DE202015106006U1 - An air cleaner device using an intense electric field dust removing technology using dielectric material as a carrier - Google Patents

Abstract

An air cleaner device using an intense electric field dust removing technology using dielectric material as a substrate, comprising: a panel (1), an air blowing module (2), an air inlet (3), an air outlet (4), an air inlet tunnel (5), an air outlet tunnel (6), a prefiltration module (7), a dust removal module (9), an odor removal module (10), a housing (12) and a display control part (14), the air inlet tunnel (5) covering the entire cavity between the air inlet (3 ) and the air outlet (2) and the air outlet tunnel (6) comprises the entire cavity between the air blowing module (2) and the air outlet (4), wherein the pre - filter (7), the dust removal module (9) and the odor removal module (10) all are arranged in the air tunnel between the air inlet (3) and the air outlet (4) and wherein the described Staubentfernungsmodul (9) by the use of dielectric material is an intensive electrical hes field generated to achieve a high particle removal rate.

Description

FIELD OF THE INVENTION

The present invention relates to an air cleaner device which uses an intense electric field dust removing technology using dielectric material as a carrier.

BACKGROUND OF THE INVENTION

Air purifiers are common household air handling equipment that can not only remove dust, pollen and dander, but also formaldehyde, toluene, xylene and other volatile organic compounds.

A conventional air cleaner typically employs highly efficient nonwoven filters through which air passes or high voltage electrostatic precipitators made of metal material. Consequently, there are a number of disadvantages associated with conventional air cleaners. The high efficiency filters are required to be changed at regular intervals, and the high pressure drop results in a costly power supply. For high voltage electrostatic precipitators, although they can be purged, the limitations of low dust removal efficiency, moisture-modifiable performance, and ozone generation reduce their practical utility.

SCOPE OF THE INVENTION

The object of this invention is to provide an air cleaner device which uses an intense electric field dust removing technology using dielectric material as a carrier to solve the problems mentioned above in the background of the invention. In order to achieve the above object, this invention provides the technical aspect as follows:
An air cleaner device using the intense electric field dust removing technology using dielectric material as a support comprises a panel (FIG. 1 ), an air blowing module ( 2 ), an air intake ( 3 ), an air outlet ( 4 ), an air intake tunnel ( 5 ), an air outlet tunnel ( 6 ), a prefiltration module ( 7 ), a dust removal module ( 9 ), an odor removal module ( 10 ), a housing ( 12 ) and a display control part ( 14 ), whereby the air intake tunnel ( 5 ) the entire cavity between the air inlet ( 3 ) and the air outlet ( 2 ) and the air outlet tunnel ( 6 ) the entire cavity between the air blowing module ( 2 ) and the air outlet ( 4 ). The prefilter ( 7 ), the dust removal module ( 9 ) and the odor removal module ( 10 ) are all in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ) arranged. The feature of the present invention is that the described dust removal module ( 9 ) based on the use of dielectric material to form an intense electric field.

As a further technical aspect of this invention: an air cleaner device employs the intense electric field dust removal technology using dielectric material as a support, the feature of the device being that the described dust removal module (FIG. 9 ) based on the use of dielectric material to form an intense electric field, wherein the dust removal module comprises an electrode layer ( 92 ) provided with dielectric material ( 91 ) and in the form of a honeycomb channel ( 93 ) is formed, wherein when connecting the electrode layer ( 92 ) with high voltage power ( 94 ) the microchannel ( 93 ) forms an intense electric field by which strong attraction is exerted on the charged particles in the air, resulting in absorption of charged particles on the surface of the dielectric material and in effective dust removal.

As a further technical aspect of this invention: the described air cleaner device employs the intense electric field dust removal technology using dielectric material as the carrier. The feature is that the particle loading module ( 8th ) in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ), in which a conductive layer ( 81 ), a field plate ( 83 ) having a plurality of openings and a plurality of corona emitters ( 82 ) are provided which are uniformly distributed on the conductive layer and in each case one opening ( 81 ) assigned. When connecting the line layer ( 81 ) and the field plate ( 83 ) with the high voltage source, the voltage between the corona emitters ( 92 ) and the field plate ( 83 ) 6000 volts ~ 12000 volts, and the emission of the generated corona results in a charging of the particles therein.

As a further technical aspect of this invention: the described air cleaner device employs the intense electric field dust removal technology using dielectric material as the carrier. The feature consists in that an air ion generating device ➇ in the described air tunnel between the air inlet ( 3 ) and the air outlet ( 4 ), wherein when connected to electrical power all air ions generated for the particle loading be emitted from the air ion generating device ➇.

Compared with the conventional technology, the present invention has a number of advantages: such a device has a compact construction and a meaningful construction. With the described dust removal module mounted in the air tunnel, a strong attraction is exerted on the moving charged particles in the air resulting in an absorption of nearly 100% of the charged particles with a simultaneous low pressure drop, and in operation the pressure drop is low, the resistance low, the noise low and the efficiency of the dust removal is high. It is reusable after cleaning, resulting in low cost, and the outer surface of the dielectric material is made of insulating material, whereby the outside is not exposed to the high voltage, with the result that the risk of electric shock is prevented, and high security entails. Regular cleaning and maintenance can be carried out and it can be reused after drying, which greatly reduces the cost of household dust removal.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows a construction of the present invention,

2 shows the structure of the dust removal module based on the use of dielectric material forming an intense electric field,

3 shows the structure of a particle loading module.

As shown in the figures, is: 1 - Blackboard, 2 - air bubble module, 3 - air intake, 4 - air outlet, 5 - air intake tunnel, 6 - air outlet tunnel, 7 - prefiltration module, 8th Particle Loading Module, ➇ Air Ion Generating Device, 81 - conductive layer, 82 - corona emitter, 83 - holes, 84 - high voltage power, 9 - Dust removal module, 91 - dielectric material, 92 - electrode layer, 93 - microwaveable canal, 94 - high voltage source, 10 - odor removal module - 11 - sterilization filter module, 12 - Casing, 13 - high power source, 14 - Display control part.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

Exemplary embodiments of the invention are illustrated in the drawings of the embodiments below. It should be understood that the embodiments shown do not encompass all embodiments of the invention, but are merely exemplary. In accordance with the exemplary embodiments of the invention, any combination of the claims described, in all possible variations thereof, are encompassed by the invention, unless stated otherwise or otherwise otherwise clearly excluded from the context.

Referring to the 1 - 3 includes an air cleaner device that uses the intense electric field dust removal technology using dielectric material as a support, a board ( 1 ), an air blowing module ( 2 ), an air intake ( 3 ), an air outlet ( 4 ), an air intake tunnel ( 5 ), an air outlet tunnel ( 6 ), a prefiltration module ( 7 ), a dust removal module ( 9 ), an odor removal module ( 10 ), a housing ( 12 ) and a display control part ( 14 ), whereby the air intake tunnel ( 5 ) the entire cavity between the air inlet ( 3 ) and the air outlet ( 2 ) and the air outlet tunnel ( 6 ) the entire cavity between the air blowing module ( 2 ) and the air outlet ( 4 ), wherein the prefilter ( 7 ), the dust removal module ( 9 ) and the odor removal module ( 10 ) all in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ) are arranged. The feature of the present invention is that the described dust removal module ( 9 ) based on the use of dielectric material to form an intense electric field, as in 1 is shown.

As a further technical aspect of this invention: an air cleaner device employs the intense electric field dust removal technology using dielectric material as a support, the feature of the device being that the described dust removal module (FIG. 9 ) based on the use of dielectric material to form an intense electric field, wherein the dust removal module comprises an electrode layer ( 92 ) with dielectric material ( 91 ) is coated with a plurality of microwaved channels ( 93 ), wherein when the electrode layer ( 92 ) with high voltage power ( 94 ), the microchannel ( 93 ) forms an intense electric field by which a strong attraction is exerted on the charged particles in the air, resulting in absorption of the charged particles on the surface of the dielectric material and in effective dust removal, as in 2 shown.

As a further technical aspect of this invention: the described air cleaner device employs the intense electric field dust removal technology using dielectric material as the carrier. The feature is that the particle loading module ( 8th ) in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ), in which a conductive layer ( 81 ), a field plate ( 83 ) having a plurality of openings and a plurality of corona emitters ( 92 ) is provided, which is uniformly distributed on the conductive layer and in each case one opening ( 81 ) assigned. When connecting the line layer ( 81 ) and the field plate ( 83 ) with the high voltage source, the voltage between the corona emitters ( 82 ) and the field plate ( 83 ) 6000 volts ~ 12000 volts, and the emission of the generated corona results in a charging of the particles therein, as in 3 shown.

As a further technical aspect of this invention: the described air cleaner device employs the intense electric field dust removal technology using dielectric material as the carrier. The feature consists in that an air ion generating device ➇ in the described air tunnel between the air inlet ( 3 ) and the air outlet ( 4 ), wherein when connected to electrical power all air ions generated for the particle loading are emitted by the air ion generating device ➇.

OPERATION PRINCIPLE OF THE INVENTION:

When connected to a power source, the field strength reaches up to 6000 volts ~ 12000 volts between the corona emitters and the field plate, and the emission of corona generated results in a charge of particles therein as particles in the air pass through the particulate loading module;
Another aspect is that the air ion generating device installed in the air tunnel can be used for ion emission for particle charging. The dust removal module includes an electrode layer coated with dielectric material and having a plurality of microwaved channels that, when connected to power, form an intense electric field that exerts a strong attraction on the charged particles in the air passing through the module which results in an absorption of nearly 100% of the charged particles with little resistance.

Here are exemplary embodiments of the invention are described. Variants of these preferred embodiments will become apparent to those skilled in the art upon reading the foregoing description. It is conceivable that those skilled in the art may use such variants as appropriate, and the invention may be practiced otherwise than as specifically described herein. Accordingly, many embodiments of this invention include all modifications and equivalents of the subject matter thereof, which are set forth in the claims appended hereto, as permitted by applicable law. Moreover, any combination of the above-described claims in all possible variants thereof is encompassed by the invention, unless otherwise specified or otherwise clearly excluded in the context.

Moreover, it should be understood that the embodiments of the invention herein are principles of the present invention. Other modifications that may be employed are within the scope of the invention. Thus, by way of example and not limitation, alternative configurations of the present invention may be used in accordance with the teachings herein. Accordingly, embodiments of the present invention are not limited to what is shown and described in detail.

Claims (4)

An air cleaner device using an intense electric field dust removing technology using dielectric material as a support, comprising: a panel ( 1 ), an air blowing module ( 2 ), an air intake ( 3 ), an air outlet ( 4 ), an air intake tunnel ( 5 ), an air outlet tunnel ( 6 ), a prefiltration module ( 7 ), a dust removal module ( 9 ), an odor removal module ( 10 ), a housing ( 12 ) and a display control part ( 14 ), whereby the air intake tunnel ( 5 ) the entire cavity between the air inlet ( 3 ) and the air outlet ( 2 ) and the air outlet tunnel ( 6 ) the entire cavity between the air blowing module ( 2 ) and the air outlet ( 4 ), wherein the prefilter ( 7 ), the dust removal module ( 9 ) and the odor removal module ( 10 ) all in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ) and wherein the described dust removal module ( 9 ) creates an intense electric field through the use of dielectric material to achieve a high particle removal rate. An air cleaner device using the intense electric field dust removing technology using dielectric material as a carrier according to claim 1, wherein the described dust removal module (10) comprises: 9 ) based on the use of dielectric material to form an intense electric field, wherein the dust removal module comprises an electrode layer ( 92 ) provided with dielectric material ( 91 ) and in the form of a honeycomb channel ( 93 ), wherein the electrode layer ( 92 ) with a high voltage power ( 94 ) in order to generate in the channel an intense electric field by which a strong attraction is exerted on the charged particles in the air, resulting in absorption of the charged particles at the Surface of the dielectric material results to achieve effective dust removal. An air cleaner device using the intense electric field dust removing technology using dielectric material as a carrier according to claim 1, wherein the particulate loading module ( 8th ) in the air tunnel between the air intake ( 3 ) and the air outlet ( 4 ), wherein the particle loading module comprises a conductive layer ( 81 ), Corona emitter ( 82 ) and a field plate ( 83 ) with a plurality of openings ( 81 ), wherein the corona emitter uniformly distributed on the conductive layer and in each case one opening ( 81 ), wherein when connecting the line layer ( 81 ) and the field plate ( 83 ) with a high voltage source the voltage between the corona emitters ( 82 ) and the field plate ( 83 ) 6000 volts ~ 12000 volts, with the resulting corona discharge causing the particles to charge. An air cleaner device using the intense electric field dust removing technology using a dielectric material as a carrier according to claim 1, wherein an air ion generating device ➇ is inserted into the described air tunnel between the air inlet (3). 3 ) and the air outlet ( 4 ) can be installed, wherein when using electrical power, the ion-generating device is in operation and causes a charging of the particles.

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