巴西专利BR112014025495B1 CARPET FOR USE IN A CAR COMPRISING AT LEAST ONE NEEDED FINISHING LAYER AS A TOP LAYER MADE OF DISCON

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专利摘要:
carpet for use in a car comprising at least one needled coating layer as a top layer made of staple fibers and carpet use. The present invention relates to a carpet for use in a car comprising at least one needled covering layer as a top layer made of staple fibers, characterized in that the staple fibers comprise hollow fibers, and in that the content of hollow fiber is at least more than 45% by weight of the total staple fibers.
公开号:BR112014025495B1
申请号:R112014025495-8
申请日:2013-05-07
公开日:2021-09-14
发明作者:James Taylor；Michael Kiessig；Meganathan Meenakshisundaram
申请人:Autoneum Management Ag；
IPC主号:

专利说明:

Technical Field
[0001] The invention relates to a carpet for use in automotive interiors, for example, covering the main floor, optional mats, seat backs, cargo compartment covers, pillar trim and covering areas in the trunk or trunk of a vehicle. Fundamentals of technique
[0002] Automotive interiors and trunks have traditionally been upholstered with various types of fabrics, but in recent years tufted carpets and carpets have been used more.
[0003] Carpets, as known in the automotive industry generally comprise: • at least one layer of needled decorative covering, produced from fibrous nets that can be made on a cardboard, and which are covered transversally to increase the weight of area. The net formed in this way is reinforced and consolidated by the alternate action of barbed needles repeatedly penetrating the net so that the material becomes tangled and decreases in thickness. Finally, a second needling step can be used to obtain a surface pattern from the action of crown or fork needles, eg a dilour or fluted surface, and • Finally, one or more backing layers on the back side of carpet, for example, a layer of latex, thermoplastic, felt or foam, or combinations of these materials.
[0004] EP 0518690 A discloses the use of conjugated fibers together with polypropylene fibers to form a needled top layer. The needled mat is subjected to heat treatment to melt the conjugated fibers and further bond the needled top layer increasing the overall performance of the thus formed mat. According to the disclosure, when using conjugated fibers in a blend of staple fibers as disclosed, the carpet does not need a backing layer.
[0005] Hollow fibers are mainly used for filling bedding or clothing material, due to the volume increase in weight, the material is lighter and due to the higher level of trapped air the thermal insulation is increased. Furthermore, the use of hollow fibers for acoustic felts is known, partially used as an acoustic backing layer for both carpet and automotive tufted carpets. However, the use of staple fibers with hollow cross-section for carpet lining layer has not been shown before. It is widely believed that a hollow cross-section in particular is prone to a greater risk of fibrillation or breakage and therefore would not work for a carpet surface layer prone to abrasion due to wear.
[0006] Automotive carpets are subject to wear mainly from shoes. Automotive carpet wear is a local abrasion, more due to movement of the shoes than a compression due to normal walking (typical wear for domestic or industrial carpet). The area particularly under the brake and gear pedals is very prone to such wear. However, the trunk, when used extensively for cargo, is also subject to increased wear. Therefore, the automotive industry uses abrasion performance as one of the important criteria for selecting suitable carpets. Abrasion properties are often, but not exclusively, measured using a Tabor taber test measurement in accordance with the SAE standard. The maximum weight loss during the first 300 cycles and/or the maximum amount of cycles before a first orifice is visible are assessment criteria that differ by car manufacturer.
[0007] To meet the criteria of car manufacturers, very often the weight of the basic mat is increased. However, the trend in the automotive industry is towards lighter weight products, as every kilogram of material used in a vehicle is directly related to that vehicle's fuel efficiency and CO2 release.
[0008] Another criterion is the visual appearance of the carpet after a period of wear or at the end of an abrasion test. Due to wear, damage and/or breakage of the top fibers occurring, this can cause a lightening effect on particularly colored carpets (black). This whitening effect is an unwanted feature that lowers the expected use of a carpet surface. This presents a problem particularly with carpets made from solid fibers. As this lightening effect is a prominent problem for carpets currently on the market. These types of carpets are mainly accepted in mid and low end cars and not high end cars. Summary of the invention
[0009] It is the aim of the invention to optimize the total wear properties of a carpet for automotive use and/or alternatively to obtain a carpet with the same abrasion performance as current carpets in a lower total weight. Furthermore, it is a goal to obtain a carpet with the total performance equal to or better than the current carpets on the market.
[0010] The objective is achieved with the carpet covering layer, according to the invention, with the characteristics of the independent claim. Particularly when using staple fibers with a hollow cross-section, it was found that the abrasion performance of the carpets was increased compared to the same produced carpets made of round solid staple fibers.
Carpet with a surface substantially made of hollow fibers has been found to have increased abrasion performance. It is known that the use of hollow fibers has the advantage that the layer can be made lighter while keeping the fiber density high due to the void volume in the fiber itself. However, the unexpected increase in abrasion performance makes it possible to further decrease the area weight used in the top layers of carpet while keeping the carpet looking good visually.
[0012] During all abrasion tests on the carpet layer made of hollow fiber according to the invention, the samples did not show substantial lightening of the rubbed surface. This is an important criterion for the carpet surface used in a car interior, particularly for the acceptance of such a floor in high-end cars.
[0013] With the inventive non-woven carpet it was possible to produce flat parts - good to roll up - as well as 3D modulated carpet, with an abrasion performance acceptable by most standard car manufacturers. Hollow staple fibers
[0014] The hollow staple fibers for the needled surface, according to the invention, have a cross-section with at least one void area extending axially along the entire length of the fiber (see Figure 3A). Furthermore, hollow fibers with multiple void areas extending axially along the entire length of the fiber can be used from the surface of carpets in accordance with the invention. The hollow fibers used have around 15 to 35% void space (based on cross-section), preferably between 15% to 25%.
[0015] Preferably the outer cross-section of the hollow fibers is substantially rounded, circular or oval. Due to varying conditions during manufacture, fibers are rarely formed perfectly. It may be that the polymer material around the hollow area is open, so the cross-section is more C-shaped than O-shaped. Preferably, the hollow or empty area is a central area (2) (Figure 3A and 3C ) substantially in the middle of the cross section. However, in addition, a cross-section with multiple smaller hollow areas directed in the axial direction of the fiber can be used according to the invention, for example 4 hollow tubes (2) as depicted in figure 3B. The hollow area may have other cross-sections than the more common round shapes, eg trilobal or square, and will still fall within the scope of the invention as anticipated.
[0016] Depending on the area of the void, the density of the fibers is proportionally smaller than the density of the material, for example, around 1.38 g/m3 for PET.
[0017] The hollow staple fibers used are approximately between 2 and 20 dtex, preferably between 4 and 17 dtex. In addition, a mixture of dtex, eg thin and coarse, such as 12 and 17 dtex is possible.
[0018] The staple fibers have a normally discontinuous length used for carpet layers for automotive use preferably substantially between 40 to 120 mm, preferably between 50 to 80 mm.
[0019] The hollow staple fibers according to the invention are preferably made of thermoplastic material, for example polyester polymers including aromatic and aliphatic polyester polymers or polypropylene as commonly found in automotive carpets, or Polyamide such as PA6 or PA66 or polylactic acid (PLA). Exemplary polyester polymers include, but are not limited to, polyethylene terephthalate (PET), polybutylene terephthalate (PBT) or polytrimethylene terephthalate (PTT).
[0020] The carpet covering layer according to the invention substantially comprises hollow staple fibres. At least up to 100% by weight are hollow staple fibers. (The % by weight is defined as the percentage of fibers, based on the total fiber weight of the needled coating layer) Preferably, the amount of hollow fibers is at least 45% by weight, preferably at least 65% by weight.
[0021] As staple fibers are used for their specific cross-cuts, conjugated or bicomponent fibers, losing their hollow shape after needling or other process steps due to their undoing, cannot be used in the surface layer, according to the invention, to form the main structural components of the needled surface layer.
[0022] However, in areas of high wear, it could be advantageous to combine the hollow staple fibers with additional binding fibers. For example, conjugated, bicomponent or low-melting staple fibers can be added to enhance blocking or binding of the needled surface. Binding fibers are chosen depending on the hollow fibers used. Preferably the fibers are made from low melt polymers like PP or polyester, preferably co-Polyester (coPET). The amount of binding fibers cannot exceed 25% of the total weight of the cladding layer.
[0023] In areas where wear is not substantial or a lower level of abrasion performance is required a portion of the hollow fibers can be replaced by standard solid polyester fibers. Up to 55% of the total fibers used can be from such solid staple fibers. This could also be colored fibers used to enhance the overall aesthetic performance of the needled coating layer. Many car manufacturers ask for a color combination to individualize their car interiors.
[0024] The additional fibers are preferably made from the same or similar polymeric material as the hollow staple fibers used. Preferably all used staple fibers are based on the same polymers or polymer families. Furthermore, use of recycled polymers is an option that fits with the scope of the invention as claimed, particularly using hollow polyester fibers, possibly together with solid polyester fibers and/or conjugated binding polyester bonding fibers, in that that some or all of the polyester used is coming from recycled polyester sources, such as bottle pellets.
[0025] The carpet covering layer according to the invention can be used as a decorative layer, for example as a covering layer for interior trim parts, such as a cargo compartment cover, the door floor -suitcases or seat backs. For this it is sufficient that the carpet has an adhesive layer combining the production of the trim part, normally a thermoplastic material. It is also possible to use the carpet as a decorative top layer for an optional or replacement mat, with additional backing layers to meet additional specific requirements for such optional mats, such as stiffness or anti-skid. For example, a backing layer of felt, flocking or rubber could be used.
[0026] Another possibility is the use of such carpet as a decorative cladding layer for main floor systems. For this, the material usually obtains one or more supporting layers that perform the acoustic function of the part, for example, a heavy or mass layer and a dissociation layer to form an acoustic insulation. Another option is to use an airflow resistant layer, for example a foam or felt layer to obtain a sound absorber.
[0027] For example, in acoustic systems as disclosed in EP 0934180 A, EP 2365483 A or EP 2364881 A, a decorative top layer in the form of, for example, a carpet is used, which normally has no influence on the acoustic performance of the underlying acoustic system. The carpet covering layer according to the invention can be used with the acoustic systems as disclosed in these applications, without negatively interfering with the acoustic properties of the disclosed systems.
[0028] According to the invention, the coating layer is porous. However, it does enhance possible sound absorption properties only marginally, as it has been measured that the cladding layer according to the invention does not have a considerable absorption property by itself. In opposition to the published belief that hollow fibers can be used to produce a sound-absorbing layer, this could not be proven for the carpet according to the invention. The reason could be that the process parameters used to produce an acoustic layer are different to those producing a carpet layer.
[0029] The area weight of layers of needled decorative carpet coverings used as standard on vehicles is dependent on the area of use as well as the exclusivity of the car, normally in a range between 180 to 800 gr/m2. For example, in the high-end car segment this can be up to 700 g/m2, while in the low-end car segment it can be as low as 200 g/m2.
[0030] As the carpet is used as an aesthetic or decorative lining layer, the net can be maintained as a plain net or the plain carpet layer can be further enhanced by additional needling to provide a more structured surface, this can be in the striated shape, velvet or random velvet, also known as dilour. Other surface treatments to enhance appearance without imparting abrasion results are also possible and will fall within the scope of this disclosure.
[0031] The coating layer according to the invention, possibly combined with one or more backing layers, can be molded to form a part for the interior of a car, for example, the main floor or the door area. bags. 3D forming can be done by cold and/or hot molding using the conversion processes commonly used in the automotive industry. Brief description of the figures
[0032] Figure 1: Cross section of a molded carpet for a vehicle according to the state of the art.
[0033] Figure 2: Schematic layers for a carpet with the covering layer according to the invention.
[0034] Figure 3: Different cross sections of hollow fiber.
[0035] Figures 4 and 5: Abrasion test results for samples with different hollow fiber to solid ratio.
[0036] Figure 1 shows the cross-section of a molded carpet floor 1 for a vehicle according to the state of the art, comprising a carpet surface layer 2 which can be a needled layer or tufted surface and a backing layer 3, for example a layer of latex, thermoplastic, foam or felt, these layers can be laminated together using an adhesive layer. The backing layer can also be a multi-layer system, as known in the art, for enhancing acoustic properties in the car. For example, an insulation layer in the form of a layer of putty together with an elastic layer in the form of a layer of foam or felt can be used. The carpet, as shown, is molded to match the vehicle floor. Molding is done using hot or cold molding as known in the art.
[0037] In comparison, the carpet according to the invention (figure 2) can be sufficient with the needled lining layer according to the invention itself, without the need for the fiber blocking layer and the secondary layer, and will already have an increased abrasion performance.
[0038] If necessary, an adhesive layer 4 can be used to bond the needled coating layer directly to the substrate or other parts of the carriage in need of a needled coating layer. While not necessary, it might be preferable in heavily used areas, for example to use a lightweight fiber blocking system, for example binding fibers in the cladding layer and/or a non-latex backing layer, for example , polyolefins such as LDPE, HDPE, PP or polyolefin dispersions such as Fixamine, and/or a latex backing layer, optionally combined with a LDPE or other thermoplastic polymer material.
[0039] The needled surface 2, according to the invention, can be combined with a mass tensile strength system containing a non-porous heavy layer or mass 5, for example, layer based on EPDM, EVA, PP, PE, such a layer can be filled with minerals, and a break-up layer 6, for example a foam or felt layer. Finally, an adhesive layer 4 could be used between the layers. Furthermore, a combination of the needled coating layer according to the invention with a porous backing layer or a single backing layer in the form of a sound-absorbing layer is an option.
[0040] The needled coating layer, according to the invention, can also be used for a replacement mat in the passenger footwell. Particularly in the area before the front seats, the covering layer can then be combined with non-slip support and possible rubber inlay areas to form such mats, as known in the art. Additionally, these rugs could be molded to match the shape of the area where they are used. sample preparation
[0041] Needled lining layers were produced using a standard industrial scale carpet production line. As indicated, staple fibers were mixed and formed into a stick or mat using carding and transverse coating. The carpet is pre-sewn using simple barbed needles to form a layer of carpet covering. The needle pierced surface layers were subjected to a second step of diour patterning using diour piercing needles. For all samples the same settings were used.
[0042] Samples were coated with latex and LDPE backing, eventually combined with a standard felt backing layer. All samples were made with staple fibers dyed with black solution, as these are used for the production of automotive carpets in general.
[0043] All specimens were tested for abrasion using the taber test in accordance with DIN 53109 or the equivalent SAE J1530. The test was performed on a Taber Abrader testing machine with an H18 grinding disc and 10N press force. First after 300 cycles and then after 1000 cycles, weight loss was measured until the end of the cycles was reached. Other changes in the sample, such as incrustation, were noticed. The test was stopped and the end of cycle mentioned as soon as a hole in the needled surface was observed. Measured weight loss g was normalized to weight loss g for 1000 cycles to allow comparison.
[0044] Reference sample 1: PES solid fibers of about 13 dtex and a discontinuous length of 76 mm were carded or transversely overlaid to form a mat having an area weight.
[0045] Examples according to the invention were made equal to the reference sample using hollow PES. The hollow PES fibers were about 12 dtex, with a discontinuous length of 60 mm. The hollow fiber used has a round cross-section and a void, the void area is round. Samples with 100%, 70% and 30% by weight hollow fibers were made by blending with the same solid PES fibers as used in the reference sample. Although the dtex of both fibers is similar, due to the hollow area in the hollow fibers, this fiber is thicker. Chemical analyzes of the different PES fibers did not show relevant differences between the materials used to produce the different staple fibers.
[0046] All sample measurements had the same area weight for the needled surface layer of about 400 g/m2.
[0047] Figures 4 and 5 show the results of the taber test for all samples as good to roll and as molded part. Figure 4 shows the maximum cycles that could be reached before a first sign of an orifice became visible, while Figure 5 shows the loss in weight g, normalized to 1000 cycles for the same samples.
[0048] Samples with a hollow fiber content of 70% and 100% by weight showed increased overall performance for the same area weight as the needled top layer. The end of cycle found in the good roll state (RG) was even more than double that measured for the 100% solid fiber reference sample, whereas even in the molded carpet (M) the difference between the reference and 100% hollow fiber was almost 2-fold. The rubbed surface did not show a substantial lightening effect, whereas the solid fiber reference sample was lightened to an unacceptable level at the end of the cycle. The weight loss g measured and normalized to 100 cycles showed a considerable reduction for the 70 and 100% by weight hollow fiber samples for both the good roll-up carpet (RG) and the molded carpet (M).
[0049] It appears that a certain percentage by weight of hollow fiber must be present in the sample to obtain the best total abrasion performance, such as increase in maximum cycles and reduction in weight loss g. Based on this and other samples not shown the threshold value is expected to be at least 45 to 50% by weight hollow fibers to have an increase in abrasion performance. Due to the fact that 100% by weight of hollow fibers showed the best performance.
[0050] This is important as for certain car manufacturers a color match is required, considering that staple fibers of different colors are mixed and that a 100% pure weight hollow fiber is not necessary or economical. However, a satisfactory result can still be achieved by using hollow fibers of at least about 50% by weight. These hollow fibers can be blended up to 100% with colored solid fibers and/or bonding fibers depending on the specific customer requirement.
[0051] Comparison of the result with a standard PES carpet as currently sold in the market (results not shown) revealed that at a weight reduction of 200 g/m2 (600 g/m2 for the carpet surface found in the market versus 400 g/m2 for the carpet surface according to the invention) the same abrasion performance could be achieved.
[0052] The sample with 30% hollow fibers shows similar results compared to the reference sample. This could indicate that there is a threshold for the amount of hollow fibers used to make an impact on abrasion performance. Considering the threshold data it is expected to be at least more than 50% by weight of the total fibers used for the needled top layer according to the invention. In comparison, the carpet according to the present invention can suffice with the needled lining layer according to the invention by itself, without the need for the fiber blocking layer and the secondary layer, and will already have an abrasion performance. increased.
[0053] None of the samples, according to the invention, 5 containing more than 50% by weight of hollow fibers showed a substantial lightening effect, while both the market sample and the reference sample showed noticeable lightening of the rubbed surface. This means that the appearance of the carpet over use is not substantially visibly changing in color and will look newer compared to a standard carpet lightening currently on the market. Although some flatness of the top surface also occurred for the specimens according to the invention during the abrasion tests, due to the fact that the color remained the same, the flatness was less evident.

权利要求:
Claims (16)
[0001]
1. Carpet for use in a car comprising at least one lining layer as top layer made of staple fibers, in that the lining layer is reinforced and consolidated by the alternate action of barbed needles repeatedly penetrating the mesh so that the material becomes tangled and thins to become a needled top layer, characterized by the fact that staple fibers comprise hollow fibers and the fact that the hollow fiber content is at least more than 45% by weight of the fibers total discontinuous, preferably up to 100%.
[0002]
2. Carpet according to claim 1, characterized in that the hollow fibers are a mixture of dtex.
[0003]
3. Carpet according to claim 1 or 2, characterized in that the staple fiber content up to 100% is mixed with solid fibers.
[0004]
4. Carpet according to any one of the preceding claims, characterized in that the hollow fibers have a cross-section with at least one void area extending axially along the entire length of the fiber.
[0005]
5. Carpet, according to any one of the preceding claims, characterized in that the hollow fibers have an empty space, based on the cross-section, comprising from 15 to 35% of the total cross-sectional area of the fiber.
[0006]
6. Carpet, according to any one of the preceding claims, characterized in that the external cross-section of the hollow fibers is substantially rounded, circular, trilobal or square.
[0007]
7. Carpet, according to any one of the preceding claims, characterized in that the discontinuous length of all fibers used is between 40 and 120 mm, preferably between 50 and 80 mm.
[0008]
8. Carpet, according to any one of the preceding claims, characterized in that substantially all the staple fibers used are between 4 and 20 dtex, preferably between 7 and 17 dtex.
[0009]
9. Carpet according to any one of the preceding claims, characterized in that hollow staple fibers and other staple fibers up to 100% have a different dtex.
[0010]
10. Carpet, according to any one of the preceding claims, characterized in that the staple fibers used are made of thermoplastic material, preferably one of polyester, including aromatic and aliphatic polyester polymers, preferably polyethylene terephthalate (PET), terephthalate of polybutylene (PBT) or polymethylene terephthalate (PTT), or polypropylene (PP) or polyamide (PA), preferably PA6 or PA66, or polylactic acid (PLA).
[0011]
11. Carpet, according to any one of the preceding claims, characterized in that all the discontinuous fibers are based on the same polymer or family of polymers.
[0012]
12. Carpet according to any one of the preceding claims, characterized in that the needled surface is either a flat or structured surface, such as a fluted surface, velvet, random velvet or a patterned one.
[0013]
13. Carpet according to any one of the preceding claims, characterized in that the needled covering layer has an area weight between 180 to 800 g/m2.
[0014]
14. Carpet according to any one of the preceding claims, characterized in that it further comprises at least one of the following layers, a foam layer, a felt layer, a heavy layer or an adhesive layer.
[0015]
15. Carpet according to any one of the preceding claims, characterized in that the carpet is molded in a 3D format.
[0016]
16. Use of carpet as defined in any of the 5 preceding claims, characterized in that it is in an automotive interior, particularly as a main floor covering, interior panel area, carpet, rear seat, cargo compartment covers, trim of pillar or coverage of areas in the trunk or trunk such as a flat or modular carpet.

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法律状态:
2018-03-06| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2018-03-13| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2018-03-20| B06I| Publication of requirement cancelled [chapter 6.9 patent gazette]|Free format text: ANULADA A PUBLICACAO CODIGO 6.6.1 NA RPI NO 2462 DE 13/03/2018 POR TER SIDO INDEVIDA. |

2019-10-01| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-04-06| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|

2021-07-27| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-09-14| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 07/05/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

EP12167999.7A|EP2664702B1|2012-05-15|2012-05-15|Needle punched carpet|

EP12167999.7|2012-05-15|

PCT/EP2013/059501|WO2013171099A1|2012-05-15|2013-05-07|Needle punched carpet|

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