characterized in that it is additionally equipped with holds a fine filter and an air collector, the body of which is made in the shape of a regular pyramid, to the top of which are connected air exhaust pipes with diffusers installed at the ends of the pipes, made in the shape of sockets and equipped with corona electrodes connected to a high-voltage power supply unit and a container with biologically active substances while a device for collecting fine dust and a fine filter of air are installed in front of the air collector. 2. The system according to claim 1, characterized in that the exhaust pipes are made in an amount at least equal to the number of faces of the regular pyramid of the air intake housing, and are placed in the workshop in the shape of a spider above the workstations. 3. The system according to claims 1 and 2, characterized in that the fine filter for air purification contains a high-voltage power supply and a housing, inside which a set of partitions with many holes made of material impregnated with essential oils, corona electrodes and precipitation electrodes is installed.