DE102005027566A1 - Building element, in particular, for a heating and/or air-conditioning unit of a motor vehicle comprises a zone of its wall area which is open to sound and is made of a micro-porous material - Google Patents

Abstract

The building element, in particular, for a heating and/or air-conditioning unit of a motor vehicle comprises, at least in one section of its wall area, a zone which is open to sound and is made of a micro-porous material. An independent claim is also included for method for producing the proposed building element.

Description

The The invention relates to a component, in particular for a heating and / or air conditioning device a motor vehicle, according to the preamble of claim 1.

The Requirements regarding the reduction of noise are always due to ever increasing comfort demands in the field of motor vehicle construction greater. This means that, for example, ventilation, heating, or air conditioning in operation higher Requirements with regard to avoidance or reduction of disturbing sounds fulfill have to.

at usual Air conditioning systems are due to a developmental permanent further Lowering the vehicle noise such as engine, tire and airflow noise, the in the vehicle interior, for example by the blower of a Air conditioning caused noise increasingly as disturbing felt. Other sources of noise can but also critical flow noise in the air duct or structure-borne noise bound noise sources such as the magnetic noise the blower motors, drive noise of adjusting motors or noises which are caused by the movement of louvers. To reduce this noise come soundproofing and -absorbing components for use.

For example, is from the DE 36 39 138 A1 discloses a housing for guiding air flows, especially for heating or air conditioning systems of motor vehicles, are provided in the wall parts or individual wall areas to avoid noise or for sound insulation with foam pads. The attachment of these foam pads is carried out on separately formed support ribs.

The However, the introduction of components within the air duct is usually with additional costs, Steps and sometimes complex connection technology connected. It also exists the possibility, that in the course of time absorber material peels off again. In particular foams are subject the risk of decomposition or in connection with moisture also the Settlement of microorganisms, resulting in comfort impairments the inmate regarding the odor and health.

An embodiment of resonance absorbers, in particular in the manner of a Helmholtz resonator is in the European patent EP 0 968 857 B1 disclosed. These absorbers consist essentially of hollow bodies with openings, wherein the air in the region of the openings with the air volume located in the openings interacts as a vibration system.

Absorber, which are based on such resonance or interference effects show only a narrowband effect. To a desired broadband To achieve absorption several such absorbers are combined. By the complexity such devices, more expensive Manufacturing steps and the claimed space is also here with increased Expect costs.

In addition to these measures for sound attenuation or absorption is also the formation of sound transparent wall areas, in the not previously published German patent application with the file number DE 102 60 932.2 for the purposeful derivation of sound from critical areas into less critical areas in a motor vehicle described. The absorption of the sound is predominantly in these less critical areas outside the housing in the installation space of the air conditioner, for example in the area below the instrument panel. Non-woven materials, open-cell foams, films made of closed-cell PU, PUR, PP, PE, EPP, PEPP foams or even thin films, sheets, perforated or microperforated materials are used as the material for the sound-transparent area.

The However, materials used are not suitable, simultaneously a sufficient one high sound transmission, a sufficiently large tightness to guide To ensure air and to be so stable or malleable that complete components of a Heating and / or air conditioning device of a motor vehicle can be produced from it.

It Object of the invention, improved components for a heating and / or air conditioning device a motor vehicle available put.

These Task is solved by a component having the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

According to the invention, a component is provided, in particular for a heating and / or air-conditioning device of a motor vehicle, which has a sound-open region, which consists of a microporous material, at least in one region of its wall. Such microporous materials preferably have pore sizes between 1 μm and 200 μm, in particular between 5 μm and 50 μm. These materials are to a certain extent gas or air permeable by one sufficient To ensure large sound transmission but also sufficiently tight to be used, for example, as an air guide or air guide elements without significant losses can. Due to this porosity, the material also has a certain amount of sound absorption. The tightness, pore size and porosity can be adjusted by the manufacturing process, so that optimum acoustic properties with minimal leakage of the air guide elements are achieved for the respective application.

Advantageously, the microporous material is designed as a sintered material, in particular as a sintered plastic. By means of sintering, the material undergoes a thermal cycle at controlled temperature, pressure and atmosphere. In the course of this process, powder granules, in particular plastic granules, weld to surface areas. The porosity, in particular the pore size can be varied within a wide range by appropriate adjustment of the production parameters and / or the granule size, in order to achieve a desired acoustic effect with low air losses for the respective arrangement. In addition, such materials can be obtained by foaming, for example by means of CO ₂ gas. Plastics made by such methods also have the advantage of low weight.

Prefers be for materials produced in this way, in particular sintered polyethylene or sintered polypropylene as materials for open sound areas of a component according to the invention used.

The These materials are also characterized by the fact that with them Wall thicknesses up to can be realized to a minimum thickness of about 0.5 mm. Prefers come components with wall thicknesses the sound-open area between 0.5 mm and 10 mm, in particular between 0.5 mm and 3 mm for use.

Especially can be advantageous Components according to the invention so executed be that the microporous soundproof area over the entire wall of the component extends. Such a kind formed Component is preferably an air guide or air guide element, in particular a tubular air duct or a part a tubular one Air duct. Under a tubular Air duct is here in the broadest sense a closed-walled, in particular thin-walled with an inner substantially hollow area executed component to understand.

On The reason of the open sound area in the air duct does not reach the entire sound entering the air duct through openings, especially air nozzles, directly into the vehicle interior, but can, for example, laterally emerge in a corresponding installation space. This installation space, preferably the area under the instrument panel, the center console, side walls of the Vehicle, the trunk, the area between roof and headliner, A, B, C pillar or generally all areas where air ducts behind panels or inside are laid by structural components, is insulated from the vehicle interior, preferably by means of conventional sound absorbing materials, such as foam parts or mats, Woven fleece, carpets or similar. additionally it is beneficial to have openings of air ducts, which lead into the passenger compartment, if possible in the direction of sound-absorbing areas, for example, leading to the Carpet area to arrange. In addition, the self-absorption also contributes of said material for sound insulation or insulation.

In a development is an inventive component as part of a Housing and / or as a holding or fastening element of a heating and / or air conditioning device formable. In extreme cases, the whole case can be made a sound-open microporous Material exist. Through this open sound area can, as already in the execution an air duct explained, Sound leak, so not all the sound through openings in the direction of the air ducts and continues into the vehicle interior, but outside the air-conducting Area of the housing by means of insulating materials and walls insulated and / or absorbed.

Components according to the invention which consist completely or at least partially of microporous materials, in particular of sintered materials, can not be produced in any desired shapes. Usually, the cost-effective production of sintered materials is carried out in large numbers by forming semi-finished products in the form of flat materials or tubes. In order to represent complex geometries, as required, for example, for air ducts in a motor vehicle, a component according to the invention is treated by means of a method which is characterized in that said component is transformed by means of heating and subsequent application of mechanical forces. By means of this hot-forming process, for example, an air channel consisting entirely of sintered, microporous material can be brought into its final shape adapted to the installation space of a motor vehicle. A particularly advantageous method is the forming in the twinsheet method, are formed in the blanks from plate goods after external heating by eg radiators by means of positive or negative pressure in each one over- or lower tool, so that 2 half shells arise. In the edge area, the half shells are welded and by means of an integrated Pinchkante can be punched at the same time. Alternatively, more complex geometries can also be produced by producing molded parts in pressing tools, but this is associated with increased costs and significantly reduced clock rates.

In An advantageous embodiment of the method is in particular the cross section of a tubular Component changeable. Such cross-sectional changes can especially for largely cylindrical channels in the form of constrictions, flattening, Expansions and the like consist. Advantageously, can the channels also in the desired Shape bent or with curvatures be provided. By means of the method, channel ends are also called Connection elements, for example as sleeves produced.

The Connection of inventive components microporous Sintered materials can be made by means of such sockets manufactured. Furthermore you can these components to appropriate connection points, for example Reception grooves conventional Components, such as a housing or an air duct made of polypropylene or introduced. The components can work together as well welded become.

If the sound-open area only over partial areas of inventive components extends, so this can also be kept in a frame, the frame also being treated by or treated accordingly Material of the soundproof area can be formed. So can heated, for example, the edge region of a sound-open area and be pressed, whereby a stable frame is formed. Alternatively, you can the sound-open area also by a means of a clamp connection attached frame. The soundproof area can also cohesive be held in the context.

Prefers is between a component such as a housing part and the sound-open area and / or the frame thereof one cohesive Connection provided. Here come - depending on the materials used - welding process, such as ultrasonic welding, Pressure welding, Fusion welding, if necessary Brazing (hard or in particular soft soldering), Gluing, pouring in question. Furthermore you can finished components, which as described above by hot deformation were made of semi-finished, inserted in an injection mold and in the edge region by Um- or injection molding with the said housing part get connected.

alternative can be a form-fitting Provided connection, such as the provision of Springs, riveting, bending, folding, widening or spreading (e.g. Clip connection).

Also can be a force-fit Provided connection, such as the provision of Springs, wedges, screws or an interference fit.

in the The invention will be described below with reference to exemplary embodiments explained in detail on the drawing. In the drawing show:

1 a schematically, partially with a surrounding insulation shown housing an air conditioner with a sound-open area;

2 a schematically illustrated air duct according to the invention in a first embodiment;

3 a schematically illustrated air duct according to the invention with connection points in a second embodiment;

4 a schematically illustrated curved air duct according to the invention in a third embodiment;

5a , b schematically shows the forming of a tubular air duct according to the invention, and

6 schematically the production of a component by means of the twin-sheet method.

A housing 1 A heating or air conditioning device directs air in an air conditioning system, coming from a fan (not shown), to one or more air nozzles 2 and leads this to a vehicle interior 3 too, with the air inside the case 1 Is tempered, for example by means not shown heat exchanger and air flow control and mixing elements, if necessary.

The air conditioning is on the front in the direction of travel through the bulkhead 8th that with a splashboard insulation 9 is provided, separated from the engine compartment. For intake of fresh air is the bulkhead 8th pierced, leaving a fresh air channel 10 lead to the air conditioning. At the rear, the air conditioner is covered by an instrument panel cover 11 enclosed so that they are in a cavity between the bulkhead 8th and Instrument Blackboard Cover 11 located. At the top and bottom of the case 1 the air conditioner are insulating or absorber mats 12 inserted or on the bulkhead 8th attached.

The housing 1 has a wall 5 on. This wall 5 is in large areas of an absorber material 6 , For example, a Dämmmat te, an instrument panel cover 11 and the bulkhead insulation 9 surrounded, but at the inlet and outlet points, ie also at the air nozzles 2 , is inevitably interrupted. Furthermore, the wall has 5 a designed as a flat element sound-open area 7 on, which consists of a microporous material, so that, the housing 1 with the soundproof area 7 represents a first inventive component.

The sound, ie, in particular, that of the fan, is in the housing 1 initiated or created within this housing 1 , The housing 1 The air conditioner can not completely absorb or reflect the resulting sound, but rather it is largely unhindered up to the air nozzles 2 and further into the vehicle interior 3 directed. Through the sound-open area 7 For example, it is possible to extract at least part of this sound from this propagation path and instead to guide it into the installation space. By the absorber materials 6 at the top and bottom of the instrument panel cover 11 and through the instrument panel cover 11 itself, the exiting sound is largely prevented from entering the vehicle interior 3 penetrate. Much of this sound is dissipated. Thus, a part of the sound from the vehicle interior 3 kept away, reducing the noise level in the vehicle interior 3 is lowered. This applies to the entire frequency range, with a clear effect in particular in the frequency range between 400 and 5000 Hz can be determined.

According to the present embodiment, the sound-open area 7 formed by a thin, microporous, sintered plastic, such as polypropylene or polyethylene.

To the sound content of the over the air channels 13 in the vehicle interior 3 continues to reduce, is in the embodiment shown in FIG 1 also the air duct 13 designed as an inventive component, wherein substantially the entire air duct 13 consists of a microporous plastic produced by sintering. In the air duct 13 urgent residual sound passes over the microporous wall of the air duct 13 from the side and can from one, above this, located outside the housing of the air conditioning insulation mat 6 be absorbed, so that only a very small amount of sound enters the vehicle interior.

The microporous area 7 is with the wall of the housing 1 the air conditioning, which consists for example of conventional polypropylene, cohesively, for example, by welding, gluing, Um-, or injection or other mechanical joining such as rivets, bending, folding, clipping, pressing or screw connected.

Advantageously, by means of encapsulation with a wall of a housing 1 connected microporous area 7 pressed in a peripheral region of, for example, 5 mm to a lower material thickness and / or be punched simultaneously integrated by means of a Pinchkante. Then it will be a mirro-porous area 7 existing component inserted into an injection mold and connected by molding in the edge region with the wall of the housing.

The area 7 can also be designed with a frame. This also applies to the connection area of the air duct 13 to the housing 1 ,

The air permeability of the microporous region which can be described by the flow resistance 7 is preferably chosen so that for the entire housing 1 the heating or air conditioning device or for the entire heating or air conditioning device a flow resistance of 15,000 to 40,000 Ns / m ⁵ , in particular 20,000 to 30,000 Ns / m ⁵ results. As a result, one obtains for the specification of the microporous region 7 a specific flow resistance dependent on the absolute size or area of the area.

2 schematically shows a part of an air duct 13 a heating and / or air conditioning device of a motor vehicle. The section shown shows a first connection channel 14 , an inventive component 15 and a second connection channel 16 , The connection channels are made of conventional polypropylene, for example, and the component 15 made of a microporous, sound-open, sintered plastic material. Sound coming through the connection channel 14 is fed through the microporous material of the component 15 at least partially penetrate to the outside and there are absorbed by appropriately trained, not shown absorbers, so that in the continuing connection channel 16 , for example, in the vehicle interior 3 leads, a reduced amount of sound is initiated. The component according to the invention 15 is designed as a tube with blunt ends and with the corresponding ends of the connection channels 14 and 16 For example, glued, pressed or the like.

3 shows in a further embodiment of the invention an alternative connection possibility of the connection channels 14 . 16 with the component according to the invention 15 , The connection channel 14 is from a socket-like widened end piece of the component 15 taken, this in turn is receiving in a socket-like design of the connection channel 16 , The junctions of the Kanä le 14 . 15 and 16 In this case, for example, they can be connected in a friction-locking or positive-locking manner, for example by gluing or welding.

In a slightly modified form too 2 shows 4 one, at one end with a curvature 12 provided component 15 where the curvature 12 has been produced by hot forming according to the invention. For this purpose, an originally cylindrical, straight running tube, which is available as a raw material after sintering, is brought into the correspondingly curved shape by targeted heating with simultaneous application of mechanical deformation energy or force, for example by means of a bending device. Thus, components produced by the method according to the invention are 15 adaptable to a given space.

As a further example of the use of the method according to the invention is in the 5a and 5b the cross-sectional change of a component consisting of a microporous material 15 shown. The tubular component 15 with a circular cross-section is in a first step on the side areas 17 heated. In a second method step, a desired elliptical cross-sectional shape is achieved by applying a force F, for example by a punch. For the training of in 2 illustrated sleeve at one end of the component 15 , For example, the end portion of the component 15 heated at its entire circumference and widened by a correspondingly shaped punch under force application in the axial direction of the component.

In 6 is schematically a device 23 for producing or forming a component 15 outlined in the twin-sheet process. By way of example, two parts of a component to be produced 15 heated from sintered polypropylene or polyethylene at a predetermined distance in a double clamping frame. Subsequently or simultaneously, the parts become an upper tool and a lower tool 20 . 21 the corresponding device introduced. By applying overpressure and / or underpressure via a blowpipe 22 and / or the appropriate tools 20 . 21 The parts are in the upper and a lower tool 20 . 21 shaped. In the edge region of the parts, the material is welded and preferably punched simultaneously by means of an integrated Pinchkante. This way of making and connecting two microporous parts to one component 15 is particularly suitable for air ducts.

By the subsequent warming the microporous Sintered components, it comes naturally also to a minor one change the material properties in these areas, which vary slightly Dimensions on which can affect sound transparency. This must be in the election the positioning of such areas are taken into account. Due to the mostly local change, the sound-open effect of the components is essentially retained.

Claims (15)

Component, in particular for a heating and / or air conditioning device of a motor vehicle, characterized in that the component has at least in a region of its wall a sound-open area, which consists of a microporous material. Component according to claim 1, characterized that the microporous Material is a sintered material. Component according to claim 1 or 2, characterized that the microporous Material of plastic, in particular of sintered polyethylene and / or polypropylene is formed. Component according to claim 1, characterized that the microporous Material made of foamed Plastic is formed. Component according to one of the preceding claims, characterized characterized in that the sound-open area has a wall thickness between 0.5 mm and 10 mm, preferably between 0.5 mm and 3 mm. Component according to one of the preceding claims, characterized characterized in that the sound-open area is permeable to air or gas. Component according to one of the preceding claims, characterized characterized in that the sound-open area over the entire wall of the component extends. Component according to one of the preceding claims, characterized characterized in that the component is designed as an air guide element. Component according to one of the preceding claims, characterized in that the component is designed as a tubular air channel is. Component according to one of the preceding claims, characterized in that the component is part of a housing of a Heating and / or air conditioning device is formed. Component according to one of the preceding claims, characterized in that the component is part of a retaining element of a Heating and / or air conditioning device is formed. Process for producing a component according to claims 1 to 11, characterized in that the component by heating and followed by deformed by mechanical force and / or applying a pressure becomes. Method according to claim 12, characterized in that that the component after heating by over- and / or Negative pressure is formed in a tool. Method according to one of claims 12 or 13, characterized that the component is changed in its cross section at least partially. Method according to one of claims 12 to 14, characterized that the component is at least partially curved or bent.