CS201451B1 - Air humidifier with ionization effect - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an air humidifier having an ionizing effect, the Lenard effect being used to achieve this.

Currently, seroionoclimatizers are produced and presented to consumers, ionizing air on the basis of an electrostatic field, for example by a rosette electrode blown by a fan. An unpleasant side effect of these devices is chemical air pollution, as in addition to ozone, nitrogen oxides are formed during ionization. A further disadvantage of existing aeroionoclimatizers is the fact that they do not exhibit a humidifying effect, which is particularly desirable in rooms with central heating. The devices based on the Lenard effect principle show a humidifying effect. Based on this, a hydrodynamic ionizer is currently produced, in which the water sucked from the tank by the fan is broken down by centrifugal force against the deflector flaps and other stator parts, where larger water droplets are captured and the water mist is discharged into the ambient air. However, this ionizer is relatively bulky, complex in design and thus also highly defective. Other disadvantages are the necessity of refilling water into the tank, the consumption of electric energy and the fact that water droplets of such size emerge from it that it is not enough to evaporate in the air and impact the surrounding objects, thereby degrading their surface.

In essence, the present invention is an air humidifier with an ionizing effect and consists in the fact that a casing mounted in a stand is fitted with a venturi-shaped cover whose exhaust cone has a fixed obstruction in the exhaust cross-section and whose inlet cone a nozzle connected to a pressurized water source is axially introduced.

It is a further object of the present invention that the exhaust cone of the housing is provided with a discharge port and a housing for an air intake port and a nozzle for draining unused water.

According to the invention, a higher effect is achieved in comparison with the devices used hitherto, in that it does not pollute the air, but to a certain extent it is purified by ortho-kinetic coagulation, furthermore electricity consumption is eliminated and there is no need to add water to the tank. At the same time, the humidifier is simple to manufacture and therefore inexpensive, does not contain any moving parts, thereby increasing its durability and reliability without the need for operator or operation control. A further advantage is the elimination of the possibility of large water drops being released into the air and settling on the surrounding objects.

An exemplary embodiment of the invention is shown schematically in the accompanying drawing, showing a vertical section through a humidifier.

According to the invention, the air humidifier is formed by a jacket 1 in the form of a double-sided cylindrical tube, which is mounted on the housing 2, into which the supply line 3 of the pressurized water flows. The casing 1 is mounted in a rack 4, in the middle part it is provided with a suction opening 11 and in the lower part with a nozzle 5 from which the waste pipe 6 is led. In the inner space 12 of the casing 1 is formed an annular baffle 7 with circumferential recess 71 and the outer circumference of the partition 7 allows it to slide in the housing 1. The partition 7 is firmly seated in the form of a venturi tube 2 which is slid into the housing 1 so that its exhaust cone 21 is provided with a through hole 212 at its apex. The cover 2 is vertically mounted in the exhaust cross section 211 of the exhaust cone 21, for example, according to a cylindrical shape, preferably made of hard non-wettable material. The cylindrical obstruction 8 is not the only possible solution, but it is possible to use its various shapes, ensuring the breakage of the water jet and good air flow, which is fulfilled eg by a drop, hemisphere or otherwise rounded shape. Furthermore, a nozzle 9 connected via an inlet fitting 10 and a connection piece 13 to a pressurized water supply line 3, which is fixed in a guide sleeve 14 housed in the housing 1 and provided with a through groove 141 and provided with a not shown shut-off fitting. After the humidifier has been assembled, with the overflow opening 212 of the housing 2, the overflow recess 71 in the bulkhead 7 and the through groove 141 in the guide housing 14 being directed downwards and the suction opening 11 upwards, the housing 1 is positioned in the stand 4 so that the bottom wall of the exhaust cone 21 is The pressure energy of the water in the nozzle 9 is converted into the kinetic energy of the water jet, which passes approximately in the axis of symmetry of the water jet 2 and entrains with the nozzle 9. the ambient air, through the intake opening 11, thereby flowing unidirectionally towards the exhaust cross section 211. Here, the beam impinges on a solid obstacle 8, breaking it, creating a very fine water mist that exits due to the air flow into the ambient air. . Water that does not form mist and splashes onto the inner wall of the casing 2, or condenses on the wall, flows into the overflow opening 212 and thence through the casing 1 through the overflow recess 71 and through groove 141 to the nozzle 5 to which the drain pipe 6 is connected. the water is diverted for further use, eg in the household to the toilet reservoir.

Claims (2)

SUBJECT Ionizing air humidifier, characterized in that a casing (2) in the shape of a Venturi tube, whose exhaust cone (21) has a fixed exhaust section (211) in the exhaust cross section (211), is received in a casing (1) mounted in the stand (4). and into which the inlet cone (22) is axially introduced OF THE INVENTION a nozzle (9) connected to a pressurized water source. An air humidifier according to claim 1, characterized in that the exhaust cone (21) of the housing (2) is provided with a discharge opening (212) and the housing (1) with an air suction opening (11) and a nozzle (5) for draining unused water.