RU2364799C1 - Ionised air treatment device - Google Patents

Abstract

FIELD: heating systems. ^ SUBSTANCE: device is intended for air conditioning, but can be used in other spheres for creating comfort, rehabilitation and improvement of air. Device consists of the housing, dosing device and ionising electrode connected to high-voltage unit. In addition, the device is equipped with filtering element; the dosing device is located in the housing and made in the form of the reservoir filled in with liquid and equipped with liquid supply valve, check valve and discharge station consisting of the housing and the valve located in its lower part, the sleeve attached with the bottom provided with an axial hole to the above reservoir, piston contacting the limit stop and located inside the sleeve with the possibility of restricted movement, the bellow tightly fixed on the piston and the sleeve bottom thus forming the cavity interconnected with the discharge station housing inner cavity, and the return spring located between the piston and the sleeve bottom. Ionising electrode is made in the form of a hollow head piece the outer surface whereof is made in the form of sharp-cornered discs the neighbouring walls of which are smoothly connected to each other thus forming the cavity wherein there uniformly located in a circumferential direction are through holes. Ionising electrode is installed in the lower part of the discharge station. Discharge station valve is installed with the possibility of supplying liquid to the head piece cavity when the piston is moved towards the sleeve bottom. Liquid supply valve is installed with the possibility of liquid supply to the discharge station housing inner cavity, and check valve - with the possibility of air supply to the liquid reservoir when the piston is moved from the sleeve bottom. Filtering element is installed at the housing inlet. ^ EFFECT: improving air treatment effectiveness. ^ 3 dwg

Description

The present invention relates to air conditioning devices, but can be used in other areas to create comfort, health and improve the air environment.

Closest to the claimed device is a device for ionization of air, comprising a housing, a metering device and an ionizing electrode connected to a high voltage unit (USSR copyright certificate No. 985609, F24F 3/16, dated July 14, 81).

A disadvantage of the known device is the low efficiency of air treatment due to uncontrolled evaporation of the dosed liquid from the elements of the device, partial ionization of the incoming substance, the inability to select an ionizing voltage for each substance.

The technical result of the proposed invention is to increase the efficiency of air treatment.

The specified result is achieved in that the device for ionized air treatment, comprising a housing, a metering device and an ionizing electrode connected to a high-voltage unit, in accordance with the proposed invention is additionally equipped with a filter element, while the metering device is placed in the housing and is made in the form of a tank filled with liquid equipped with a valve for its supply, a check valve and an exhaust assembly consisting of a body and a valve located in its lower part, a sleeve fastened a bottom made with an axial bore, with said container, of a piston in contact with an abutment and disposed within the sleeve with limited movement, a bellows sealed to the piston and the bottom of the sleeve to form a cavity in communication with the internal cavity of the housing of the exhaust unit and a return spring, placed between the piston and the bottom of the sleeve, the ionizing electrode is made in the form of a hollow nozzle, the outer surface of which is made in the form of acute-angled disks, the adjacent walls of which are smoothly interfaced between battle with the formation of a cavity in which through holes are evenly spaced around the circumference, and is installed in the lower part of the exhaust assembly, the valve of the exhaust assembly is installed with the possibility of supplying fluid to the nozzle cavity when the piston is displaced to the bottom of the sleeve, the fluid supply valve is installed with the possibility of its supply into the internal cavity of the housing of the exhaust assembly, and the check valve with the possibility of supplying air to the liquid container when the piston is displaced from the bottom of the sleeve, and the filter element is installed at the entrance to the housing.

A device for ionized air treatment is illustrated by drawings, in which Fig. 1 shows a general view of the claimed device, Figs. 2, 3 show, on an enlarged scale, an extension element A (section) and an extension element B.

A device for ionized air treatment comprises a flow-through housing 1 with a fan 2, a filter element 3 at the inlet and a control unit 4. A metering device is installed in the body, made in the form of a liquid-filled container 5, equipped with a metering valve 6 for it, and a check valve 7. B the lower part of the tank 5 is an outlet assembly consisting of a housing 8 and a valve 9 located in the lower part of the said housing. Capacity 5 of the flange 10 is fastened with a sleeve having a central hole 11 and a hole 12, the bottom 13 of the sleeve, consisting of a metal insert 14 and a casing 15 of insulating material, and installed through an insulating washer 16 in the housing 1. The sleeve is provided with a cover 17 with an opening 18. In the flange 10 seal 19 is installed. Inside the metal insert 14, a piston 22 is contacted with a stop 20 having holes 20. The piston is made with a rounded edge and holes 23. A bellows 24 is sealed to the piston 22 and the bottom 13 of the sleeve, the metering axis of the device and communicated by its internal cavity 25 with the internal cavity of the housing 8 of the exhaust unit using tubes 26 sealed in the container 5 and its flange 10. Between the piston 22 and the bottom 13 of the sleeve there is a return spring 27. The stop 21 is screwed into the armature 28 of the retractable electromagnet 29. The anchor is equipped with a restrictive shoulder 30 of its movement and a through groove 31. The ionizing electrode is made in the form of a metal nozzle with a cavity 32 and is installed in the lower part of the housing 8 of the exhaust assembly. The outer surface of the nozzle is made in the form of acute-angled disks 33, and the adjacent walls of the disks are smoothly conjugated with the formation of a depression 34 to obtain a uniformly directed electron flow. In the cavity, through holes 35 are uniformly spaced around the circumference.

A device for ionized air treatment as follows.

When the fan 2 is turned on, the air flow passing through the filter element 3 is cleaned of suspended particles and fed to the ionizing electrode. High voltage is supplied to the ionizing electrode, voltage sufficient to move the armature 28 to the retracting electromagnet 29, which together with the stop 21 biases the piston 22, which compresses the bellows 24. The air pressure in the cavity 25 and the internal cavity of the housing 8 of the exhaust assembly rises. The valve 9 opens and a dose of liquid under pressure enters the cavity 32, from which it leaves through the through holes 35, decaying into tiny particles under the action of an electrostatic field, which are ionized by a directed electron stream flowing from the acute-angle disks 33 and sent to the treated volume with the air stream. The shoulder 30, interacting with the casing of the retractable electromagnet 29, limits the movement of the armature, the voltage from the ionizing electrode and the retractable electromagnet is removed. The valve 9 of the exhaust assembly closes. The return spring 27 biases the piston 22. Due to the rarefaction created in the cavity 25 and the internal cavity of the housing 8 of the exhaust unit, the metering valve 6 of the liquid supply, the check valve 7 of the filled tank open, respectively, providing a subsequent dose of fluid to the internal cavity of the housing 8 of the exhaust unit and air into the tank filled with liquid 5. The presence of holes 18, 20, 23 and groove 31 provides free movement of the elements 21, 22, 28 of the device. The operation mode of the fan 2 can be selected, for example, as short-term and turned off after removing the voltage from the ionizing electrode and the retractable electromagnet 29, and long-term without applying voltage to the ionizing electrode and the retracting electromagnet, or with applying voltage only to the ionizing electrode.

The exclusion of uncontrolled evaporation of the dosed liquid from the elements of the device, the ionization of the entire amount of the dosed substance, the purification of air from suspended particles, the possibility of selecting a voltage for the substance introduced into the housing and simplifying the control of its concentration increases the efficiency of air treatment.

Claims (1)

A device for ionized air treatment, comprising a housing, a metering device and an ionizing electrode connected to a high-voltage unit, characterized in that it is further provided with a filter element, the metering device is housed in a housing and made in the form of a liquid-filled container equipped with a supply valve, a non-return valve and an outlet assembly consisting of a body and a valve located in its lower part, a sleeve fastened with a bottom made with an axial hole, with the said container, the piston in contact with the stop and located inside the sleeve with limited movement, a bellows sealed to the piston and the bottom of the sleeve with the formation of a cavity in communication with the internal cavity of the housing of the exhaust unit, and a return spring located between the piston and the bottom of the sleeve, the ionizing electrode is made in in the form of a hollow nozzle, the outer surface of which is made in the form of acute-angled disks, the adjacent walls of which are smoothly interconnected with each other with the formation of a cavity in which are uniformly distributed through holes arranged around the circumference, and is installed in the lower part of the exhaust assembly, the valve of the exhaust assembly being installed with the possibility of supplying liquid to the nozzle cavity when the piston is displaced to the bottom of the sleeve, the fluid supply valve is installed with the possibility of supplying it to the internal cavity of the housing of the exhaust assembly, and the return valve - with the possibility of supplying air to the liquid tank when the piston is displaced from the bottom of the sleeve, and the filter element is installed at the entrance to the housing.

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