LEATHER WITH TEXTILE / LONG LAYER ON THE HUB

专利摘要:
The invention relates to a method for producing leather (1) with a textile / nonwoven layer (2), characterized in that the following method steps are carried out: production of a leather layer (3) comprising a hub side (4) from an animal skin; Applying and in particular adhering the textile / nonwoven layer (2) on the hub side (4) of the leather layer (3); Spraying a textile / nonwoven layer (2) optionally partially penetrating dressing (8) on the textile / nonwoven layer (2).
公开号:AT512135A1
申请号:T1403/2011
申请日:2011-09-28
公开日:2013-05-15
发明作者:Gregor Ackermann；Manuel Zottler；Andreas Kindermann
申请人:Wollsdorf Leder Schmidt & Co Ges M B H；
IPC主号:

专利说明:

W15639 1
Leather with textile / fleece layer on the hub side
The invention relates to a process for the production of leather with a textile / nonwoven layer and a leather with a textile / nonwoven layer.
The document EP 0 331 214 A2 discloses a method for processing split leather, wherein for the time being the difference between split leather and hub gap is discussed. The skins of, for example, cattle are 5 to 10 millimeters thick, so you can win several layers by splitting, the split leather. The lower layer is cheaper, but also has the least inner cohesion, as the density and entanglement Eiweißfasem, which are made of leather, down (to the meat side) decreases. The highest strength has the so-called hub gap - the top layer, the smooth leather top - the hub side - contains.
With the known method for processing split leather, despite the use of the less expensive split leather, it is attempted to give the dressed leather the appearance and properties of a full-ned natural leather. During production, a high viscosity polyurethane solution is applied to a paper carrier with a negative hub structure using a coater, which dries to form a film. On one side of the split leather an aqueous dispersion layer is applied. Subsequently, the split leather is placed with this side with the dispersion layer on the paper support with the film and connected under pressure and temperature to a trimmed split leather. Subsequently, the paper carrier is peeled off, whereupon the impression of the hub side of a leather is created by the embossing of the paper carrier, which is similar to the hub structure of a natural leather, which has been absorbed in the film.
The document further discloses to arrange a textile layer as reinforcing layer in one of the two layers of the dressed split leather in order to mechanically reinforce the split leather having a low mechanical tensile strength. No information about the textile layer is given, it being stated that the weight per unit area should be less than BO g / m2.
The known dressed split leather has been found by its at least four-layered structure (split leather / aqueous dispersion / textile layer / film) in the production as costly. Furthermore, with the imprint of the film, the impression of the
Modeled on the hub side of a leather, but this neither the optical and haptic impression of a genuine hub side can be achieved, nor are sufficiently good mechanical properties achieved.
The invention has for its object a method for the production of leather and leather with textile / nonwoven layer to obtain, in which the above disadvantages are avoided.
According to the invention, this object is achieved by carrying out the following method steps in the production of the leather:
Production of a hub side leather layer of an animal skin;
Applying and in particular adhering the textile / nonwoven layer on the hub side of the leather layer;
Spraying a textile / nonwoven layer optionally partially penetrating dressing on the textile / nonwoven layer.
This task is solved in a leather with textile / nonwoven layer by the following layer structure:
Leather layer with a hub side; applied on the hub side and in particular glued textile / nonwoven layer; applied to the textile / nonwoven layer dressing, which optionally partially penetrates the textile / nonwoven layer.
By using the hub gap or the hub side on the one hand directly a good mechanical strength and on the other hand the desired visual and haptic impression of leather is achieved. The textile layer and / or nonwoven layer adhered directly to the hub side forms a particularly strong adhesion to the leather and makes it possible to anchor the dressing with the textile / nonwoven layer and the leather. The leather of the invention is thus characterized by a special tear resistance and a noble and high-quality impression. Λ
The basis weight of the textile / nonwoven layer is advantageously chosen to be less than 40 g / m and depending on the quality of the hub layer and the desired tear strength. In the case of quality defects of the hub layer, the textile / nonwoven layer can thus be selected with a higher basis weight in order to give a more uniform visual impression. 3 < *····· * * t ············ · ♦ · * · ff · ff ff * ff »···· ff ·· ff ··
It has proven particularly advantageous to use the textile / nonwoven layer functionally. For example, in the textile layer and / or nonwoven layer woven heating wires can be used when using the leather for a car seat as a seat heater, in a conventional seat heating heating wires are arranged in the upholstery of the seat under the leather. However, heat given off by the heating wires of such a seat heater must first diffuse through the thermally insulating leather in order to warm the user sitting on the seat. However, a good part of the released heat diffuses only in the upholstery of the seat and is therefore lost. In a permitted with the leather according to the invention seat with heating wires has the advantage that the textile / nonwoven layer is provided with the heating wires on the user side of the leather and the heat generated is thus delivered directly to the user. As a result, both costs in the production of a car seat with seat heating and energy costs can be saved.
Another application to use the textile / nonwoven layer functionally would be to improve the flame retardancy of the leather with the textile / nonwoven layer. Herbei has proved to be advantageous to use a flame retardant material for the textile / nonwoven layer and incorporate a dressing in the textile / nonwoven layer, which also has flame retardant properties.
Further advantageous embodiments of the system according to the invention are explained in more detail below with reference to FIGS.
Figure 1 shows the layer structure of a leather with textile layer.
FIG. 2 shows a method for producing the leather according to FIG. 1.
FIG. 1 shows a leather 1 with a textile layer 2, which leather 1 can be used, for example, for leathering vehicle compartment interior parts, but also for other fields of use. The leather 1 has a leather layer 3 which has been produced from an animal skin and which has the high-quality hub side 4 of the animal skin. The leather layer 3 was obtained from the uppermost layer of the dermis and is characterized by a high density and entanglement of the protein fibers, which is why the leather layer 3 has a special mechanical strength. The hub side 4 has the typical user 4 • · «· ·· · * Μ *» *
• * »tt · tt« M • · · · «······ ·« * * ····· «* *« * «· · · · · · · · · · · · · "·· desired structuring of a leather surface, wherein in poorer areas of the leather scars or other skin damage 1 have left undesirable large depressions 5 or elevations 6.
On the hub side 4 of the leather layer 3, the textile layer 2 is provided glued with a thermally activated adhesive. As textile layer 2, in particular the following types of fibers have proven to be advantageous: woven fabric, knitted fabric, felt made of synthetic fiber, in particular polyamide or polyester, natural fiber, in particular cotton or wool, carbon fiber material, in particular aramid fiber. The textile layer 2 fulfills several functions. For the time being, the textile layer 2 has the function to compensate for excessively large depressions 5 or elevations 6. The thickness of the textile layer or the basis weight of the textile layer 2 is chosen to be thicker or heavier, the greater the skin damage. Due to this balancing function of the textile layer, its surface 7 is substantially quieter or smoother than the surface of the hub layer 4.
On the textile layer 2, a so-called dressing 8 has been sprayed and remained as a thin film. As dressing 8 the expert knows the orders by brushing or spraying several layers containing pigments (primer and topcoats) and one or more final lacquer layers. The ingredients include pigments, acrylates, binders predominantly of polyurethanes,
Waxes and silicones.
By spraying the dressing 8, the dressing 8 is applied to the textile layer 2. Depending on the structure of the textile layer 2 and the flowability of the dressing 8 after spraying, the dressing 8 penetrates at individual points 9 into the textile layer 2 and optionally even up to the hub layer 4.
By sticking the textile layer 2 and the spraying of the finish 8 on the textile layer 2, a particularly good anchoring of the dressing 8 is given on the leather layer 3, which is why the leather 1 is particularly durable. The textile layer 2 thus also fulfills the function of allowing improved durability of the leather 1. In addition, the textile layer 2 distributes tensile stresses and pressure on larger areas, which also contributes to the longer durability of the leather 1.
The textile layer 2 of the leather 1 now further fulfills the function that only with the leather 1, a heater or seat heating can be realized. In the textile layer, • · Ψ * Μ · · <
• · t · «| Namely, a large number of fine heating wires 10 are woven, which are connected at their ends to contacts 11 and 12. The heating wires can form a close-meshed network or also be layered. If the leather 1 is used, for example, for leathering car seats or cinema seats, then only a low-voltage power source is necessary to realize a seat heating, which is connected via an ON / OFF switch to the contacts 11 and 12. It is particularly advantageous in this seat heater that the heat generated by the heating wires 10 is discharged through the thermal insulation of the leather layer 3 almost entirely on the dressing 8 to the user of the seat. As a result, the energy is used particularly effectively.
The textile layer can have flame retardant properties as a further function. For this purpose, it consists of heavy or non-combustible material. In addition, the dressing may have flame-retardant properties. This has the advantage that the risk of fire in cars or aircraft can be significantly reduced.
FIG. 2 now shows an example of a method for producing the leather 1 according to FIG. As a first method step, the leather layer 3 is produced from an animal skin, which has the hub side 4, this method step per se being known from the prior art. As a second method step, the textile layer 2 is glued on the hub side 4. For this purpose, the leather layer 3 is placed with its hub side 4 up on a conveyor belt 13. Two pressure rollers 14 and 15 rotate according to the conveying speed of the conveyor belt. In the pressure roller 14, the textile layer 2 is brought to the hub side 4, wherein on the hub side 4 facing side of the textile layer 2, a thermally activated adhesive 16 is applied and on the hub side 4 side facing away from the textile layer 4, a paper layer 17 is provided.
With the temperature T of a heating element 18, the textile layer 2 and the adhesive 16 are heated and pressed with the pressure roller 15 to the leather layer 3. Here, the paper layer 17 protects the textile layer 2 from damage. After the pressure roller 15, the paper layer 17 is lifted off the textile layer 2. In a third method step, the dressing 8 is sprayed from a spray nozzle 19, wherein the dressing 8 partially penetrates into the textile layer 2.
This method for producing the leather 1 is particularly simple and reliable. ························································································. This results in only low production costs, at the same time a high-quality leather is obtained by the use of the hub gap and the textile layer.
It may be mentioned that a braid of electrically conductive wires could also be provided in the textile layer in order to dissipate electromagnetic radiation or electrosmog. For this, the braid would have only one contact, which would be connected to a ground or to ground.
It may be mentioned that the adhesive 16 for adhering the textile layer 2 to the leather layer 3 could also be applied on the hub side 4.
It may be mentioned that the textile layer can be made thicker with, for example, a basis weight of 20 g / m 2 if the surface of the leather 1 is to be embossed.
As a further function, the textile layer can avoid static charges, for example in the area of electronics (consumer electronics, electrical appliances). In the textile / nonwoven layer, a conductive layer for electrostatic charges layer could be incorporated, which could possibly be grounded via a contact, but does not have, Such leather could also be used for trim parts of electronics (eg mobile phone cover) and thus fulfills an "antistatic" function , This improves the indoor climate and protects the devices against unintentional discharging.
It may be mentioned that the term "nonwoven" is understood by the person skilled in the art to mean a textile fabric of individual fibers. In contrast, woven, knitted and knitted fabrics are made from yarns. The textile / nonwoven layer according to the invention can thus consist of either a textile or a fleece or a combination of the two types.

权利要求:
Claims (14)
[1]
7 • ft * «* · * ···« ························································································· * 1. A process for the production of leather (1) with a textile / nonwoven layer (2), characterized in that the following steps are carried out: Preparation of a hub side (4) having leather layer (3) of a animal skin; Applying and in particular adhering the textile / nonwoven layer (2) on the hub side (4) of the leather layer (3); Spraying a textile / nonwoven layer (2) optionally partially penetrating dressing (8) on the textile / nonwoven layer (2).
[2]
2. The method according to claim 1, characterized in that the textile / nonwoven layer (2) with a thermally activated adhesive (16) on the hub side (4) of the leather layer (3) is applied, for which the textile / nonwoven layer (2) on the the side facing away from the hub side (4) has a paper layer (17) for protecting the textile / nonwoven layer (2) during application of the heat activating the adhesive (16), which after gluing and before spraying the finish (8) of the textile / Nonwoven layer (2) is removed.
[3]
3. The method according to any one of the preceding claims, characterized in that as textile / nonwoven layer (2) at least one of the following types of fibers is used: woven fabric, knitted fabric, felt made of synthetic fiber, in particular polyamide or polyester, natural fiber, especially cotton or wool, carbon fiber material, especially aramid fiber.
[4]
4. The method according to any one of the preceding claims, characterized in that a textile / nonwoven layer (2) is used which has electrical current conducting properties,
[5]
5. The method according to any one of the preceding claims, characterized in that a textile / nonwoven layer (2) and / or dressing (8) is used which has flame-retardant properties.
[6]
6. The method according to any one of the preceding claims, characterized in that at a lower quality of the hub layer (4) a higher basis weight of the textile / nonwoven layer (2) is selected.
[7]
7. leather (1) with a textile / nonwoven layer (2), wherein the leather (1) is characterized by the following layer structure: leather layer (3) with a hub side (4); 9 9 9 9 9 9 9 9 9 ♦ · · «· | 999 999 applied on the hub side (4) and in particular adhered textile / nonwoven layer (2); on the textile / nonwoven layer (2) applied dressing (8), which optionally partially penetrates the textile / nonwoven layer (2).
[8]
8. leather (1) according to claim 7, characterized in that in the textile / nonwoven layer (2) at least one of the following types of fibers is used: woven fabric, knitted fabric, felt made of synthetic fiber, in particular polyamide or polyester, natural fiber, especially cotton or wool, Carbon fiber material, in particular aramid fiber.
[9]
9. leather (1) according to one of the preceding claims, characterized in that the textile / nonwoven layer (2) has electrical current conducting properties.
[10]
10. leather (1) according to claim 9, characterized in that in the textile / nonwoven layer (2) electrical current conductive threads, in particular heating wires (10), are woven.
[11]
11. leather (1) according to claim 10, characterized in that connected to the current-conducting threads contacts (11, 12) are provided, where current, in particular for heating the heating wires (10), is introduced into the threads.
[12]
12. Leather (1) according to one of the preceding claims, characterized in that the textile / nonwoven layer (2) and / or the finish (8) has flame-retardant properties.
[13]
13. leather (1) according to any one of claims 7 to 12, characterized in that the textile / nonwoven layer (2) has a basis weight of less than 40g / m and in particular between 6 and 1 Og / m.
[14]
14. seat, in particular vehicle seat, with a seat heating, characterized in that the seat is covered with a leather according to one of the claims 9 to 11.

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DE102004012634A1|2004-03-16|2005-10-13|Mattil, Klaus, Prof. Dipl.-Ing.|Injection method for increasing adhesion between flat leather layers involves high pressure injection of reactive fluid through leather skin into the fiber layers|

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DE20317423U1|2003-11-12|2004-02-19|Schaefer, Philipp|Dressed leather comprises a reinforcing layer which is embedded in the structure of the leather surface adjacent to the dressing|

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DE502004010236D1|2003-11-15|2009-11-26|Basf Se|CARRIER WITH ONE SEAL|

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FR2939731B1|2008-12-12|2011-09-16|Faurecia Sieges Dautomobile|COATING ASSEMBLY FOR VEHICLE SEAT AND METHOD OF MANUFACTURING SUCH ASSEMBLY|

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DE202010012148U1|2010-09-03|2010-11-25|Schaefer, Philipp|Leather with a non-combustible polymer coating|DE102014104906A1|2014-04-07|2015-10-08|Eissmann Automotive Deutschland Gmbh|Cover for an airbag with a decorative layer of leather and method of its manufacture|

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CN105500806A|2015-12-22|2016-04-20|江苏九赛马服饰有限公司|Cattlehide leather fabric|

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TW201809286A|2016-08-16|2018-03-16|奧地利商沃斯多萊德史契特股份有限公司|Leather having an electronic layer|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA1403/2011A|AT512135B1|2011-09-28|2011-09-28|LEATHER WITH TEXTILE / LONG LAYER ON THE HUB|ATA1403/2011A| AT512135B1|2011-09-28|2011-09-28|LEATHER WITH TEXTILE / LONG LAYER ON THE HUB|

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PT127299808T| PT2761034T|2011-09-28|2012-06-26|Leather with textile/nonwoven layer on the grain side|

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EP12729980.8A| EP2761034B1|2011-09-28|2012-06-26|Leather with textile/nonwoven layer on the grain side|

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ES12729980.8T| ES2661117T3|2011-09-28|2012-06-26|Leather with textile / non-woven layer on the flower side|

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PCT/EP2012/062382| WO2013045124A1|2011-09-28|2012-06-26|Leather with textile/nonwoven layer on the grain side|

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PL12729980T| PL2761034T3|2011-09-28|2012-06-26|Leather with textile/nonwoven layer on the grain side|