FR3107800A1 - Heating structure for motor vehicle - Google Patents

Abstract

Heating structure for a motor vehicle The invention relates to a heating structure (1), in particular flexible or flexible, intended to be installed inside a passenger compartment of a vehicle, this heating structure being in particular a radiant panel, the heating structure ( 1) comprising: a resistive layer (30) arranged to generate a thermal release when this resistive layer (30) is traversed by an electric current, an array of electrodes having a first electrode (11) and a second electrode (12) of different polarities, said electrodes being arranged to be in electrical contact with the resistive layer (10), so as to cause an electric current to flow in this resistive layer (10), the heating structure (1) comprising a positioning marking (20, 21, 22) configured to position said heating structure (1) facing at least one additional layer (26) arranged to perform a function other than generating a release. thermally. Abstract figure: Figure 1

Description

Motor vehicle heating structure

The present invention relates to a heating structure intended to be installed inside the passenger compartment of a vehicle, for example an automobile, this heating structure being in particular a radiant panel.

Today, the management of the comfort and well-being of passengers in a vehicle follows developments in mobility (eco-sharing, carpooling, electrification, connectivity, etc.). In the age of autonomous driving and new sharing practices, user expectations have changed. The passenger compartment is no longer perceived as a waiting area but also as a space for relaxation and conviviality.

The heating structures actively contribute to the comfort of the users of the vehicle in the passenger compartment of which they are integrated. The surface of the structure heats the passengers by infrared radiation while heating the air located inside the passenger compartment by convection or by contact (for example in the case of an armrest). They have shapes and dimensions adapted to their location within the vehicle. They can for example be integrated into a seat, a dashboard, a roof, a pillar, an armrest, etc. A heating structure can therefore be perceived as an interface whose main function is to ensure thermal comfort within the passenger compartment of the vehicle.

A heating structure, in particular a radiant panel, is a device generally comprising an electric circuit configured to deliver heat by the Joule effect by supplying resistive conductive elements with electric current. These can be wireframe elements or surface coverings. According to the existing literature, the conductive coating can be, for example, a layer of paint comprising carbon particles and/or metallic particles.

Heating structures are used in different industrial sectors. It is for example known to integrate such structures in the seats of motor vehicles. Heating structures comprising a heating cable woven over a glass wool mesh and ready to use, i.e. ready to be mounted between an insulator and a final coating, can also be found on the market. This covering is for example a tiled floor, a laminate floor, or even a wall.

The integration of these heating structures within trim elements (fabric, plastic, wood or any other material relating to the desired use) poses certain difficulties. To equip an automobile seat with a heating structure, it is necessary for said structure to have a geometry specific to the automobile seat, so as to be able to be aligned as well as possible with the various parts which make up the automobile seat. This ensures that each of the parts that make up the seat are heated in the same way. This positioning step is all the more difficult to implement as the car seat has a complex geometry with small sub-parts and which may have curvatures in all three dimensions. In addition, the positioning step requires the use of an additional counter-form type part, which makes the assembly process complex and costly.

It is simpler to position heating structures under a floor, so as to create a heated floor, since this does not require precise alignment of said heating structures with respect to the floor. The heating structures are simply positioned relative to each other, according to a constant spacing (for example of 30 cm), under the floor. However, it is not always possible to proceed in this way when the heating structures must be integrated into elements of small sizes and of complex geometries (presenting for example curvatures along the axes in the three dimensions), in particular elements motor vehicle interior such as a glove box or an armrest. When the product to be integrated into the passenger compartment has several layers, it is often tedious to correctly position the heat-generating layer next to the other layers (the heat-generating layer is generally placed between an insulation layer and a decorative layer) . The difficulty of implementation also increases with the number of layers constituting the final part integrating the heating function. In addition, according to this method it is essential to use a counter-form, which adds an additional part, therefore cost and time of manufacture.

The present invention aims to remedy the aforementioned drawbacks by simplifying the step of assembling a heating structure, in particular by facilitating the step of positioning the heating part of said structure opposite additional layers not dedicated to heating. .

The present invention relates to a heating structure, in particular flexible or flexible, intended to be installed inside the passenger compartment of a vehicle, this heating structure being in particular a radiant panel, the heating structure comprising: a resistive layer arranged to generate a heat release when this resistive layer is traversed by an electric current, a network of electrodes having a first electrode and a second electrode of different polarities, the said electrodes being arranged to be in electrical contact with the resistive layer, so as to circulate an electric current in this resistive layer, the heating structure comprising a positioning marking configured to position said heating structure opposite at least one additional layer arranged to perform a function other than generating heat release.

The resistive layer can be a continuous layer, or alternatively comprise a plurality of discrete resistive elements forming this layer.

The resistive layer can comprise a resistive sheet, a resistive paint layer and/or a resistive ink. The resistive sheet is a sheet capable of releasing heat when an electric current passes through it.

The resistive paint can be a layer of acrylic paint comprising conductive or semi-conductive particles. The conductive filler is for example in the form of carbon particles and/or metal particles.

The electrodes can be made of conductive material, in particular metal such as ink filled with conductive particles, in particular particles of silver, copper and/or alloy such as nichrome.

The electrodes and/or the resistive layer can be made by screen printing, offset, inkjet printing, additive manufacturing, hot stamping and transfer or electroplating.

According to one of the aspects of the invention, the heating structure comprises a support configured to carry or integrate the network of electrodes and the resistive layer.

For example, the network of electrodes can be integrated on the surface of the heating structure or between the support and the resistive layer.

The resistive layer and the electrodes can be deposited on the support, in particular by screen printing.

The support may be made of flexible material, capable of taking on a predetermined shape by deformation, this support being in particular extensible. The material of the support can be chosen in a non-limiting way from: a non-woven textile, a fabric, or even an extensible textile or an extensible knit.

In particular, the elements of the heating structure, namely the support, the resistive layer and the electrodes, form a flexible and extensible assembly.

When the support is made of fabric, the stretchable nature can be obtained either by the arrangement of the woven structure, namely by the weaving technique, or by the intrinsic stretchable nature of the yarns used for the weaving.

The nonwoven fabric may comprise a blend of polypropylene fibers and/or polyester fibers. Other fibers can be used, for example natural fibers.

According to one of the aspects of the invention, the support can be made of thermoplastic material. The thermoplastic material is preferably chosen from the following list: a polycarbonate and/or a polyethylene terephthalate and/or a polymethyl methacrylate and/or a polybutylene terephthalate and/or a polyamide material and/or a polyolefin and/or a copolymer material and /or an elastomeric material.

The support may be electrically insulating.

The support preferably has a thickness comprised between 5 μm and 2 mm, preferably greater than 50 μm.

According to one of the aspects of the invention, the positioning marking is in contact with said support.

By "in contact", it is understood that the positioning marking and the support are integral with each other on at least one junction point. The contact is direct, i.e. there is no intermediate element placed between the support and the positioning marking and which would ensure said contact. The contact between the support and the positioning marking can be of the point or surface type.

The positioning marking and the support form a unitary whole in the sense that they cannot be separated from each other without causing the destruction of one or the other.

According to one of the aspects of the invention, the positioning marking is part of at least one of the electrodes. Said positioning marking of the thus ensures the transport of the electric current and is formed with the same material as this electrode.

According to another aspect of the invention, the positioning marking is separate from the electrodes.

The positioning marking does not carry electric current. It can be formed with the same material as this electrode. As a variant, it can be formed with a different material from this electrode.

Advantageously, the positioning marking is part of the resistive layer. It then generates a heat release when it is traversed by an electric current. It is then formed with the same material as the resistive layer, a material less expensive than the silver or copper used to manufacture the electrodes. Among other advantages, the positioning markings are produced at the same time as the resistive layer, which saves time during the manufacturing process of the heating structure.

According to another aspect of the invention, the positioning marking is separate from the resistive layer. By "separate", it should be understood that the positioning marking is not traversed by the electric current coming from the electrodes. Advantageously, it is formed with the same material as this resistive layer. As a variant, it can be formed with a material different from this resistive layer.

According to yet another aspect of the invention, the positioning marking is made of a material chosen for its optical and/or magnetic properties.

The different colors making up the material can be detected by an RGB type camera. The positioning marking can be made of a fluorescent, phosphorescent or reflective material. Advantageously, the material can be chosen for its magnetic properties making it possible to facilitate the positioning of the heating structure opposite at least one additional layer having a positioning marking complementary to the positioning marking of said heating structure, this marking also having magnetic properties.

According to one aspect of the invention, the positioning marking further comprises a label, in particular in the form of a bar code, capable of communicating at least one piece of information relating to said heating structure. Said information relating to said heating structure may be: the reason for use, information on the manufacturer, the date of manufacture, the identification number, the heating power of this structure, a cabin element for which said structure.

According to one aspect of the invention, the positioning marking can be carried out by screen printing, offset, inkjet printing, by additive manufacturing, by hot stamping and transfer or by electrodeposition.

According to one aspect of the invention, the positioning marking is of rectilinear shape and/or of curved shape over at least part of its length, in particular over its entire length.

According to one aspect of the invention, the positioning marking is arranged on the support continuously over at least part of the length of said marking.

According to an advantageous variant, the positioning marking is arranged on the support discontinuously over at least part of the length of said marking. The discontinuous arrangement advantageously saves material, and therefore reduces costs.

According to one aspect of the invention, the positioning marking is arranged on the support and positioned close to an edge of this support.

According to one aspect of the invention, the heating structure comprises one or more positioning markings, each of which can be chosen from the following list: a cutting aid marking, a gluing aid marking and/or a positioning pattern . The positioning target can be in the form of a target or a square. It can for example be positioned at each corner of the face of the support which carries the first and second electrodes as well as the resistive layer.

According to one aspect of the invention, the positioning marking(s) chosen from a cutting aid marking and/or a gluing aid marking, match the shape of said at least one additional layer arranged to perform a function other than generating a heat release.

According to one aspect of the invention, the cutting aid marking or markings substantially match the shape of an opening of said at least one additional layer, this opening being configured to create a gripping zone within said additional layer .

The invention also relates to a heating assembly intended to be installed in a vehicle passenger compartment comprising a heating structure according to any one of the characteristics as previously described, and at least one additional layer arranged to perform a function other than generating a heat release. .

According to one aspect of the invention, said heating structure and said at least one additional layer are arranged in contact with each other.

According to one aspect of the invention, said at least one additional layer is chosen from: a thermal insulation layer and/or a protective layer for the heating structure. The thermal insulation layer can, for example, be a layer of material having thermal insulation properties (strip of felt or felt, polyurethane foam, polyethylene foam for example) and making it possible to avoid the dissipation of heat towards areas that do not allow the passenger compartment to be heated.

According to one aspect of the invention, the heating structure is interposed between the thermal insulation layer and the protective layer.

According to one aspect of the invention, the protective layer faces the passenger compartment of the vehicle and the thermal insulation layer faces the exterior of the vehicle. In this arrangement, a majority of the heat generated by the resistive layer of the radiant panel is dissipated towards the passenger compartment of the vehicle, the thermal insulation layer limiting the quantity of heat dissipated towards the exterior of the passenger compartment.

According to one aspect of the invention, the protective layer has a function of covering or decorating the heating structure. The purpose of such a function is to give an aesthetic appearance to the heating structure and thus allow it to be integrated into the passenger compartment of the vehicle, in particular on a door panel or on a roof. The protective layer can be made of fabric, leather, wood, paint or any other material allowing the aesthetic insertion of the heating structure in the passenger compartment. The layer is thus arranged to confer a fabric appearance, a leather appearance, a wooded appearance or any other aspect deemed necessary to aesthetically integrate the heating structure into the passenger compartment.

According to one aspect of the invention, the thermal insulation layer has a mechanical holding function with respect to the heating structure. In this arrangement, this layer is arranged to allow the deposition and maintenance of the heating structure on the thermal insulation layer. The thermal insulation layer comprises for example a material having electrical insulation properties, high adhesion and/or low roughness. Such a material is chosen in particular from polyimide such as Kapton®, or polyethylene terephthalate such as Mylar®.

The invention also relates to a vehicle interior component, in particular a component configured to be integrated into a door, an underbody or a roof of the vehicle, or the interior component being able to be chosen from a part of a dashboard such as a glove box, a seat, a seat element such as a headrest or a seat back, a footwell and/or an armrest, said vehicle interior component comprising a heating assembly according to any of the features previously described.

According to one of the aspects of the invention, the passenger compartment component which comprises the heating assembly is arranged to heat by thermal radiation (radiant panel) or by thermal conduction or thermal contact (contact heating structure), and not by heating by convection, for example by heat transported by moving air. In particular, the heating structure is not traversed by any flow of air intended to cool or heat the passenger compartment. Preferably, the panel is disconnected from the air movement system.

The heating structure and the heating, ventilation and/or air conditioning system of the vehicle (or HVAC, English acronym for Heating , Ventilation and Air- Conditioning ) can, if desired, be controlled in a coordinated manner.

Other characteristics, details and advantages of the invention will become apparent on reading the description given below for information purposes in relation to drawings in which:

Figure 1 is a schematic representation of an embodiment of a heating structure according to the invention,

Figure 2 is a schematic representation of an embodiment of a heating structure according to the invention,

Figure 3 is a sectional view of a heating assembly according to the invention,

Figure 4 is a schematic representation of a vehicle interior in which several heating assemblies according to the invention are positioned,

Figure 5 is a schematic representation of a vehicle interior component, in particular here a door in which several heating assemblies according to the invention are positioned,

The features, variants and different embodiments of the invention may be associated with each other, in various combinations, insofar as they are not incompatible or exclusive of each other. One can in particular imagine variants of the invention comprising only a selection of characteristics described below in isolation from the other characteristics described, if this selection of characteristics is sufficient to confer a technical advantage or to differentiate the invention from to the state of the prior art.

In particular, all the variants and all the embodiments described can be combined with each other if nothing prevents this combination from a technical point of view.

It should be noted that the figures expose the invention in detail to implement the invention. Said figures can of course be used to better define the invention, if necessary.

In the figures, the elements common to several figures retain the same reference.

In the present invention, it is possible to index certain elements such as for example first element or second element, etc. Unless otherwise stated, it is a simple indexing to differentiate and name elements that are close but not identical. This indexing does not prejudge the priority of one element over another and it is possible to interchange such denominations without departing from the scope of this description.

Figures 1 and 2 represent a radiant panel 1, forming a heating structure 1 within the meaning of the invention, intended to be installed inside a passenger compartment of a vehicle.

The radiant panel 1 comprises a resistive layer 30 arranged to generate heat release when this resistive layer 30 is traversed by an electric current.

This resistive layer 30 may for example comprise a layer of resistive paint and/or resistive ink. The resistive paint can be a layer of acrylic paint comprising conductive or semi-conductive particles. The conductive filler is for example in the form of carbon particles and/or metallic particles.

This radiant panel 1 further comprises a network of electrodes having a first electrode 11 and a second electrode 12 of different polarities. These electrodes are arranged to be in electrical contact with the resistive layer 30, so as to cause an electric current to flow in this resistive layer 30.

In these embodiments, each of the electrodes (11, 12) comprises a plurality of contact electrodes 6 arranged to be in electrical contact with the resistive layer 30 so as to cause an electric current to flow through this resistive layer 30. These electrodes contact 6 are straight and parallel to each other in the examples shown. They may optionally have any shape desired by the user.

The network of electrodes also comprises distribution electrodes 35 arranged to conduct electric current, one of these electrodes 35 being connected to an electric source, for example of positive electric polarity (not shown in FIGS. 1 and 2), towards the contact electrodes 6. The other distribution electrode 35 is connected to the other polarity, being for example connected to ground.

The electric current thus passes through a distribution electrode 35, which distributes it to the contact electrodes 6. The current then flows through the resistive layer 30 before being collected by the contact electrodes 6 connected to the other distribution electrode 35.

Several contact electrodes 6 are connected to the same distribution electrode 35.

The electrodes 11, 12 can be made of a conductive material, in particular metallic such as ink filled with conductive particles, in particular particles of silver, copper and/or an alloy such as nichrome.

In the example illustrated in Figures 1 and 2, the radiant panel 1 comprises a support 36 configured to carry or integrate the network of electrodes 11, 12 and the resistive layer 30.

The resistive layer 30 and the electrode network 11, 12 can be deposited on the support 36, in particular by screen printing. Other techniques can of course be considered.

In the examples illustrated, the support 36 has a substantially parallelepipedic shape. The shape of the support is not limiting of the present invention. It does not necessarily represent the final shape given to the finished product ready to be integrated into a vehicle interior component. Indeed, it is generally necessary to adapt the shape of the finished product carrying out the heating function to the shape of the passenger compartment component into which it is to be integrated.

Each of the radiant panels 1 illustrated in Figures 1 and 2 comprises several positioning markings 20, 21, 22, each being configured to position the radiant panel 1 facing at least one additional layer 26 arranged to perform a function other than generating thermal release. The positioning markings 20, 21, 22 are in contact with the support 36. Advantageously, each positioning marking 20, 21, 22 is separate from the resistive layer 30 and formed with the same material as this layer. It is then possible to envisage that each positioning marking 20, 21, 22 be produced at the same time as the resistive layer, which represents a saving of time during the assembly process of the radiant panel 1. Finally, the material used to produce the resistive layer as previously described is inexpensive. It is notably less expensive than the material used to make the electrodes.

The additional layers 26 are visible in Figure 3 which illustrates a sectional view of a heating assembly 2 intended to be installed in a vehicle interior comprising a radiant panel 1 as previously described. These layers, as opposed to the resistive layer, are arranged to perform a function other than generating heat release. They can be chosen for example from: a thermal insulation layer and/or a protective layer for the heating structure.

The heating assembly 2 comprises a plurality of layers stacked in a direction perpendicular to the plane formed by these layers. The heating assembly 2 comprises in particular a thermal insulation layer 23, a radiant panel 1 according to the invention (for example as illustrated in FIGS. 1 and 2), and a protective layer 40 of the radiant panel.

In this example, the layers are arranged in contact with each other, the radiant panel 1 being interposed between the thermal insulation layer 23 and the protective layer 40.

It is possible to arrange the thermal insulation layer 23 against a cabin element 10, such as for example an armrest or a dashboard element such as a glove box.

The thermal insulation layer 23 can, for example, be a layer of material having thermal insulation properties (strip of felt or felt, polyurethane foam, polyethylene foam for example) to make it possible to avoid the dissipation of heat towards areas that do not allow the passenger compartment to be heated.

The protective layer 40 faces the passenger compartment of the vehicle and the thermal insulation layer 23 faces the exterior of the vehicle. In this arrangement, a majority of the heat generated by the resistive layer of the radiant panel 1 is dissipated towards the passenger compartment of the vehicle, the thermal insulation layer 23 limiting the quantity of heat dissipated towards the exterior of the passenger compartment.

Provision may be made for the protective layer 40 to have the function of covering or decorating the radiant panel 1. The purpose of such a function is to confer an aesthetic appearance on the radiant panel and thus allow it to be integrated into the vehicle interior, in particular on a door panel or on a roof. The protective layer can be made of fabric, leather, wood, paint or any other material allowing the aesthetic insertion of the radiant panel in the passenger compartment. The protective layer is thus arranged to confer a fabric appearance, a leather appearance, a wooded appearance or any other aspect deemed necessary to aesthetically integrate the radiant panel into the passenger compartment.

It can also be provided that the thermal insulation layer 23 has a mechanical holding function with respect to the radiant panel. It then comprises a material having electrical insulation properties, high adhesion and/or low roughness. Such a material is chosen in particular from polyimide such as Kapton®, or polyethylene terephthalate such as Mylar®.

The radiant panels 1 shown in Figures 1 and 2 have several positioning markings with different functions: gluing aid markings 21 and cutting aid markings 20.

Positioning markings can be curved, as in Figure 1, or straight, as in Figure 2.

Figure 1 illustrates a radiant panel 1 participating in the formation of a heating assembly 2 intended to be integrated into an armrest 9 of the door 8 of a motor vehicle. The heating assembly 2 must have a shape specific to the armrest, the shape of the positioning marking is therefore chosen with regard to the shape of this armrest. To facilitate the positioning of the radiant panel 1 vis-à-vis the additional layers (thermal insulation layer 23 and protective layer 40 arranged on either side of the radiant panel 1) during the assembly process of these layers, it is proposed to add positioning markings directly on the surface of the radiant panel 1. These positioning markings facilitate the assembly of the layers without it being necessary to use an additional part of the counterform type. Indeed, the gluing aid 21 and cutting aid 20 markings positioned on the support 36 of the radiant panel 1 match the shape of said additional layers. Advantageously, they are made at the same time as the resistive layer 30 during the manufacturing step of the radiant panel 1.

The radiant panel 1 illustrated in FIG. 2 participates in the formation of a heating assembly 2 intended to be integrated into a component 10 of the cabin. This component may for example be a part of the dashboard 12 such as a glove box. The cutting aid marking 20 substantially matches the shape of an opening of an additional layer that one wishes to place in contact with the radiant panel 1, this additional layer possibly being a protective layer having a decorative function. The opening is configured to create a grip zone within this additional layer. The cutting aid marking 20 advantageously facilitates the cutting in the material of the radiant panel 1 and of the protective layer 40 during the assembly process resulting in the heating assembly 2.

The radiant panel 1 described in Figure 1 further comprises a label 50, here in the form of a bar code, capable of communicating at least one piece of information relating to the radiant panel 1. It further comprises four positioning patterns 22 positioned at the four corners of the support 36.

Advantageously, the positioning markings 20, 21 of the radiant panel 1 of FIG. 1 are arranged on the support 36 discontinuously over their entire length, which makes it possible to save material, and therefore costs.

FIG. 4 represents a vehicle interior equipped with several heating assemblies 2 according to the invention.

The illustrated passenger compartment comprises several components 10 configured to be integrated into a door 8, a base 7 or a roof 6 of the vehicle. The passenger compartment component 10 can be chosen from a dashboard part 12 such as a glove box, a seat 16, a seat element such as a headrest 19 or a seat back 18, a cellar with legs 14 and/or an armrest 9.

As visible in Figure 4, some components 10 of the passenger compartment include a heating assembly 2 as previously described. A single passenger compartment component 10 may comprise a plurality of heating assemblies 2, arranged adjacent or distant, and/or comprising different or identical orientations

FIG. 5 represents a vehicle door 8, comprising a heating assembly 2 according to the invention. The vehicle door 8 comprises an interior panel 80, surmounted by a window 84. These elements are surrounded by a door cheek 82 intended to support them.

A heating assembly 2 arranged in the door 8 can in particular be positioned on the interior panel 80 of the door 8, so as to radiate in the direction of the occupants of the passenger compartment.

Claims (10)

Heating structure (1), in particular flexible or flexible, intended to be installed inside the passenger compartment of a vehicle, this heating structure being in particular a radiant panel, the heating structure (1) comprising:

1. a resistive layer (30) arranged to generate a heat release when this resistive layer (30) is traversed by an electric current,
2. a network of electrodes having a first electrode (11) and a second electrode (12) of different polarities, said electrodes being arranged to be in electrical contact with the resistive layer (30), so as to cause an electric current to flow in this resistive layer (30),

characterized in that the heating structure (1) comprises a positioning marking (20, 21, 22) configured to position said heating structure (1) facing at least one additional layer (26) arranged to perform a function other than generate heat release. Heating structure (1) according to claim 1, characterized in that said heating structure (1) comprises a support (36) configured to carry or integrate the network of electrodes (11, 12) and the resistive layer (30). Heating structure (1) according to Claim 2, characterized in that the said positioning marking (20, 21, 22) is in contact with the said support (36). Heating structure (1) according to any one of the preceding claims, characterized in that the said positioning marking (20, 21, 22) is distinct from the resistive layer (30) and formed with the same material as the said resistive layer (30 ). Heating structure (1) according to any one of the preceding claims, characterized in that the said positioning marking (20, 21, 22) is rectilinear in shape and/or curved in shape over at least part of its length, in particular over its entire length. Heating structure (1) according to any one of Claims 2 to 5, characterized in that the said positioning marking (20, 21, 22) is arranged on the said support (36) continuously and/or discontinuously over at least one part of the length of said marking (20, 21, 22). Heating structure (1) according to any one of the preceding claims, characterized in that the said heating structure (1) comprises one or more positioning markings (20, 21, 22) each of which can be chosen from the following list: a marking of cutting aid (20), a gluing aid marking (21) and/or a positioning target (22). Heating assembly (2) intended to be installed in a vehicle passenger compartment, characterized in that it comprises a heating structure (1) according to any one of the preceding claims and at least one additional layer (26) arranged to perform a function other than generating a release thermal. Heating assembly (2) according to Claim 8, characterized in that the said at least one additional layer (26) is chosen from: a thermal insulation layer (23) and/or a protective layer (40) of the heating structure (1). Component (10) of the vehicle interior, in particular a component configured to be integrated into a door (8), a base (7) or a roof (6) of the vehicle, characterized in that the said component (10) of The vehicle interior comprises a heating assembly (2) according to any one of claims 8 to 9 .