DE202015106002U1 - An air-purifying apparatus for an automotive air conditioning system using an intense electric field technology using a dielectric material as a carrier - Google Patents

Abstract

An air-purge device for an automotive air conditioning system including an air purge module (10) utilizing intense electric field technology using dielectric material as a support, wherein the described air purge module (10) is installed in a position between an air inlet and an air outlet of the air conditioning system; Air inlet the air inlet outside the vehicle (16) and the air inlet inside the vehicle (18), wherein the air outlet comprises a lower air outlet (6), a main air outlet (7) and a front air outlet (8) for removing windshield frost, wherein a An air purge module (10) using the intense electric field technology using dielectric material as a carrier, comprising a housing (101) and a dust removal module (103), the dust removal module being a dust removal module that is an intense electric field d used as a carrier using dielectric material.

Description

FIELD OF THE INVENTION

The present invention relates to an air cleaning apparatus for an air conditioning system using the intense electric field technology using dielectric material as a carrier.

BACKGROUND OF THE INVENTION

A conventional air cleaning module of an air conditioning system comprising activated carbon filters must be replaced at regular intervals, resulting in high operating costs.

SCOPE OF THE INVENTION

The object of this invention is to provide an air-cleaning apparatus for an air-conditioning system using an intense electric field 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 aspects as follows:
An air cleaning device for an automotive air conditioning system includes an intense electric field air cleaning module using dielectric material as the carrier. The described air cleaning module is installed between the air inlet and the air outlet of the air conditioning system, wherein the air inlet is classified into the air inlet outside the vehicle and the air inlet inside the vehicle. The air outlet includes a lower air outlet, a main air outlet, and a front air outlet for removing windshield frost. The air cleaning module using the intense electric field technology using dielectric material as a carrier comprises a housing and a dust removal module, the described dust removal module being a filter based on the use of dielectric material to form an intense electric field.

The described air cleaning module employs the intense electric field technology using dielectric material as the support, the dust removal module comprising an electrode layer coated with dielectric material and having a plurality of microwaved channels, wherein upon connection of the high voltage power electrode layer, the microchannel is intense forms an electric field, which exerts a strong attraction on the charged particles in the air, resulting in absorption of the charged particles on the surface of the dielectric material, resulting in effective dust removal.

The described air cleaning module employs the intense electric field technology using dielectric material as a support in which the particle loading module may be installed, the particle loading module having a conductive layer, a field plate having a plurality of apertures, and corona emitters uniformly attached distributed the conductive layer and each associated with an opening. When the line layer and the field plate are connected to a high voltage source, a voltage of 6000 volts-12000 volts is produced, and the discharge of the generated corona results in a charging of the particles therein.

The air purge module described uses the intense electric field technology using dielectric material as the carrier. Further, located at a suitable position of the air tunnel between the air inlet and the air outlet opening for a suitable holding and inserting and removing the above-mentioned air cleaning module, the opening having a cap, which is used for sealing the air tunnel of the motor vehicle air conditioning.

The air purge module described uses the intense electric field technology using dielectric material as the carrier. The feature is that an air-ion generating device may be incorporated, wherein the air-ion generating device generates airborne ions for particle charging when connected to electrical power.

Compared to existing techniques, the present invention has a number of advantages: such a device has an extremely high air cleaning efficiency, resulting in an absorption of 99.99% of microparticles below 2.5 microns, while the bacteria and microbes on the absorbed particles can be collected and killed in the intense electric field. The described air cleaning module is reusable due to the possibility of cleaning, and due to the fact that no replacement is necessary, result in lower operating costs. It can also be operated with lower resistance, lower noise and negligible power input. This technique is safe and adaptable, which does not require replacement of current blowers of automotive air conditioning systems.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows the structure of the present invention.

2 shows the structure of the air cleaning module based on the use of dielectric material to form an intense electric field.

3 shows the structure of the electric field for particle charging.

4 shows the structure of the intense electric field filter using dielectric material as a carrier.

• 1 – Kondensator, 2 – Kühler, 3 – Kühlergebläse, 4 – Motor, 5 – Heißwasserrohr, 6 – unterer Luftauslass, 7 – Hauptluftauslass, 8 – vorderer Luftauslass zur Entfernung von Windschutzscheibenfrost, 9 – Windrichtungssteuerventil, 10 – Luftreinigungsmodul, 101 – Gehäuse, 102 – elektrisches Feld zur Partikelaufladung,
  
  – Ionen erzeugende Vorrichtung, 1021 – leitende Schicht, 1022 – Koronaemitter, 1023 – Feldplatte, 103 – Filter mit intensivem elektrischem Feld unter Verwendung von dielektrischem Material als Träger, 1031 – dielektrisches Material, 1032 – Elektrodenschicht, 1033 – Mikrokanal, 11 – Heizer, 12 – Temperatursteuertür, 13 – Verdampfer, 14 – Aktivkohlefilter, 15 – Mischluftkonditionierungstür, 16 – Lufteinlass außerhalb des Fahrzeugs, 17 – Filter, 18 – Lufteinlass innerhalb des Fahrzeugs, 19 – Luftgebläse, 20 – Kompressor, 21 – Fluidspeichertrockner, 22 – Expansionsventil, 23 – Abdeckkappe, 24 – Hochspannungsleistung.

As shown in the figures, is:

• 1 - capacitor, 2 - cooler, 3 - radiator fan, 4 - Engine, 5 - hot water pipe, 6 - lower air outlet, 7 - main air outlet, 8th Front air outlet for removing windshield frost, 9 - wind direction control valve, 10 - air purification module, 101 - Casing, 102 - electric field for particle charging,
  
  Ion generating device, 1021 - conductive layer, 1022 - corona emitter, 1023 - field plate, 103 - intense electric field filter using dielectric material as the carrier, 1031 - dielectric material, 1032 - electrode layer, 1033 - microchannel, 11 - heaters, 12 - temperature control door, 13 - Evaporator, 14 - activated carbon filter, 15 - mixed air conditioning door, 16 - air intake outside the vehicle, 17 - filters, 18 - air intake inside the vehicle, 19 - air blower, 20 - compressor, 21 - fluid storage dryer, 22 - expansion valve, 23 - cap, 24 - high voltage power.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

Exemplary embodiments of the invention are shown below. It should be understood that the embodiments shown are not all of the embodiments of the invention, but are merely exemplary. Thus, in accordance with the exemplary embodiments of the invention, any combination of the claims described is embraced by the invention in all possible variations, unless otherwise specified or clearly excluded from the context.

Referring to the 1 - 4 an air cleaning device for an automotive air conditioning system has an air cleaning module ( 10 ) using an intense electric field technology using dielectric material as the support, the described air cleaning module ( 10 ) is installed in a position between an air inlet and an air outlet of the air conditioning system, wherein the air inlet into the air inlet outside the vehicle ( 16 ) and the air intake inside the vehicle ( 18 ) is classified. The air outlet comprises a lower air outlet ( 6 ), a main air outlet ( 7 ) and a front air outlet ( 8th ) to remove windshield frost. An air purge module ( 10 ), which uses the intense electric field technology using dielectric material as the carrier, comprises a housing ( 101 ) and a dust removal module ( 103 ). Please refer 1 and 2 ,

The described air cleaning module employs the intense electric field technology using dielectric materials as the carrier, wherein the dust removal module (FIG. 103 ) based on the use of dielectric material to form an intense electric field comprising an electrode layer ( 1032 ) with dielectric material ( 1031 ) is coated and a plurality of microwave-like channels ( 1033 ), wherein when connecting the electrode layer ( 1032 ) with a high voltage power ( 24 ) the microchannel ( 1033 ) 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 as well as effective dust removal. Please refer 3 ,

The described air cleaning module employs the intense electric field technology using dielectric material as the carrier in which the particle loading module (FIG. 102 ), whereby the particle loading module ( 102 ) a conductive layer ( 1021 ), a field plate ( 1023 ) with a plurality of openings and corona emitter ( 1022 ) which are uniformly attached to the conductive layer ( 1021 ) are distributed and each associated with an opening. When connecting the conductive layer ( 1021 ) and the field plate ( 1023 ) with a high voltage source ( 24 ), the voltage reaches 6000 volts-12000 volts, and the emission of the generated corona results in a charging of the particles therein. Please refer 4 ,

The air purge module described uses the intense electric field technology using dielectric material as the carrier. Further, in an appropriate position of the trachea between the air inlet and the air outlet is an opening for suitably holding and inserting and removing the above-mentioned air cleaning module 10 provided, wherein the opening has a cap which is used for sealing the air tunnel of the automotive air conditioning system.

The air purge module described uses the intense electric field technology using dielectric material as the carrier.

eingebaut sein kann, wobei die Luftionen erzeuende Vorrichtung

bei Verbindung mit elektrischer Leistung Luftionen zum Laden von Partikeln erzeugt.The feature is that an air ion generating device

may be incorporated, wherein the air ions generating device

When connected to electrical power, generates air ions to charge particles.

OPERATION PRINCIPLE OF THE INVENTION:

Without altering the original air blower and air tunnel, an air cleaning module employing dielectric material as a carrier is installed in a suitable position, wherein when airflow passes through the air cleaning module, high voltage discharge or ion emission causes particles to be charged in the air, wherein the charged particles are absorbed on the surface of the dielectric material, resulting in effective dust removal and air cleaning in a vehicle.

The above-mentioned device has no adverse effect on an automotive air conditioning system, but has a significant improvement in air purity. In order to insert or remove the device properly for maintenance or washing, it is necessary to find a suitable position in the air tunnel of the air conditioner with a suitable insertion and removal opening and cap configured.

Here, exemplary embodiments of this 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 that 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 (5)

An air-purge device for an automotive air conditioning system having an air purge module ( 10 ) using an intense electric field technology using dielectric material as the support, the described air cleaning module ( 10 ) is installed in a position between an air inlet and an air outlet of the air conditioning system, wherein the air inlet, the air inlet outside the vehicle ( 16 ) and the air intake inside the vehicle ( 18 ), wherein the air outlet has a lower air outlet ( 6 ), a main air outlet ( 7 ) and a front air outlet ( 8th ) for the removal of windshield frost, wherein an air cleaning module ( 10 ) using the intense electric field technology using dielectric material as a carrier, a package ( 101 ) as well as a dust removal module ( 103 ), wherein the dust removal module is a dust removal module that uses an intense electric field using dielectric material as a support. An air cleaning module using the intense electric field technology using dielectric material as a carrier according to claim 1, wherein the dust removal module (10) 103 ) based on the use of dielectric material to produce an intense electric field comprising an electrode layer ( 1032 ) with dielectric material ( 1031 ) is coated and a plurality of microwave-like channels ( 1033 ), wherein when connecting the electrode layer ( 1032 ) with high voltage power ( 24 ) the microchannel ( 1033 ) 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 effective dust removal. An air cleaning module using the intense electric field technology using dielectric material as the carrier according to claim 1, wherein the particle loading module ( 102 ), whereby the particle loading module ( 102 ) conductive layers ( 1021 ), a field plate ( 1023 ), which has a plurality of openings, and corona emitter ( 1022 ) which are uniformly attached to the conductive layers ( 1021 ) are distributed and each associated with an opening, wherein when connecting the line layer ( 1021 ) and the field plate ( 1023 ) with a High voltage source ( 24 ) results in a voltage of 6000 volts-12000 volts and the emission of the generated corona results in a charge of the particles therein. An air cleaning module using the intense electric field technology using dielectric material as a support according to claim 1, further comprising an opening for suitably holding and inserting and removing the above-mentioned air cleaning module at a suitable position of the air tunnel between the air inlet and the air outlet (FIG. 10 ), wherein the opening has a cap which is used for sealing the air tunnel of the motor vehicle air conditioner. An air cleaning module using the intense electric field technology using dielectric material as a carrier according to claim 1, wherein an air ion generating device

may be incorporated, wherein the air ions generating device

When connected to electrical power generates air ions for particle charging.

Images