DE102008049278A1 - Multi-zonal air conditioner for vehicle, particularly motor vehicle, has multiple separate airconditiong paths, and ionization device has electrode devices, where flat electrode device is provided for acting on two air conditioning paths - Google Patents

Abstract

The invention relates to a multi-zone air conditioning system (1) for a motor vehicle, which has a plurality of separate air treatment paths (11, 12) and an ionization device (10). The ionization device (10) is arranged so that at least parts of the ionization device (10) act on at least two air treatment paths (11, 12) simultaneously.

Description

The The invention relates to a multi-zone air conditioning system for a motor vehicle, which a plurality of separate air treatment paths and at least one ionization device. Farther The invention relates to a vehicle with a multi-zone air conditioning system.

Around which related to the ventilation of motor vehicles the increased comfort requirements of vehicle customers over the years to satisfy, has the variety of functions and the complexity of motor vehicle air conditioners increased accordingly.

So have multi-zone air conditioners (especially two-zone air conditioners) enforced in the area of the vehicle upper class and are in the meantime also become common in other vehicle classes. In such Multi-zone air conditioners can have different areas of the motor vehicle subjected to different temperatures become. For example, it is possible that the temperatures on the driver's side below the driver's side Temperatures can be selected.

Further Functions that are increasingly in the meantime in the ventilation motor vehicles are, for example, filters, to clean the fresh air to be supplied to the vehicle interior and / or for removal of unwanted outside air odors be used.

Also a scent of the motor vehicle interior to be supplied Air is increasingly being realized. Here are Fragrances released into the vehicle interior air, for example to provide a noticeable fragrance, or but also to cause physiological effects, such as an increased attention of the driver.

For some time now, in motor vehicles, ionization devices have also been installed as part of the original equipment. On the one hand, the ionization units should provide air freshening, that is, a sense of smell that a "fresh air" is present. On the other hand, ionizers are used to kill pathogens, in particular germs, bacteria or viruses, which may be present in the fresh air to be supplied to the vehicle interior. In order to kill pathogens, suitable ions are generated. Thus, for example, positively charged ions such as H ⁺ ions and negatively charged ions such as O ₂ ^- ions are generated at the positive electrode by the emission of electrons at the electrode and their combination with oxygen molecules. Resulting hydrogen peroxide radical (OOH) or HO ₂ ^- ions can provide by dissolving a hydrogen atom of the protein structure of a cell or the cell membrane for their destruction.

For air freshening, however, mostly negatively charged high voltage electrodes are used, which z. B. the oxygen molecules contained in the supplied air (O ₂ ) to negatively charged oxygen ions (O ₂ ^- ).

There Ionizing devices represent a certain cost factor, it is naturally desirable to have an automotive air conditioning system with the lowest possible number of ionizing devices equip. Ideally, it is desired to have only one Ionizing device to use.

These Demand, however, is problematic in multi-zone air conditioners. Multi-zone air conditioning functionally have several air treatment paths, the are separated from each other. In different air treatment paths is the to be supplied to the different sections of the motor vehicle Fresh air, for example, provided with different temperatures.

Want one thus possible in connection with a multi-zone air conditioning low number of ionization devices (such as a single ionization device), so it offers itself on, the ionization device in an air intake area of the multi-zone air conditioner to arrange, even before the intake air to different Air treatment paths is divided. The disadvantage here, however, then that the ionizer far from the Luftausströmerdüsen is removed. The ions may be due to the long airway clearly recombine with each other so that the Effectiveness of the Luftionisationsvorrichtung is reduced, if not even lost in essence. This is especially true as ions also adhere to the walls of the air ducts as well precipitate on the surfaces of heat exchangers can, and in this way from the reprocessed or recycled air are removed. A conceivable increase The amount of ions generated are usually design limits the ionization device and / or the then required electrical Connected load and / or required for such an ionization device Construction costs.

An arrangement of the ionization device in a region of the air ducts, which is adjacent to the Luftausströmerdüsen, however, is also disadvantageous in multi-zone air conditioners according to the prior art. Here it is necessary, for each individual air treatment path to install a self-contained ionizing unit. However, this also entails corresponding costs.

During the construction of ionization devices and their use in the automotive sector, for example in US 2006/0023391 A1 . US 2006/0023392 A1 . DE 87 03 911 U1 . DE 10 2004 023 348 A1 . DE 10 2005 048 229 A1 . EP 1 666 288 A1 . WO 85/05598 A1 or WO 2007/078135 A1 is still lacking a satisfactory solution for the use of ionization devices in multi-zone air conditioners.

The The object of the invention is therefore to provide a suitable device for multi-zone air conditioning of vehicles, with which also a favorable ionization of the air can be achieved can.

The Task is solved in that a multi-zone air conditioning for a motor vehicle, which is a plurality of each other separate air treatment paths and at least one ionization device has, in such a form that at least parts at least one Ionization device on at least two air treatment paths act. In other words, therefore, the ionization device designed and arranged in the multi-zone air conditioning system, that at least parts of the ionization device ionization effect air in at least two different Luftaufbereitungspfaden flows. It is also conceivable, of course, that at least Parts of an ionization device to three, four, five, act on six or more air treatment paths at the same time (a corresponding one) Number of air treatment paths required). It is also possible that a plurality of ionization devices is provided by which at least one, preferably several and / or all, each on a plurality of air treatment paths acts. So it is conceivable, for example that in a four-zone air conditioning a first ionization device on two of the four different air treatment paths the four-zone air conditioning system acts while a second ionization device is provided on the remaining two air treatment paths the four-zone air conditioning system acts. By reducing the number the required ionization devices (especially in proportion to the number of air treatment paths) can be a cost effective multi-zone air conditioning be realized, in which nevertheless an ionization of a plurality of different air treatment paths (in particular also of essentially all air treatment paths) can be done inexpensively. Even if the ionizer basically can be constructed arbitrarily, it is usually advantageous if this as a high voltage ionization device is formed, which the air flowing through using ionized by high voltage.

Especially for wide air treatment paths, it is advantageous if one or more ionization devices comprise a plurality of electrode devices (Electrode field), wherein at least one electrode field on two air treatment paths simultaneously.

Prefers are each individual air treatment path one or more electrode devices, Regions associated with an electrode device or electrode fields.

Advantageous it may be if in the multi-zone air conditioning at least one ionization device a plurality of electrode means, preferably are formed differently. With the help of differently trained Electrode devices, the multi-zone air conditioner or the ionization device the multi-zone air conditioning system can be optimized for different effects. The different effects can be quite be realized simultaneously. For example, it is with help of positive high voltage electrodes possible, cations produce, which are usually particularly suitable to destroy pathogens. On the other hand, with Help by generating negative high voltage anions, such as negatively charged oxygen ions, resulting in the Perception of vehicle occupants usually an air freshener coming soon. One, several or possibly all electrodes simultaneously on different Air treatment paths act. It is possible, however also that a first type of electrodes each on different Air treatment paths interacts while another type of electrodes for each of the air treatment paths or more electrode means is provided.

Thus, it is possible for at least one planar electrode device to be provided and / or at least one electrode device to be provided which acts on at least two air treatment paths. Such a flat electrode device can be placed for example in a correspondingly executed recess which is provided in the air duct wall of an air treatment path. Incidentally, such a surface-shaped electrode device can be configured in a particularly simple manner such that it simultaneously acts on a plurality of air treatment paths. In addition, areally designed electrode devices are particularly suitable for positively charged high-voltage electrodes and / or for electrodes for him production of cations. For example, triangles, squares, squares, rectangles (in particular elongated rectangles), circles, ovals, ellipses and the like are conceivable as planar shapes.

meaningful It can be moreover, if in a multi-zone air conditioner at least one electrode device, in particular at least one at least a protruding part having electrode means provided is and / or at least one electrode device, at least in parts in several parts is formed and in particular at least one projecting part having acted upon air treatment path. Electrode devices which have at least one protruding part, are common especially for negatively charged electrodes and / or suitable for electrodes for generating anions. In particular, it is possible with the help of above Divide electrons by a plasma discharge to emit. Even if It is basically possible for the electrodes be executed by their shape so that this on several air treatment paths can act (for example by a comb-like training), so it is often advantageous to provide two separate electrodes. It goes without saying possible that the two electrodes are electrically and / or mechanically interconnected.

A further advantageous embodiment may result if at least parts of at least one ionization device at at least one air treatment path only a part of the air treatment path apply. It has been shown that in practice in the Usually sufficient, if not the entire air flow through an air treatment path is performed, but only one Part thereof is acted upon by the ionization device. Because for a reduction of the germ count and / or for it is the cause of an air freshening effect often sufficient if only part of the air stream ionizes becomes. This makes it possible, however, the ionization device smaller, simpler and spatially compact form. This may be, in particular, the production costs and / or the energy consumption the ionization (and thus indirectly re-manufacturing costs).

Especially It is advantageous if the at least one ionization device in a rear part of the air treatment path of the multi-zone air conditioning system is arranged, in particular in an end region of the air treatment path the multi-zone air conditioning. This can cause the ionization of the air relatively immediately before the time or place at which the ionized Air is discharged into the motor vehicle interior done. Thereby it is possible that essentially all the generated ions (if desired) in the Motor vehicle interior are delivered, and not recombine in advance or on surfaces of the air ducts get lost. This can be a particularly great effect the ionization device can be achieved.

A meaningful execution possibility may arise if in the multi-zone air conditioning the subdivision into different Air treatment paths in the region of at least one ionization device at least partially carried out by means of a partition, which preferably integral with the multi-zone air conditioning system, in particular integral with the Multi-zone air conditioning housing is formed. To this Way, it is particularly simple and inexpensive Kind possible, the required separation of different Air treatment paths also in the area of the ionization device to realize. It may be necessary to do so prove the partitions in particular in the area of the electrodes made of a different material, or with suitable To provide reinforcements. It is remembered that in the Range of electrodes usually high voltages occur.

A meaningful training opportunity arises, if at least a power connection, in particular a high voltage connection and / or at least a high voltage source a plurality of at least parts at least an ionization device, in particular different ones Electrode devices, supplied with electricity. in this connection is especially on electrodes with a similar polarity to think. For example, it is possible to have two protruding ones Electrode parts of a particular type of electrode, in different Air treatment paths of the multi-zone air conditioning are arranged to supply high voltage with the help of the same high voltage source.

meaningful it may be if at least one ionization device at least partly as an air freshening device and / or as a sterilization device is trained. Just such functionality is often desired to a particular extent. The air refreshment can be realized in particular by the generation of anions, while a sterilization realized in particular by generating cations can be.

It is usually useful if in the multi-zone air conditioning at least one ionization device is provided, which is at least partially constructed in a modular manner. Such ionization modules are now commercially available as a unit. By providing such ionization modules in particular the cost can be reduced. In addition, in a case of failure is a simple Repair, for example by replacing the defective ionization module, possible.

A advantageous design results when at least parts of an ionization device act on exactly two air treatment paths and / or the multi-zone air conditioning designed as a two-zone air conditioning or as a four-zone air conditioning is. In such systems, a particularly good compromise between cost savings and great functionality the air conditioner revealed. This may, moreover, in particular also apply to other "even-numbered" multi-zone air conditioners.

Farther a vehicle is proposed, in particular a motor vehicle, which at least one multi-zone air conditioning with the previously described Structure has. The vehicle may be in any way an aircraft, a watercraft and / or a land vehicle (railbound / non-railbound) act. In the proposed Vehicle arise in connection with the multi-zone air conditioning described properties and benefits in an analogous manner.

in the The invention is based on exemplary embodiments and with reference to the accompanying drawings described. Show it:

1 A multi-zone air conditioning system for a motor vehicle seen in schematic cross section from the side;

2 : a multi-zone air conditioning system for a motor vehicle seen in a schematic view from above;

3 : a possible embodiment of an ion generator.

In 1 is a schematic cross-sectional view of a two-zone air conditioning 1 trained for a motor vehicle. The two-zone air conditioning 1 has a housing 14 on which an air intake 2 for sucking in outside air, as well as an air outlet 9 has to deliver the processed outside air to the vehicle interior. The air intake 2 For example, is connected to an air intake grille, wherein usually still a water separator is provided.

The air outlet 9 the two-zone air conditioning 1 is connected to one or more Luftausströmerdüsen that deliver the treated fresh air into the interior of the motor vehicle. Usually Luftausströmerdüsen in the footwell area, in the area of the windshield and in the area of the dashboard (here usually in the form of so-called spot nozzles) are provided. By a corresponding structure of the two-zone air conditioning 1 The different air outlets can also be charged with air of different temperatures. For example, most people in the footwell area want a temperature warmer by a few degrees Celsius than in the head area.

Incidentally, it is also possible to provide an air intake nozzle in the area of the motor vehicle interior to the two-zone air conditioning system 1 to operate in a (partial) recirculation mode.

The from the air intake 2 sucked fresh air (the air flow is indicated by arrows A) is depending on the position of the first Luftleitklappenpaars 4 . 5 through an evaporator 3 or through a first bypass channel 18 guided. This cools the air to the required extent. Subsequently, the air flow A through a radiator 8th and / or a second bypass channel 19 directed. The division of the air flow A on the radiator 8th or the second bypass channel 19 takes place by a corresponding position of the second Luftleitklappenpaars 6 . 7 , The radiator 8th is usually designed as a coolant radiator, wherein optionally a Zuheizmöglichkeit can be provided by an electric heater.

After heating the air, the air flows through an ion generator 10 over and there is ionized to a certain extent. The thus prepared air A then flows into the vehicle interior.

The air conditioning described above takes place in the illustrated two-zone air conditioning system 1 in two from each other air flow technically separate air channels 11 . 12 , This is especially in 2 to recognize a schematic plan view of the in 1 illustrated two-zone air conditioning 1 represents. The two air channels 11 . 12 are through a partition 13 separated from each other. The partition 13 is provided with corresponding recesses, in which, for example, the evaporator 3 and / or the radiator 8th can be placed. In the 2 to be recognized louvers 4 . 7 are each in two parts 4a . 4b . 7a . 7b executed. A first part 4a . 7a the corresponding air deflector 4 . 7 is in the first air channel 11 the two-zone air conditioning 1 arranged while the second part 4b . 7b the louvers 4 . 7 in the second air channel 12 the two-zone air conditioning 1 is arranged. The two halves of the air deflectors 4 . 5 can each be adjusted independently, so that in the two air channels 11 . 12 the flowing air A (A ₁ , A ₂ ) can be brought to a different temperature. Also in 2 unrecognizable air deflectors 5 . 6 that in the Bypasska nälen 18 . 19 are arranged, each designed in two parts, the two halves can be adjusted independently.

In 2 is in the lower area (adjacent to the air outlet 9 ) the ion generator 10 built-in. The ion generator 10 (see also 3 ) is so in the housing 14 the two-zone air conditioning 1 built in, that this approximately in its middle of the partition 13 is divided into two halves. Each of the two halves are located in one of the two air channels 11 . 12 , By the proposed arrangement of the ion generator 10 It is possible with a single ion generator 10 both partial air streams A ₁ , A ₂ , passing through the two air channels 11 . 12 flowing through, (partially) ionizing.

The ion generator 10 has two differently polarized electrodes 15 . 16 (see also 3 ). The anode 15 is formed areally and is placed under a positive high voltage. At the anode 15 Cations are generated, which are used in particular for the control of pathogens. For example, from hydrogen molecules contained in the air flow A, a hydrogen atom is dissolved out and thereby oxidized to a hydrogen ion (H ⁺ ). The size, arrangement and shape of the anode 15 is chosen so that a uniform anode plate in both air channels 11 . 12 the two-zone air conditioning 1 an effect unfolds.

Furthermore, the ion generator 10 a cathode area 20 on. The cathode area 20 of the ion generator 10 serves to generate anions, which serve in particular the air freshening. In the cathode area 20 For example, oxygen molecules contained in the air are reduced to negatively charged oxygen ions (O ₂ ^- ). In the cathode area 20 are in the present embodiment shown two acicular cathodes 16 arranged, which are electrically connected to each other. Due to the needle-shaped formation of the cathodes 16 arise surfaces with a large curvature (small radius of curvature), so that there easily electrons can be released in the form of a plasma discharge. In each case one of the needle-shaped cathodes 16 in the cathode area 20 is located in the first air channel 11 or in the second air channel 12 , This can be done in both air channels 11 . 12 the two-zone air conditioning system can be easily generated anions that serve, for example, the air freshening.

The basic structure of the as prefabricated module 10 trained ion generator 10 is in the schematic view of 3 to recognize. The location of the partition 13 of the housing 14 the two-zone air conditioning 1 is indicated by a dashed line.

The ion generator module used in the present embodiment 10 contains in its pedestal area 21 the high voltage sources that are neces sary to the anode 15 or the cathodes 16 provided with a corresponding poled high voltage. The power supply of the high voltage sources is provided by a common power connection 17 ,

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 2006/0023391 A1 [0012]
• US 2006/0023392 A1 [0012]
• - DE 8703911 U1 [0012]
• DE 102004023348 A1 [0012]
• - DE 102005048229 A1 [0012]
• - EP 1666288 A1 [0012]
• WO 85/05598 A1 [0012]
• WO 2007/078135 A1 [0012]

Claims (12)

Multi-zone air conditioning system ( 1 ) for a motor vehicle, comprising a plurality of separate air treatment paths ( 11 . 12 ) and at least one ionization device ( 10 ), characterized in that at least parts of at least one ionization device ( 10 ) on at least two air treatment paths ( 11 . 12 ). Multi-zone air conditioning system ( 1 ) according to claim 1, characterized in that at least one ionization device ( 10 ) a plurality of electrode devices ( 15 . 16 ), which are preferably formed differently. Multi-zone air conditioning system ( 1 ) according to claim 1 or 2, characterized in that at least one flat electrode device ( 15 ) is provided and / or at least one flat electrode device ( 15 ) on at least two air treatment paths ( 11 . 12 ) acts. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least one electrode device ( 20 ), in particular at least one at least one projecting part ( 16 ) having electrode means ( 20 ) is provided and / or at least one electrode device ( 20 ) is at least partially formed in several parts and in particular at least one projecting part ( 16 ) per acted upon air treatment path ( 11 . 12 ) having. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least parts of at least one ionization device ( 10 ) at least one air treatment path ( 11 . 12 ) only a part of the air treatment path ( 11 . 12 ). Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that the at least one ionization device ( 10 ) in a rear part of the air treatment path ( 15 . 16 ), in particular in an end region of the air treatment path ( 11 . 12 ). Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that the subdivision into different air treatment paths ( 15 . 16 ) in the region of at least one ionization device ( 10 ) at least partially by means of a partition wall ( 13 ), which is preferably integral with the multi-zone air conditioning system ( 1 ), in particular integral with the multi-zone air conditioning housing ( 19 ) is trained. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least one power connection ( 17 ), in particular high-voltage connection and / or at least one high-voltage source, a plurality of at least parts of at least one ionization device ( 10 ), in particular different electrode devices ( 15 . 16 ), with electricity. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least one ionization device ( 10 ) is at least partially designed as an air freshening device and / or as a sterilization device. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least parts of at least one ionization device ( 10 ) are formed like a module. Multi-zone air conditioning system ( 1 ) according to one of the preceding claims, characterized in that at least parts of at least one ionization device ( 10 ) on exactly two air treatment paths ( 15 . 16 ) and / or the multi-zone air conditioning system as a two-zone air conditioning ( 1 ) or is designed as a four-zone air conditioning. Vehicle, in particular motor vehicle, comprising at least one multi-zone air conditioning system ( 1 ) according to one of claims 1 to 11.