Classifications

• • D—TEXTILES; PAPER
  • D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
  • D04B—KNITTING
  • D04B21/00—Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
  • D04B21/02—Pile fabrics or articles having similar surface features
  • D04B21/04—Pile fabrics or articles having similar surface features characterised by thread material
• • D—TEXTILES; PAPER
  • D03—WEAVING
  • D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
  • D03D27/00—Woven pile fabrics
  • D03D27/02—Woven pile fabrics wherein the pile is formed by warp or weft
  • D03D27/10—Fabrics woven face-to-face, e.g. double velvet
• • D—TEXTILES; PAPER
  • D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
  • D04B—KNITTING
  • D04B1/00—Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
  • D04B1/02—Pile fabrics or articles having similar surface features
  • D04B1/04—Pile fabrics or articles having similar surface features characterised by thread material
• • D—TEXTILES; PAPER
  • D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B2401/00—Physical properties
  • D10B2401/16—Physical properties antistatic; conductive
• • D—TEXTILES; PAPER
  • D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B2403/00—Details of fabric structure established in the fabric forming process
  • D10B2403/02—Cross-sectional features
  • D10B2403/024—Fabric incorporating additional compounds
  • D10B2403/0243—Fabric incorporating additional compounds enhancing functional properties
  • D10B2403/02431—Fabric incorporating additional compounds enhancing functional properties with electronic components, e.g. sensors or switches
• • D—TEXTILES; PAPER
  • D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
  • D10B2503/00—Domestic or personal
  • D10B2503/04—Floor or wall coverings; Carpets
  • D10B2503/041—Carpet backings

Definitions

• the invention relates to a textile material, such as suede material, which has at least one textile base material and from this wegsammlung pile threads, wherein the suede material is preferably made of a Pol vomgesente, the Pol vomgesente two spaced apart and mutually parallel base layers and has a connecting the two base layers pile structure, which is formed by pile threads, and the pile threads are formed by separating the pile threads apart.
• the velor material may also be made in other ways, for example of epoxy material, comprising a textile base material and pile loops extending therefrom. Further, it is possible to produce the suede material also in a process in which first the base layer is coated with adhesive and then the pile threads or pile loops are applied in an electrostatic process.
• the invention further relates to a textile material having at least two textile base layers which are connected to each other via pile threads, and which is preferably designed as Pol perennialgesente.
• Object of the present invention is to provide a textile material that is optimally matched to the use of electrically acted threads.
• This solution is a textile material which has at least one textile base layer and pile threads or pile loops protruding therefrom. It is essential that the at least one textile base layer has electrically actable threads. In this case, according to alternative a), it may be provided that the at least one textile base layer has no or fewer pile threads or pile loops in a region in which the electrically actable threads are arranged than in a region in which threads which are not or less electrically actable are arranged are. This means that the region in which the electrically actable filaments are arranged is covered less or not at all by pile threads or pile loops.
• the at least one textile base layer in a region in which the electrically actable filaments are arranged, at or near their surface on the side from which the pile threads or pile loops are located has an area or volume fraction of electrically actable filaments which is greater than the surface or Volume fraction of electrically actable filaments on the side facing away from the pile filaments or pile loops side of the textile base layer.
• the electrically acted filaments can be arranged relatively closer to the surface of the textile base layer and thus act more effectively to the outside.
• the surface area or volume fraction of electrically actable filaments is greater in that a larger portion of the electrically actable filaments is arranged to rest on the surface of the textile base layer.
• the surface or volume fraction of electrically acted filaments on the surface of the textile base layer is lowered or increased by increasing the number of Umschiingungsfur in this area, depending on whether between the points of contact of the electrically acted thread within the textile Base layer or resting on top of the textile base layer and depending on whether in the region of Umschiingungsus the electrically acted thread extends through the surface of the textile base layer or immersed in the textile base layer runs.
• the textile material is suede material, preferably a suede material with at least one textile base layer, from which pile threads or pile loops protrude on one side.
• the textile material is formed as Pol vomgetrucke, i. a material of two or more textile base layers, which are connected to each other via pile threads. It is envisaged that in these embodiments, too, pile threads or pile loops are arranged so as to stand on one side. This means that in the different embodiments of the textile materials only a textile base layer or a second or more textile base layers are provided, wherein adjacent textile base layers are each connected via pile threads.
• the base layer arranged in the top of the insert can be designed so that it not only fulfills a technical function, but also has a decorative effect.
• the electrically acted threads are at least partially electrically acted upon. They can consist of electrically conductive material. It can be provided that the electrically actable filaments form heating conductors. It can also be provided that the electrically acted filaments are formed as electrically actable self-luminous threads, z. B. as electroluminescent threads. Alternatively or additionally, it may be provided that the electrically actable threads Signal transmission conductor and / or energy transmission conductor for arranged on the textile base material and / or introduced into the textile base material electrical and / or electronic components. In this case, provision may be made for the first electrically actable filaments to form energy transfer leads for second filaments that can be acted upon electrically. It can be provided that the second electrically acted threads are formed as self-luminous threads.
• the at least one textile base layer in a region in which the electrically actable threads are arranged, at or near their surface on the side from which the pile threads or pile loops are away has a surface or volume fraction of electrically acted threads, which is greater than the area or volume fraction of the electrically acted filaments on the side remote from the pile threads or pile loops side of the textile base layer.
• the pile threads or Pile loops can be formed over the entire surface area of the textile base layer regardless of whether in certain areas of the textile base layer electrically acted filaments are arranged to be constantly dense.
• the regional absence of the pile threads or pile loops in alternative a) can be achieved in that the pile threads run in the relevant area parallel to the base fabric without or with fewer loops.
• the pile threads or pile loops may be partially removed.
• At least one textile thread of the base layer is replaced by an electrically acted thread, ie instead of the conventional base layer, which consists exclusively of textile threads, an electrically actable thread, which is arranged the same as the herkömmiiche textile thread used , Trained as a suede material textile material according to the invention is distinguished from known solutions in which electrically actable threads are applied to tissue, characterized in that the electrical actable filaments can be incorporated into the base layer of the textile material and therefore at least additionally protected against damage.
• the textile material according to the invention is therefore particularly durable. Because there are no or fewer pile threads or pile loops in the areas in which electrically actable threads interact with the environment, the electrically actable threads can optimally interact with their surroundings.
• the textile material according to the invention may, as stated, be a suede material.
• the suede material can be produced from a pile fabric, the pile fabric having two spaced-apart and mutually parallel base layers having a pole structure connecting the two base layers, wherein the pile structure is formed by pile threads.
• the textile material according to the invention may also be an epoxy material which is produced from a pile fabric in which pile loops protrude from a base layer. The pile loops can be cut open in special versions during the manufacturing process or even later, for example by shearing.
• the Veioursmateriai can also be prepared by coating the base layer with pile threads by the base layer is provided on one side with an adhesive.
• the base layer provided with the adhesive is then provided, in an electrostatic field oriented at least approximately perpendicular to the base layer, with the pile threads, which are aligned at least approximately vertically by the electrostatic field to the plane of the base layer and fixed by the adhesive to the base layer. This is followed by drying of the suede material produced in this way.
• the adhesive is preferably applied to the base coat, for example sprayed on.
• the velor material is sheared smooth after the drying. After this smooth shearing, at least one refining process step can be carried out. This finishing process step may, for example, be a printing of the velor material.
• the textile base layer is formed as a woven fabric, knitted or knitted fabric, wherein a number of textile woven, knitted or knitted threads is replaced by the electrically acted threads and / or a number of electrically actable threads is provided, the extend in the plane of extension of the woven, knitted or knitted threads and / or in the plane of extension of the fabric, the knitted fabric or the knitted fabric.
• Tissue is the generic term for manually or mechanically produced textile fabrics consisting of at least two thread systems crossed at right angles or at right angles. Knitted fabrics are among the knits and are made of thread systems by knitting on a knitting machine fabric produced. Knitted fabrics are textile fabrics which can be produced by the process of forming stitches known as knitting using a thread and two or more needles.
• the base layer is formed as a tissue.
• the electrically actable threads are parallel to the weft threads or parallel to the warp threads.
• the electrically actable filaments run alternately to successive warp threads or weft threads, that is to say run over and under cross-over at successive warp threads or weft threads.
• the electrically acted threads run thus wrapping the textile threads running transversely in the fabric alternately.
• This alternating looping arrangement can regularly run with a somewhat constant period. It can be provided that all successive transverse threads are looped one after the other individually alternately. However, it can also be provided that every second or nth transverse thread is looped alternately. It can be provided that at least some of the electrically actable filaments alternate less than parallel filaments in the base layer.
• the wrapping sequence is more frequent in certain sections than in other areas or that in certain areas, the electrically acted filaments over longer sections near the surface of the textile Base layer or lying on this run.
• the base layer consists exclusively of electrically acted threads.
• the electrically actable threads are electrically contactable with cutting connectors. It is therefore possible in this case to contact the electrically actable filaments, for example self-illuminating filaments, without special knowledge and skills, wherein the contacting may preferably be provided at the edges of the textile material.
• the web-shaped continuous textile material can be cut to length according to the purpose and then be contacted electrically. Preferably, it can be provided to contact the electrically acted filaments with electrical leads, which produce an electrical connection between the electrically acted filaments and a power supply device.
• the Power supply device can be mains or battery powered.
• the power supply device can additionally have a control unit in order to connect or disconnect program-controlled and / or randomly actuatable filaments, such as self-luminous filaments, for example, to form the optical effects described above.
• the base layer has, in the case of suede material, at least one of the two base layers, electrically actable threads.
• electrically acted threads may be electrical conductors for connection to be attached to the textile base material and / or in the textile base material integrated electrical and / or electronic components, as described below.
• the electrically acted filaments may be formed as conventional electrical conductors. They can, but do not have to be self-luminous or designed as a heat conductor.
• both base layers have electrically actable threads, which are furthermore preferably arranged identically in both base layers.
• the electrically acted filaments can be formed in fabric layers as base layers as weft threads and / or as warp threads.
• the weft can the x-coordinate embody, the warp the y-coordinate.
• the electrically actable filaments form signal transmission conductors and / or energy transmission conductors for electrical and / or electronic components to be attached to the textile base material and / or integrated into the textile base material.
• the electrically actable filaments form energy transmission conductors for heating conductors or for self-illuminating filaments, in particular for the electroluminescent filaments. It is therefore possible that the electroluminescent threads or heating conductors are already factory-contacted with electrical leads, so that a particularly easy to be made up textile material can be provided.
• the self-luminous filaments are a technical structure which is in the form of a flexible filament which preferably has a circular cross-section and whose Diameter is preferably adapted to the diameter of the base layer formed from textile threads or at least chosen so that it is processable together with the textile threads.
• the self-luminous thread radiates light when exposed to electrical energy. Light is the area of electromagnetic radiation visible to humans. This range extends from about 380 to 780 nm wavelength. It is possible that the radiation spectrum of the electromagnetic radiation generated by the self-luminous thread is greater than the range of the light.
• the self-luminous thread has one or more technical structures that emit light by exposure to electrical energy, and electrical leads that can be connected to a power supply device.
• the self-luminous thread further comprises a transparent, electrically non-conductive protective cover, which encloses the electrical leads and the light-generating technical structures.
• the light-generating technical structures may be thread-like structures, as provided for example in the electroluminescent filaments described below, or microstructures arranged along the thread axis, such as light-emitting diodes.
• the term "thread” is associated with a material having a substantially round cross section, but it is also possible that the self-illuminating thread is formed as a material with a non-circular and / or substantially edged, for example flat, rectangular cross-section, ie as a band-shaped material. If the self-luminous threads are embedded in the textile material, interesting optical effects can be formed, which can also fulfill signaling and lighting functions in addition to decorative purposes.
• the base layer has luminescent, self-luminous threads when it is exposed to electricity.
• the self-luminous threads may have a colored protective layer, so that the threads may have different colors even in the non-luminous state, ie when not exposed to electrical energy.
• clearly perceptible color differences between the non-luminous and the luminous state of the self-luminous filaments can also be provided.
• the self-luminous threads have a region of dense arrangement which forms a luminous surface.
• the luminous surface can be formed of self-luminous threads with a uniform luminous color, but it is also possible that the self-luminous threads shine with different colors.
• mixed colors can be formed which, given a suitable choice of color and at least three different colors, can also form the mixed color "white.” In this way, color changes are also possible, for example color changes with a fixed or random color sequence.
• the luminous area forms a lamp which, as described above, can also have the light color "white.”
• lamp is here understood a light source whose luminous flux is sufficiently large to illuminate a non-luminous object. For example, a book page or the like.
• the self-luminous threads form an alphanumeric character and / or an image.
• the alphanumeric characters and / or images can be represented with the higher the resolution, the smaller the diameter of the self-luminous threads. Threads having a diameter smaller than 1 mm are preferred.
• one or more alphanumeric characters form a display, indication or warning information.
• the image is a display, information or warning pictogram. It is also possible for two or more alphanumeric characters and / or images to be superimposed, with the characters and / or images being able to be displayed simultaneously or successively by common or separate electrical actuation. It is possible, for example, successively represent the alphanumeric strings "GO" and "STOP", or a pictogram, such as the well-known from vehicles for passenger transport buckle pictogram selectively crossed out and not crossed out.
• the overlay includes that the two or more alphanumeric characters and / or images are nested, for example, formed as nested line grids.
• the self-luminous threads are formed from electroluminescent threads.
• Electroluminescent filaments have an electroluminescent dye which is excited to glow by an electric field, which is a "cold" light, ie, a luminous effect that does not generate dissipation heat.
• the self-luminous filament has two electrically conductive layers
• the electrical voltage source must provide an AC voltage in the low frequency and / or audible frequency range
• a typical self-luminous thread may have a rotationally symmetric configuration with an electrically conductive central inner conductor and a Cylindrical transparent outer conductor, between which electroluminescent material is arranged, which may be surrounded by an outer protective layer.
• the outer conductor may be surrounded by a transparent colored protective layer Lich, on the to dispense central inner conductor and provide two electrically insulated from each other outer conductor.
• embodiments are provided in which trained as a heating conductor electrically acted filaments have a region of dense arrangement, which forms a heating surface.
• the electrically acted filaments are designed as filaments of varying intensity heating. It can be formed in this way different levels of heating areas.
• Embodiments of textile materials are provided which have electrically actable filaments, namely those which are designed as self-luminous filaments and additionally also those which are designed as heating conductors.
• electrically acted filaments may also be provided which merely or additionally are used as signal transmission conductors and / or energy transmission conductors for e.g. are formed in the textile base material introduced electrical or electronic components.
• wall and / or ceiling covering and / or floor covering for the interior of a vehicle made of the textile material according to the invention preferably of suede material.
• a vehicle made of the textile material according to the invention preferably of suede material.
• cladding of the textile material in which self-luminous threads for decorative effects, conduction and signaling functions and other electrically acted threads as energy transmission conductors and / or signal transmission conductors, in particular as supply and discharge lines for electrical and / or electronic Components, such as reading lights, fans, speakers, microphones and signal switches, can be provided.
• the claddings described are advantageous in assembly and in use.
• Ceiling panels can be designed, for example, as an effective starry sky, wherein the "star” can be formed from the said self-luminous threads or in combination with light-emitting diodes which are contacted by woven electrically acted threads, and wherein a day and night operation is adjustable by switching off or on It may further be provided to provide a floor covering with escape route markings formed from the self-illuminating threads.
• a further advantageous application may be covering and / or covering for furniture and / or furnishings and / or vehicle seats and / or articles of daily use, which are formed from the textile material according to the invention.
• Furnishings such as counters, so counters or counters, can both aesthetic and functional aspects with the textile material of the invention partially or completely disguised.
• Another broad field of application follows from the material properties of the textile material, to adapt well to shapes, to give a pleasant seat cover and also to protect edges and surfaces of furniture and the like and upholster. It is thus possible, for example, to protect children, in particular infants, from injuries by the padded edges.
• filaments can also be woven into the textile material, so that the textile material according to the invention can also be used as a low-temperature surface heating, which can be laid not only on walls and / or ceilings and / or on floors, but also island-shaped To form heat zones is able to provide, for example, desks or counters with a comfortable microclimate.
• Fig. 1 is a Pol vomgesente for producing a first
• FIG. 2 shows a textile material produced from the pile fabric in FIG. 1 in a diagrammatically greatly enlarged perspective view
• Fig. 3 is a first example of application of the textile material in Fig. 2;
• Fig. 4 shows a second example of application of the textile material in Fig. 2; 5 shows a third application example of the textile material in FIG. 2
• FIG. 6a shows a textile base layer as a starting material for producing a second exemplary embodiment of the textile material according to the invention in a schematic sectional view in a first production step
• Fig. 6d shows a textile material produced from the textile base layer in Figs. 6a to 6c;
• FIG. 6f shows the textile material in FIG. 6e in plan view
• Fig. 7 shows a third embodiment of the textile according to the invention
• Fig. 8 shows a fourth embodiment of the textile according to the invention
• Fig. 9 shows a fifth embodiment of the textile according to the invention
• Fig. 1 shows a Pol vomgesente 1, which forms a precursor for the production of textile material formed as a suede material.
• the Pol vomgesente 1 has two spaced-apart and mutually parallel base layers 11 and a pole structure 12, the two base layers 11 together combines.
• the two base layers 11 may be formed as a woven fabric, as knitted or knitted fabric.
• the pole structure 12 is formed by pile threads 12p.
• the two base layers 11 each have, in addition to textile threads 11t, electrically actable threads 11e. For clarity, only some of the textile threads 11t are provided with reference numerals in the figures.
• the two base layers 11 are formed in the embodiment shown in Fig. 1 and 2 of warp 11 k and weft threads 11s. Warp threads 11k and weft threads 11s are mainly textile threads 11t.
• the electrically actable filaments 11e may be warp threads or weft threads. In the exemplary embodiment illustrated in FIG. 1, electrically loadable threads 11e extend essentially parallel to the weft threads 11s, wherein in the case shown, they each loop around consecutive warp threads 11k alternately from above or from below. As can be seen in FIG.
• the pile threads 12p may be formed in sections as weft threads and run in this section in the base layer 11, in the illustrated case in the section of the base layer alternatingly looping successive warp threads from above or below. In other areas of the base layer, the pile threads each successively loop around a warp thread 11 k of a base layer 11 and then a warp thread 11 k of the other base layer 11.
• FIG. 2 shows a textile material 2 designed as a suede material, which is formed by cutting the pile threads 12p in FIG. 1 in a parallel center plane running between the two base layers 11.
• the pile threads 13 formed from the cut pile threads have different colors, which are represented by different hatchings, and thus form colored patterns in the textile material 2. It may also be monochromatic or piece-dyed materials.
• the two textile materials 2 formed by cutting open the pile surface structure 1 are designed differently, preferably with different patterns.
• the two textile materials 2 formed by cutting open the pile sheet 1 are of the same design, preferably of the same design.
• the end sections of the pile threads 13 projecting perpendicularly to the base layer 11 are fanned out and thus produce a velvet-like appearance of the textile material.
• the cut pile threads form loops around the warp threads 11 k of the base layer 11, which adhere to the warp threads 11 k substantially by frictional engagement.
• it can also be provided to fix the pile threads 13 by additional means, for example by an adhesive layer arranged on the back side of the base layer.
• the textile material may be formed as an epingulum material that differs from the suede material in that only one base layer is provided in the production process and that instead of the pile yarns, pile loops are provided are. In preferred embodiments, it is provided that the pile loops are cut open by shearing.
• a suede material can be produced, which is similar or identical to the structure of the suede material produced from the Pol vomgesente.
• the distribution of the pile threads 13 is different in different areas. In two areas in which electrically actable conductors 11e are arranged, fewer pile threads 13 are arranged.
• the electrically actable threads 11e are designed as heating filaments.
• the electrically acted threads can also be designed as electrically self-illuminating threads.
• the luminous effect of the self-luminous filaments is preferably based on electroluminescence.
• the self-luminous thread has an electroluminescent dye, which is excited by an electric field to shine.
• the self-luminous thread therefore has two electrically conductive layers, which are connectable to an electrical voltage source and between which the electric field is formed.
• the electrical voltage source preferably provides an alternating voltage in the low-frequency and / or audible frequency range (20 kHz).
• a typical self-luminous thread may have a rotationally symmetrical structure with an electrically conductive central inner conductor and a cylindrical transparent outer conductor, between which electroluminescent material is arranged, which may be surrounded by an outer protective layer.
• the outer conductor can be enveloped by a transparent colored protective layer. It is also possible to dispense with the central inner conductor and to provide two outer conductors electrically insulated from each other.
• the two electrically conductive layers of the thread can be exposed at the contact point and be connected for example by a clamp connector with electrically isolated from each other insulated jaws electrical connection contacts with electrical leads that produce an electrical connection to the electrical voltage source.
• the electrical power source can be considered a to the public grid connectable power supply can be formed.
• the contacting of the self-luminous threads may be provided by a cutting connector, which cuts through the insulation in one operation and contacts the electrically conductive layers of the self-luminous thread.
• a particularly simple contacting is possible if contacting areas are provided in the textile material in which the self-illuminating threads introduced in the textile material are arranged close to each other in the manner of a ribbon cable so that a correspondingly dimensioned cutting connector, for example an 80-pole cutting connector, can be used is.
• FIGS. 3 to 5 now show application examples for the textile material according to the invention, in which the electrically actable filaments are designed as self-illuminating filaments that can be acted upon electrically.
• Fig. 3 shows a trained as a band-shaped velor material textile material 3, which is intended as an escape route marking in the bottom area of vehicles for passenger transport, for example, for use in buses, trains, aircraft and ships.
• the textile material 3 has in the case shown alphanumeric characters 31 and a pictogram 32, which mark an escape route.
• the characters 31 and the icon 32 are formed of self-luminous threads.
• the self-luminous threads occur in the area of the characters 31 and the pictogram 32 on the surface of the base layer of the textile material 3 and are covered in the other areas in the base layer of the textile material of textile threads and / or pile threads and therefore not visible.
• the alphanumeric characters 31 formed from the self-luminous threads form the word "EXIT" and the icon 32.
• the icon 32 is a directional arrow indicating the way to the exit or emergency exit.
• Fig. 4 shows a trained as a band-shaped velor fabric textile material
• a pictogram 44 which is designed as a stylized fan, and star-shaped decorative elements 45 are formed in the manner described in Fig. 3 above.
• Fig. 5 shows a trained as a band-shaped velor fabric textile material
• the textile material 5 may for example form an ornamental border of a textile for the interior of rooms or be provided as a decorative element for wall and / or ceiling panels or as a decorative element for furniture. It can also be provided to form the decorative element 51 exclusively of self-luminous threads, preferably in several colors, or to form the decorative element 51 from textile pile threads and, moreover, from self-illuminating threads. It can also be provided that the textile material also electrically acted filaments and associated with these bulbs, such as LEDs has. It is also possible that the textile material 5 is a large-area textile material which can be used, for example, as a curtain fabric or as a wall covering. The textile material 5 can also be used as emergency lighting, for example in cinema theaters.
• FIGS. 6a to 6f show the production and use of a textile material equipped with an electrical functional element using electrically actable filaments which are designed as electrical conductors for supplying electrical functional elements or as heating conductors.
• FIG. 6a shows a schematic representation of a textile base layer 11 provided as the starting material of the textile material, which has, in addition to textile threads 11t, electrically loadable threads 11e.
• the electrically acted threads 11e are arranged in the textile base layer 11 instead of textile threads.
• the electrically acted filaments 11e may be formed differently depending on the purpose, for example, be formed of different materials or have a different structure.
• the electrical acted upon filaments may for example be formed as a strand to form a comparable flexibility of the textile filaments and / or having an electrically insulating coating.
• the electrically acted filaments may further have different electrical properties, for example, have different electrical conductivity, whereby they are specially formable as electrical conductors or as heating conductors.
• FIG. 1 shows a schematic representation of a textile base layer 11 provided as the starting material of the textile material, which has, in addition to textile threads 11t, electrically loadable threads 11e.
• the electrically acted threads 11e
• FIG. 6b shows the textile base layer 11 in a second production step.
• the textile base layer 11 is partially coated with an adhesive layer, 11 kl, wherein the sections in which the electrically acted filaments 11 e are in operative connection with the environment or in which components are arranged after completion of the textile material, no adhesive layer 11 kl have.
• 6c shows the electrostatic coating of the textile base layer 11 with pile threads 13.
• the pile threads 13 align in an electrostatic field 14 and are fixed on the textile base layer 11 by the adhesive layer 11kl.
• the textile base layer 11 is moved through the electrostatic field 14, so that the entire textile base layer 11 is coated with pile threads 13.
• the pile threads 13 adhere only in the sections of the textile base layer 11 provided with the adhesive layer 11.
• FIG. 6 d shows a textile material 6 which is formed by the above-described coating of the textile base layer 11 with pile threads 13. In the areas in which the electrically acted filaments 11 e are in operative connection with the environment or which are provided for receiving electrical components, contact elements or the like, no pile filaments 13 are arranged.
• FIGS. 6e and 6f show the textile material 6 equipped with a light-emitting diode 61, which further has a heating surface 62, in which electrically actable filaments 11e designed as heating conductors are arranged.
• no pile threads 13 are arranged on the heating surface 62.
• No pile threads 13 are arranged in the region of the light-emitting diode 61, so that the light emission of the light-emitting diode 61 is not hindered.
• the height of the light-emitting diode is smaller than the length of the pile threads 13, so that the light-emitting diode 61 does not protrude beyond the surface of the textile material 6 and is therefore largely protected against mechanical damage.
• the light-emitting diode 61 may be, for example, a so-called SMD component.
• SMD Surface-mounted device
• SMD Surface-mounted device
• Fig. 8 shows a textile material 7, which is formed as a suede material. It consists of a textile base layer 11, projecting from the pile threads 13. In the textile base layer 11 electrically acted bare threads 11 e are incorporated. The electrically actable threads 11e may be provided as additional threads in the textile base layer 11 formed as a fabric. The electrically acted threads are arranged in certain sections of the textile material. In other areas, no electrically actable filaments 11e are arranged. Some of the electrically acted filaments emerge in sections from the base layer, by being arranged partially resting on the surface of the textile base layer 11. In FIG.
• corresponding regions a, b, c and d are present in which electrically actable filaments 11e are provided with greater density than in regions lying between them.
• the areas a, b, c, d extend electrically acted filaments 11e each in this section on the upper side of the textile base layer 11 resting, so that in these areas a larger area or volume fraction of electrically acted filaments is provided, as in other areas in which the electrically acted filaments 11e in the fabric transverse weft threads 11s arranged alternately wraps are.
• the areas a, b and d represent embodiments of the alternative a) of claim 1, since they represent areas in which electrically actable threads are present and less or no protruding pile threads or pile loops are provided in these areas.
• the area c represents an embodiment of the alternative b) of claim 1.
• the surface or volume fraction of electrically actable filaments is particularly large due to the guided on the surface of the textile base layer 11 electrically acted filaments 11 e.
• the density of the protruding pile threads 13 or pile loops can therefore be of the same size in this area as in adjacent areas in which there are no or less electrically actable threads in the textile base layer 11.
• a textile material 8 which consists of two textile base layers 11, 11 ', which are connected to each other via pile threads 12p.
• the upper textile base layer 11 electrically acted filaments 1 1e are arranged.
• the lower textile base layer 11 ' no electrically actable filaments 11e are provided.
• FIG. 9 in a section on the left side, in which electrically actable filaments 11e are arranged in the upper base layer 11, nor provided that in this area no pile threads 12p are present, which connect the textile base layers 11, 11 'in this area.
• alternative embodiment b) of claim 1 may also be implemented in a variant with respect to FIG. 9 having two base layers 11 and 11 ', for example in a design of the base layer 11 as shown in FIGS. 7 and / or 8. Further, with respect to Fig. 9 modified embodiments are conceivable in which more than two textile base layers are present, which are connected via pile threads.
• modified versions with one or more textile base layers are possible in which not only on an upper side pile threads 13 or pile loops are arranged projecting, that is, embodiments are possible in which pile threads 13 or pile loops are arranged wegschwd also on the underside of the textile material.

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• 2009
  • 2009-05-26 DE DE200910023658 patent/DE102009023658B4/de not_active Expired - Fee Related
• 2010
  • 2010-05-26 WO PCT/EP2010/003180 patent/WO2010136179A2/de active Application Filing
  • 2010-05-26 CN CN201080029341.1A patent/CN102482811A/zh active Pending
  • 2010-05-26 EP EP10722943A patent/EP2398946A2/de not_active Withdrawn

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