JP4813667B2 - Interior carpet and method for producing interior carpet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an interior carpet and a method for producing the same.To the lawIn particular, the present invention relates to an interior carpet that can reduce noise intrusion and can reduce the number of installation steps, and a method for manufacturing the same.
[0002]
[Prior art]
  In recent years, automobile interior carpets are required not only for the purpose of decorating automobile interiors, but also for having the ability to reduce noise that enters the vehicle interior from outside. Conventionally, for example, an interior carpet 100 provided on a floor portion of an automobile includes a carpet sheet 101 and a resin felt 102 bonded to the back surface thereof as shown in FIG. The interior carpet 100 is laid on a raising material 103, and the raising material 103 is placed on an asphalt sheet 105 fused to a floor panel 104 of an automobile. The raising material 103 is for adjusting the floor level, which is the distance from the car seat to the interior carpet 100, and is made of lightweight foamed PP (polypropylene).
[0003]
[Problems to be solved by the invention]
  However, with the above-described raising member 103, it is possible to reduce road noise during driving of the automobile, or noise generated due to vibration transmitted from the undercarriage, engine vibration, or the like from entering the vehicle interior from the floor panel 104 side. Can not do it. Therefore, fiber components such as natural, chemical, and mineral are defibrated, and resin felt 102 that is heat compression molded with phenol resin is bonded to the back side of the interior carpet 101 to reduce noise entering the vehicle interior. Yes. However, the resin felt 102 has a problem of deteriorating the working environment because the fiber component constituting the resin felt 102 is scattered in the form of dust at the production site of the interior carpet 101, and the phenol resin. This is not desirable from the viewpoint of environmental problems. Furthermore, in the interior carpet 101 described above, since it is necessary to perform the mounting of the raising material 103 and the mounting of the interior carpet 101 separately in the mounting process to the automobile, the productivity decreases as the number of mounting steps increases. There was a problem of doing.
[0004]
  The present invention has been made to solve the above-described problems, and provides an interior carpet that can reduce noise intrusion and can reduce the number of mounting steps, and a method for manufacturing the same. It is aimed.
[0005]
[Means for Solving the Problems]
  In order to achieve this object, the interior carpet according to claim 1 includes a skin layer laminated on the surface, and a back layer made of a thermoplastic polymer fused to the back side of the skin layer. Molded by heating a first flocculent body obtained by mixing a melting point fiber material and a low melting point fiber material having a melting point lower than that of the high melting point fiber material at a predetermined ratio at a temperature equal to or higher than the melting point of the low melting point fiber material. The first cotton form before forming the cushion layer and the second cotton-like body in which the mixing ratio of the low-melting fiber material to the high-melting-point fiber material is larger than that of the first cotton-like body into the cushion layer. Layered on the body and heated together with the first flocculent body at a temperature equal to or higher than the melting point of the low-melting fiber material.RiseiHard layer formed andThe second cotton-like shape before the third cotton-like body, in which the mixing ratio of the high-melting-point fiber material and the low-melting-point fiber material is the same as that of the first cotton-like body, is formed into the hard layer. The hard layer and the cushion layer are laminated by heating at a temperature equal to or higher than the melting point of the low-melting fiber material together with the second cotton body and the first cotton body before being formed into the cushion layer. And an intervening layer molded integrally withThe fiber assembly is provided with a fiber assembly havingIntervening layerIs fused to the opposite side of the skin layer in the back layerThe hard layer is provided between the interposed layer and the cushion layer.ing.
[0006]
  According to the interior carpet of the first aspect, the first flocculent body in which the high melting point fiber material and the low melting point fiber material are mixed at a predetermined ratio is heated at a temperature equal to or higher than the melting point of the low melting point fiber material. Therefore, by melting the low melting point fiber material, a first fiber assembly in which the fiber material is partially fused is obtained. Therefore, the first fiber assembly has a gap between the fiber materials for deformation of the fiber material, and a cushion layer is formed by the first fiber assembly. Further, the second cotton-like body in which the mixing ratio of the low melting point fiber material is larger than that of the first cotton-like body is laminated on the first cotton-like body before being formed into the first fiber assembly, and the first cotton-like body. At the same time, it is heated at a temperature equal to or higher than the melting point of the low-melting fiber material, is molded integrally with the first fiber aggregate, and becomes a second fiber aggregate in which the fiber material is partially fused by melting the low-melting fiber material. However, the second fiber assembly has fewer gaps for deformation of the fiber material formed between the fiber materials than the cushion layer (that is, there are many fusion parts between the fiber materials). Therefore, a hard layer having higher rigidity than the cushion layer is formed by the second fiber assembly.
  In addition, the third cotton-like body in which the mixing ratio of the high-melting fiber material and the low-melting-point fiber material is the same as that of the first cotton-like body is the second cotton shape before being formed into the second fiber aggregate. The first and second fibers are heated at a temperature equal to or higher than the melting point of the low-melting fiber material together with the first cotton and the first cotton before being formed into the second and first fibers. The third fiber assembly is formed integrally with the body, and the fiber material is partially fused by melting of the low-melting fiber material. This third fiber aggregate has the same properties as the first fiber aggregate, but in other words, there are many high melting point fiber materials that maintain the fiber state (that is, fibers protruding from the surface of the interposed layer). There are many items). By this third fiber assembly, an intervening layer provided between the back surface layer and the hard layer is formed, and the fiber assembly including the cushion layer, the hard layer, and the intervening layer,ThatInterventionFused to the back layer so that the layer is on the opposite side of the skin layerThe hard layer is provided between the interposed layer and the cushion layer.
[0007]
[0008]
[0009]
  Claim2The interior carpet described is the claim1In the interior carpet described above, the mixing ratio of the low-melting-point fiber material in the first cotton-like body and the third cotton-like body is based on the total weight of the first cotton-like body.20% by weight or moreTop 40% by weight or less, and the mixing ratio of the low-melting-point fiber material in the second flocculent body is based on the total weight of the second flocculent body.6It is 0 to 100% by weight.
[0010]
  Claim3The interior carpet according to claim 1.Or 2In the interior carpet described in 1), the low melting point fiber material has a thermoplastic polymer having a melting point lower than that of the high melting point fiber material on at least an outer surface.
[0011]
  Claim3According to the described interior carpet, claim 1Or 2The thermoplastic polymer of the low-melting fiber material is melted by heating, and the fibers are fused at the contact points.
[0012]
  Claim4The interior carpet according to claim 1 from3In the interior carpet according to any one of the above, the low-melting-point fiber material includes a core portion provided at the center of the cross section and a sheath portion that is circumferentially attached to the outer surface of the core portion, and the sheath portion is the core. It is formed of a thermoplastic polymer having a lower melting point or softening point than the part.
[0013]
  Claim4According to the interior carpet described above, from claim 13In addition to acting in the same manner as the interior carpet described in any of the above, the thermoplastic polymer of the low-melting fiber material is melted by heating, and the fibers are fused at the contact point.
[0014]
  Claim5The interior carpet according to claim 1 from4In the interior carpet according to any one of the above, the fiber aggregate includes a waterproof film having a waterproof property, and the waterproof film is fused to the opposite side of the hard layer in the cushion layer.
[0015]
  Claim5According to the interior carpet described above, from claim 14In addition to the same effect as the interior carpet described in any of the above, when water or the like is condensed on the floor panel surface, the water or the like entering the cushion layer from the floor panel is blocked by the waterproof film.
[0016]
  Claim6The interior carpet described is the claim5In the interior carpet described above, the waterproof film is provided between a first layer formed of a polyester-based resin, a second layer formed of linear low-density polyethylene, and the second layer and the first layer. And an adhesive layer formed of an ethylene-based resin for adhering the first and second layers.
[0017]
  Claim6According to the described interior carpet, the claim5The first layer formed of a polyester resin and the second layer formed of a linear low density polyethylene are bonded together by an ethylene resin in addition to the same function as the interior carpet described. A waterproof sheet is formed by such adhesion.
[0018]
  Claim7The method for producing an interior carpet according to the first cotton-like body in which a high melting point fiber material and a low melting point fiber material having a melting point lower than that of the high melting point fiber material are mixed at a predetermined ratio, and the high melting point of the low melting point fiber material. A second cotton-like body having a larger mixing ratio with respect to the fiber material than the first cotton-like body is laminated in the mold.In addition, a third cotton-like body in which the mixing ratio of the high-melting-point fiber material and the low-melting-point fiber material is the same as that of the first cotton-like body is used as the first cotton-like body in the second cotton-like body. Laminate on the other side ofThe first cotton-like body and the second cotton-like body are laminated by the lamination step and the lamination step.And the third cotton-like body is laminated on the opposite side of the second cotton-like body to the first cotton-like body.The molded mold is heated by heating at a temperature equal to or higher than the melting point of the low-melting fiber material, and the low-melting fiber material of the first flocculent body is melted, and the low-melting fiber material of the second flocculent body is molded Because it meltsRiseiHard layer formed andAn interposed layer formed integrally with the cushion layer and the hard layer by melting the low melting point fiber material of the third cotton-like body;A temporary forming step of forming a fiber assembly having a predetermined shape into a predetermined shape, an arrangement step of taking out the fiber assembly formed by the temporary forming step and placing it in a pressure die, a skin layer and a back layer, A heating step of heating the back surface layer side of the carpet sheet to which the resin is fused, and the fiber assembly arranged in the pressure mold by the arranging stepIntervening layerA placing step of placing the carpet sheet heated by the heating step toward the back layer side, and pressing the pressure mold in which the fiber aggregate and the carpet sheet are laminated by the placing step A pressurizing step of fusing the fiber assembly and the carpet sheet together to form them integrally.
[0019]
[0020]
  Claim8The method for producing the interior carpet as described in claim7In the method for manufacturing an interior carpet as described above, the laminating step includes,in frontThe first cotton-like bodyWhenSaid second cotton-like bodyAnd the third cottonIn addition to the above, the waterproof film having waterproof properties is put into the mold so that the waterproof film is laminated on the opposite side of the first cotton-like body to the second cotton-like body. A mold in which the waterproof film is laminated on the opposite side of the second cotton-like body in the first cotton-like body according to the process is heated at a temperature equal to or higher than the melting point of the low-melting-point fiber material. The cushion layer formed by melting the melting point fiber material and the low melting point fiber material of the second flocculent body are melted.RiseiA hard layer to be formed;An interposed layer formed integrally with the cushion layer and the hard layer by melting the low-melting fiber material of the third cotton-like body;The waterproof film fused to the opposite side of the hard layer in the cushion layer;HaveThe fiber assembly to be formed is formed into a predetermined shape.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a perspective view of an interior carpet 1 according to an embodiment of the present invention. In order to facilitate understanding, the raising members 3a to 3d are illustrated separated from the back side of the carpet sheet 2. FIG.
[0022]
  The interior carpet 1 is laid under the foot of the passenger compartment, which is the passenger's living space, and is mainly used for applications such as interior decoration, reduction of noise entering the passenger compartment, or adjustment of the floor level. belongs to. The interior carpet 1 includes a carpet sheet 2 and a raising material 3 and is integrally formed in a shape corresponding to a floor panel (see FIG. 2) of an automobile. The carpet seat 2 is laid under the feet of the seat to decorate the interior of the vehicle. The carpet seat 2 is disposed corresponding to the feet of the passenger seat and the driver seat portion 2a disposed corresponding to the feet of the driver seat. The passenger seat portion 2b and the rear seat portions 2c and 2d arranged corresponding to the feet of the rear seat are formed in a flat plane shape and separated from other portions.
[0023]
  On the back side of the carpet sheet 2 (the lower side in FIG. 1), the raising material 3 is fused. The raising material 3 supports the occupant's feet when the occupant gets into the passenger compartment, and adjusts the floor level from the seat (not shown) to the floor surface (carpet seat 2), so that the occupant can sit comfortably. This is to make it possible to obtain a posture. The raising member 3 includes a driver's seat raising member 3a, a passenger's seat raising member 3b, and rear seat raising members 3c, 3d. Are fused to the back side of the driver seat 2a, the passenger seat 2b, and the rear seats 2c and 2d of the carpet sheet 2, respectively. Next, with reference to FIG. 2, the detail of the interior carpet 1 which consists of these carpet sheets 2 and the raising material 3 is demonstrated.
[0024]
  2 is a partial cross-sectional view taken along line II-II in FIG. In addition, although the cross section of the interior carpet 1 is demonstrated using the cross section in the passenger seat part 2b of the carpet sheet 2 and the passenger seat raising material 3b of the raising material 3 as a representative example, other parts (for example, the carpet sheet 2) The cross sections of the driver seat portion 2a and the raising member 3 of the raising member 3a) have the same configuration. In addition, FIG. 2 schematically shows each component member, and thus the thickness dimension is different from the actual dimension. In particular, the waterproof film 9 is illustrated in an enlarged manner from the actual thickness dimension. Yes.
[0025]
  As shown in FIG. 2, the interior carpet 1 is placed on an asphalt sheet 5 fused to the floor panel 4, and the carpet sheet 2, an interposed layer 6 composed of a fiber assembly, and a hard layer. 7 and the cushion layer 8 and a waterproof film 9 having waterproof properties are integrally formed. A carpet sheet 2 is arranged on the front surface side (upper side in FIG. 2) of the interior carpet 1, and an intervening layer 6 is fused on the rear surface side (lower side in FIG. 2) of the carpet sheet 2. Yes. A hard layer 7 having a predetermined thickness is laminated below the intervening layer 6 (lower side in FIG. 2), and below the hard layer 7 (lower side in FIG. 2) along the uneven shape of the floor panel 4. The cushion layer 8 formed in a different shape is laminated. Further, a waterproof film 9 is laminated on the cushion layer 8 on the bottom surface side (asphalt sheet 5 side) of the interior carpet 1.
[0026]
  The carpet sheet 2 is formed in a two-layer structure of a skin layer 10 made of a fibrous body and a back surface layer 11 fused to the back surface side (the lower side in FIG. 2) of the skin layer 10. Synthetic fibers such as polyester, polyacrylonitrile, polyamide, polypropylene, polyethylene, and polyvinyl alcohol are used for the skin layer 10, and polyester fibers are used for the skin layer 10 in this embodiment. The fibers constituting the skin layer 10 are backed and reinforced by a back layer 11 made of a thermoplastic polymer fused to the back side. For the back surface layer 11 in this embodiment, a thermoplastic polymer composed of EVA (ethylene vinyl acetate copolymer) and calcium carbonate is used. Instead of this, a thermoplastic polymer such as polyethylene may be used.
[0027]
  As raw materials for the intervening layer 6, the hard layer 7 and the cushion layer 8, synthetic fiber cotton such as polyester, polyacrylonitrile, polyamide, polypropylene, polyethylene, and polyvinyl alcohol is used. The raising materials 3a to 3b of the present embodiment are made from polyester fibers that are high in heat resistance, stable in quality, and easily available. However, instead of polyester fiber, other synthetic fiber cotton may be used as a raw material for the raising materials 3a to 3b. Moreover, it is good also as a raw material of the raising materials 3a-3b by mixing 2 or more types of synthetic fiber cotton.
[0028]
  The fiber assembly constituting the intervening layer 6, the hard layer 7 and the cushion layer 8 includes a high melting point polyester fiber (hereinafter referred to as “high melting point fiber”) and a low melting point polyester fiber (hereinafter referred to as “low melting point fiber”). Are mixed at a predetermined ratio and heated. Here, the high melting point and the low melting point do not mean that the melting point is absolutely higher or lower than that of a general polyester material, but the relative melting point difference between the high melting point fiber and the low melting point fiber. Say. The melting point of the low melting point fiber is preferably at least 20 ° C. lower than the melting point of the high melting point fiber, and more preferably 30 ° C. or higher. This is because if the temperature difference between the melting points becomes small, the entire fiber aggregate may be softened and the shape of the fiber aggregate cannot be maintained when the fiber aggregate is formed by heat treatment to be described later.
[0029]
  Specifically, the high melting point fiber is a tow-like polyester fiber (fiber thickness 0.75 to 65 denier, fiber length 35 to 80 mm), and the low melting point fiber is a core-sheath type tow-like polyester composite fiber. (Fiber thickness 1.5-6 denier, fiber length 10-55 mm). The core-sheath type structural fiber is generally used and is excellent in terms of distribution and cost performance. The sheath of the polyester composite fiber (low-melting fiber material) is a low-melting point copolyester produced by mixing isophthalic acid at the time of polycondensation with a pipe-in pipe or the like. Therefore, when the heat treatment is performed at 110 to 220 ° C., the sheath portion is melted and each fiber is fused (adhered) at the contact point. For this reason, by increasing the mixing ratio of the polyester composite fibers, the degree of fusion can be increased, and a highly rigid fiber aggregate can be obtained. Depending on the product, it is also possible to form a fiber assembly only with polyester composite fibers by setting the mixing ratio of polyester composite fibers to 100% by weight. On the other hand, by reducing the mixing ratio of the polyester composite fibers, the degree of fusion can be reduced, and a fiber aggregate having a high cushioning property can be obtained. Thus, by using a polyester composite fiber, the mixing ratio can be adjusted, and the rigidity and cushioning properties of the fiber assembly can be adjusted.
[0030]
  The intervening layer 6 is for firmly fusing the raising materials 3 a to 3 d to the back surface side of the carpet sheet 2, and is interposed between the hard layer 7 described later and the back surface layer 11 of the carpet sheet 2. ing. The intervening layer 6 is made of a fiber assembly formed by mixing high-melting fibers with low-melting fibers at a ratio of 20 to 40% by weight of the total weight and heating. In addition, since the mixing ratio of the high melting point fiber and the low melting point fiber is the same mixing ratio as the cushion layer 8 described later, the fiber material used for the cushion layer 8 described later can be diverted. There is no need to mix fiber material for the intervening layer 6. In this fiber assembly, the content of the low-melting-point fibers is less than 40% by weight of the total weight, so that the fusion part between the fibers does not become excessive. Therefore, since this fiber assembly has many high melting point fiber materials that maintain a fibrous shape, the number of fibrous objects (that is, high melting point fiber materials) protruding from the surface of the interposition layer 6 is large. . As will be described later, the back surface layer 11 of the heated carpet sheet 2 is brought into contact with the interposed layer 6 and pressed. In this case, in the contact surface between the interposed layer 6 and the back surface layer 11 of the carpet sheet 2, the high melting point fiber material protruding from the surface of the interposed layer 6 is embedded in the back surface layer 11 of the carpet sheet 2, The interposition layer 6 is firmly fused to the carpet sheet 2 by the anchor effect due to the embedding of the high melting point fiber material. Therefore, the raising materials 3 a to 3 d can be firmly fused to the carpet sheet 2.
[0031]
  The hard layer 7 is disposed on the upper surface side (the carpet sheet 2 side) of the raising materials 3a to 3d, and is for exhibiting the rigidity of the raising materials 3a to 3d. The hard layer 7 is made of a fiber assembly formed by mixing high-melting fibers with low-melting fibers at a ratio of 60 to 100% by weight of the total weight and heating. Since this fiber assembly contains 60% by weight or more of the low melting point fiber, the degree of fusion between the fibers is sufficiently secured. Therefore, since this fiber aggregate has few gaps between the fibers for deforming the fibers of the fiber aggregate when subjected to an external force, sufficient rigidity is obtained, and the mechanical strength as a raising material is obtained in the hard layer 7. Is given. In addition, it is preferable to use a thin fiber as much as possible for the high melting point fiber and the low melting point fiber blended in the hard layer 7. By using fine fibers, the number of fibers in the fiber aggregate increases and the number of fused portions (joining points) increases, so that the fiber aggregate becomes a dense layer and the rigidity of the fiber aggregate can be improved. Because.
[0032]
  Further, by arranging such a hard layer 7 having high rigidity on the upper surface side (carpet sheet 2 side) of the raising members 3a to 3d, a floor panel that the occupant feels under the feet when the occupant gets into the passenger compartment. 4 can be removed, and it is possible to prevent deterioration in treading comfort when riding due to the sinking of the raising materials 3a to 3d.
[0033]
  Further, as described above, the hard layer 7 is formed of a fiber assembly having a dense layer in which the degree of fusion between fibers is sufficiently secured. Therefore, even when the noise is not sufficiently absorbed by the cushion layer, which will be described later, and is transmitted, the noise can be reflected by this dense layer, so that the noise entering the vehicle interior from the floor panel 4 side can be reduced, It is possible to prevent the passenger from feeling uncomfortable.
[0034]
  And the position of the interior carpet 1 can be freely set by adjusting the thickness dimension of this hard layer 7 and the cushion layer 8 mentioned later. That is, the floor level that is the distance from the seat to the carpet seat 2 can be adjusted, and a comfortable seating posture can be provided to the occupant.
[0035]
  The cushion layer 8 is formed in a shape along the concave-convex shape of the floor panel 4 and is disposed on the lower surface side (floor panel side) of the raising members 3a to 3d, and has a cushioning property to absorb external force. The cushion layer 8 is composed of a fiber assembly formed by mixing high-melting fibers with low-melting fibers at a ratio of 20 to 40% by weight of the total weight and heating. In the fiber assembly, the low-melting-point fiber functions as a binder for binding the fibers constituting the fiber assembly. When the content of the low melting point fiber is less than 20% of the total weight, the effect as a binder is weakened. However, in the cushion layer 8 in this embodiment, the low melting point fiber is 20% by weight or more of the total weight. Since it is contained, the effect as a binder is sufficiently exhibited, and good shape retention of the fiber aggregate can be obtained.
[0036]
  Further, in this fiber assembly, the content ratio of the low melting point fibers is less than 40% by weight of the total weight, so that the fusion part between the fibers does not become excessive. Therefore, since an appropriate gap can be secured between the fiber materials, the cushion layer 8 can obtain sufficient cushioning properties.
[0037]
  Further, by arranging the cushion layer 8 having such cushioning properties on the lower surface side (floor panel 4 side) of the raising members 3a to 3d, vibration of the floor panel 4 caused by engine vibration or the like during driving or idling. Can be absorbed by the cushioning layer 8 of the raising materials 3a to 3d, so that it is possible to prevent the occupant from feeling uncomfortable vibration under the feet. Furthermore, since the cushion layer 8 can absorb noise by the gap between the fibers formed in the cushion layer 8, that is, a dense space, it is possible to reduce the noise entering the vehicle interior from the floor panel 4 side. It is possible to prevent the user from feeling uncomfortable.
[0038]
  The waterproof film 9 is for blocking water or the like entering the vehicle interior. This waterproof film 9 is formed in a three-layer structure, a film layer formed of a polyester resin and laminated on the cushion layer 8 side, and a film formed of linear low density polyethylene and laminated on the floor panel 4 side And an ethylene-based resin that is sandwiched between these film layers and adheres to these film layers. In addition, laminating | stacking the film layer formed with a polyester-type resin on the cushion layer 8 side in the waterproof film 9 is low melting | fusing point contained in the cushion layer 8 when manufacturing the raising materials 3a-3d so that it may mention later. This is because the sheath of the fiber is heated and melted to adhere (fuse) the waterproof film 9 and the cushion layer 8 to each other.
[0039]
  The linear low density polyethylene laminated on the floor panel 4 side of the waterproof film 9 is excellent in oil resistance, heat resistance and cold resistance. Therefore, it is possible to maintain stable physical properties at all times even in automobiles where a lot of lubricating oil, drive grease, etc. are used, and a wide temperature range is assumed from when there is traffic in midsummer to when snowing in winter. is there.
[0040]
  By disposing the waterproof film 9 configured in this manner between the cushion layer 8 of the raising members 3a to 3d and the floor panel 4, it is possible to block water or the like entering the vehicle interior from the floor panel 4 side. it can. When the vehicle interior is warmed by a heating device or the like in a cold season such as winter, the vehicle interior side (upper side in FIG. 2) of the floor panel 4 (or asphalt seat 5) that partitions the vehicle interior from the exterior Water vapor inside condenses and forms water droplets (condensation). When water droplets adhere to the surface of the floor panel 4 (or asphalt sheet 5), the water droplets are sucked between the fibers of the fiber assembly constituting the raising materials 3a to 3d and remain for a long time. Therefore, the vehicle interior can be kept clean by blocking the intrusion of water or the like with the waterproof film 9, and the metal member or the like can be prevented from being rusted by moisture remaining in the fiber assembly. .
[0041]
  As described above, since the carpet sheet 2 and the raising materials 3a to 3d are integrally formed on the interior carpet 1, in the attaching step of attaching the carpet sheet 2 and the raising materials 3a to 3d to the automobile, There is no need to install each separately. Therefore, the man-hour for attaching the interior carpet 1 can be reduced, and the production efficiency can be improved. Moreover, since the shape retaining property of the carpet sheet 2 is improved by the fusion of the raising materials 3a to 3d, it is possible to prevent the appearance of the interior carpet 1 from being damaged due to the carpet sheet 2 wavy. It is. Furthermore, the noise which invades into the passenger compartment can be reduced by the integrally formed raising members 3a to 3d.
[0042]
  Next, the manufacturing method of the interior carpet 1 comprised as mentioned above is demonstrated. As described above, the interior carpet 1 of this embodiment is integrally formed from the carpet sheet 2 and the four raising materials 3a to 3d fused to the carpet sheet 2 (see FIG. 1). The raising materials 3a to 3d are manufactured.
[0043]
  A high-melting fiber and a low-melting fiber are mixed in the above-described ratio, and the mixed fiber is pressed to form a sheet-shaped cushion layer web (first cotton-like body) and a hard layer web having a predetermined thickness. A (second cotton-like body) and an intervening layer web (third cotton-like body) are formed. In the laminating step, the waterproof film 9 is set in a preheated mold, and the cushion layer web, the hard layer web, and the interposition layer web are sequentially laminated in the mold.
[0044]
  The mold in which these materials are set is sent to a temporary molding process. In the temporary molding step, hot air or steam is fed into the mold. Thereby, each material set to the shaping | molding die is heated about 2 to 6 minutes by the atmospheric temperature of 90-220 degreeC. By this heat treatment, the sheaths of the low melting point fibers contained in the cushion layer web, the hard layer web, and the interposition layer web are melted, and the fibers are fused to each other. By this fusion, the cushion layer 8, the hard layer 7, and the intervening layer 6 are formed, and the waterproof film 10 is fused to the cushion layer 8. Further, the cushion layer 8, the hard layer 7, and the hard layer 7 and the intervening layer 6 are fused to each other (see FIG. 2).
[0045]
  The mold is then cooled by a cooling process. In the cooling process, cooling air is sent into the mold and cooled. The fibers melted by this cooling are hardened, and the raising materials 3 a to 3 d are formed into a predetermined shape corresponding to the floor panel 4. The raising materials 3a to 3d manufactured by the above steps have a predetermined mechanical strength (rigidity) and cushioning properties by a fiber assembly in which fibers are fused to each other at their contact points. In addition, a shaping | molding die is the structure of 4 picking which can shape | mold four raising materials 3a-3d simultaneously, or the structure of more than that, or the structure of one piece shape | molded for each raising material 3a-3d. There may be.
[0046]
  The raising materials 3a to 3d molded by the temporary molding process are sent to the arrangement process. In the arranging step, the raising materials 3a to 3d taken out from the molding die are arranged at predetermined positions of the pressure die. The pressurization mold is formed in a shape corresponding to the floor panel 4, and the raising materials 3a to 3d formed in a shape corresponding to the floor panel 4 are arranged at predetermined positions of the pressurization mold in the same manner as the pressurization mold. By this, it is brought into intimate contact with the surface shape of the pressure mold.
[0047]
  The carpet sheet 2 is sent to a heating step in a flat sheet state, and the back surface layer 11 laminated on the back surface side of the skin layer 10 is heated by a heater. The heater has a heating surface on which a plurality of far-infrared ceramic heaters are arranged, and this heating surface is formed in an area substantially equal to the sheet-like carpet sheet 2. The carpet sheet 2 is held such that the back layer 11 side faces the heating surface side of the heater with a predetermined interval. Thereby, the back surface layer 11 of the carpet sheet 2 is heated for about 35 to 60 seconds by the heating surface of the heater heated to about 300 to 400 ° C.
[0048]
  The heated carpet sheet 2 is sent to the placing process, and placed on the raising materials 3a to 3d arranged in the pressure mold. At that time, the carpet sheet 2 is placed with the heated back surface layer 11 facing the intermediate layer 6 of the raising materials 3a to 3d.
[0049]
  And the pressurization type | mold with which the raising materials 3a-3d and the carpet sheet 2 were laminated | stacked is mold-closed, and is pressurized by a pressurization process. By this pressurization, the carpet sheet 2 is formed into a predetermined shape corresponding to the floor panel 4 (see FIG. 2), and the heated back surface layer 11 of the carpet sheet 2 and the interposed layers 6 of the raising materials 3a to 3d. Are fused. The pressure die is cooled by cooling water in a cooling water flow path embedded in the die, and the carpet sheet 2 and the raising materials 3a to 3d in the pressure die are cooled, whereby the carpet sheet 2 and the raising material are cooled. The interior carpet 1 in which 3a to 3d are integrally formed is manufactured.
[0050]
  The present invention has been described based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various improvements and modifications can be easily made without departing from the spirit of the present invention. It can be guessed.
[0051]
  For example, in the present embodiment, the case where the interior carpet 1 is used in an automobile has been described. However, the present invention is not necessarily limited to this, and the interior carpet 1 may be used for other transportation facilities. For example, it may be used for interior carpets such as airplanes and trains.
[0052]
  Moreover, although it is desirable for the carpet sheet 2 and the raising material 3 to be fused via the intervening layer 6 in order to ensure the bonding strength, the carpet sheet 2 and the raising material 3 are not necessarily fused via the intervening layer 6. Also good. That is, the intervening layer 6 may be omitted, and the carpet sheet 2 and the hard layer 7 may be fused.
[0053]
  Moreover, although the interior carpet 1 of a present Example was set as the structure provided with the four raising materials 3a-3d, naturally it is set as the structure provided with only one raising material, or provided with four or more raising materials. Is possible. For example, in the case of a two-seater automobile, it may be configured to include two raising materials corresponding to the driver seat and the passenger seat.
[0054]
  Moreover, as for the component (for example, hard layer and cushion layer) of the raising material 3, each component does not need to mutually join the whole surface. That is, for example, the cushion layer 8 of the passenger seat side raising member 3b (see FIG. 2) is separated into two parts, a front part (left side in FIG. 2) and a rear part (right side in FIG. 2) of the hard layer 7. It may be joined to the hard layer 7. Further, for example, the rear seat raising member 3c and the rear seat raising member 3d shown in FIG. 1 may be integrated with each other only by a hard layer.
[0055]
  Further, the interior carpet 1 is configured such that the waterproof film 9 is laminated on the floor panel 4 side, but may be configured such that the lamination with the waterproof film 9 is omitted. As a result, the manufacturing cost can be reduced by one waterproof film.
[0056]
  In addition, the low melting point fiber has been described as a core-sheath structure fiber whose sheath portion is a low melting point copolymer polyester, but if the low melting point copolymer polyester is disposed on at least the outer surface of the high melting point fiber, Naturally, composite fibers such as a mold, chrysanthemum type, and bonded type are possible.
[0057]
【The invention's effect】
  According to the interior carpet of the first aspect, the fiber aggregate is fused on the back surface layer side of the carpet sheet composed of the skin layer and the back surface layer. Therefore, since it is not necessary to separately attach the carpet sheet and the fiber assembly in the attachment process for attaching the carpet sheet and the fiber assembly to, for example, an automobile, there is an effect that the number of attachment steps can be reduced. Furthermore, since the fiber aggregate is fused to the carpet sheet, the shape retention of the carpet sheet is improved, so that the appearance of the carpet sheet can be prevented from being damaged due to the wave of the carpet sheet. There is.
[0058]
  In the cushion layer of the fiber assembly, the fiber material is partially fused, and a sufficient gap is formed between the fiber materials. That is, the cushion layer can absorb noise due to the dense space formed in the cushion layer. Therefore, there is an effect that intruding noise can be reduced.
[0059]
  In addition, the hard layer of the fiber assembly has high rigidity because there are few gaps between the fiber materials (many fusion parts between the fiber materials). Therefore, it is possible to remove the unevenness of the floor panel that humans feel when stepping on the interior carpet, and further, it is possible to prevent deterioration of the stepping comfort when stepping on due to the sinking of the interior carpet. . Furthermore, the hard layer is formed of a dense layer in which the degree of fusion between the fibers is sufficiently secured. That is, the hard layer can reflect noise by the dense layer formed on the hard layer. Therefore, there is an effect that intruding noise can be reduced.
[0060]
  And there exists an effect that the position of an interior carpet can be freely set by adjusting the thickness dimension of a fiber integrated body.
[0061]
  Also,There are many high melting point fiber materials that maintain the fibrous shape of the intervening layer of the fiber assembly (that is, the number of fibrous objects protruding from the intervening layer surface is large). Therefore, in the fusion surface between the intervening layer and the back surface layer of the carpet sheet, the high melting point fiber material of the intervening layer is embedded in the back surface layer, and the anchor effect due to the embedding of the high melting point fiber material, There is an effect that the fiber aggregate can be firmly fused to the carpet sheet.
[0062]
  Claim2According to the described interior carpet, the claim1In addition to the effects of the interior carpet, the first cotton-like body has a low-melting fiber material2Since it is contained in an amount of 0% by weight or more, the effect as a binder for binding the fiber material constituting the cushion layer is improved, and there is an effect that good shape retention can be obtained. Furthermore, the content of low melting point fiber material4Since it is less than 0% by weight, an appropriate gap can be ensured between the fiber materials without causing excessive fusion between the fiber materials, so that there is an effect that sufficient cushioning properties can be obtained.
[0063]
  On the other hand, the second cotton-like body has a low melting point fiber material.6Since it is contained in an amount of 0% by weight or more, the gap between the fiber materials is reduced by increasing the number of fused portions between the fiber materials, so that sufficient rigidity can be obtained. Therefore, there is an effect that sufficient mechanical strength can be obtained.
[0064]
  In addition, the third flocculent body is the content of the low melting point fiber material4Since it is less than 0% by weight, it is possible to secure a high-melting-point fiber material that maintains the fiber state without excessively bonding the fiber materials to each other, which is sufficient for fusion with the back surface layer of the carpet sheet. There is an effect that an anchor effect can be obtained. Further, since the third cotton-like body is composed of the same mixing ratio of the low-melting fiber material and the high-melting-point fiber material as the first cotton-like body, a separate cotton-like body is used in forming the interposition layer. There is an effect that the 1st cotton-like object can be used without preparing.
[0065]
  Claim3According to the described interior carpet, claim 1Or 2In addition to the effect exhibited by the interior carpet described in 1), the high melting point fiber material and the low melting point fiber material can be fused at the contact point by heating to a temperature at which only the low melting point fiber material melts. Therefore, by adjusting the mixing ratio of the high-melting fiber material and the low-melting fiber material, it is possible to adjust the cushioning property of the cushion layer, the rigidity of the hard layer, the number of the high-melting fiber material protruding from the interposed layer, and the like. There is an effect that can be done.
[0066]
  Claim4According to the interior carpet described above, from claim 13In addition to the effect of the interior carpet described in any of the above, generally used core-sheath structure fibers can be used. Therefore, in producing a fiber assembly, there is an effect of excellent flowability and cost performance.
[0067]
  Claim5According to the interior carpet described above, from claim 14In addition to the effect of the interior carpet according to any one of the above, moisture and the like condensed on the floor panel surface are sucked into the cushion layer by the waterproof waterproof film fused to the opposite side of the hard layer in the cushion layer There is an effect that can be prevented.
[0068]
  Claim6According to the described interior carpet, the claim5In addition to the effects produced by the interior carpet described above, the linear low density polyethylene forming the second layer of the waterproof film is excellent in oil resistance, heat resistance and cold resistance. Therefore, it is possible to always maintain stable waterproofing even in environments where a large temperature range is assumed from when there is heavy traffic in midsummer to when snowing in midwinter when lubricating oil, drive grease, etc. are used. There is an effect.
[0069]
  Claim7According to the method for producing an interior carpet described above, the cushion layer and the hard layerInterstitial layer andIs formed by a temporary forming process, and the fiber integrated body and the carpet sheet can be integrally formed by a pressing process. Therefore, since it is not necessary to separately attach the carpet sheet and the fiber assembly in the attachment process for attaching the carpet sheet and the fiber assembly to, for example, an automobile, there is an effect that the number of attachment steps can be reduced. Furthermore, since the fiber aggregate is fused to the carpet sheet, the shape retention of the carpet sheet is improved, so that the appearance of the carpet sheet can be prevented from being damaged due to the wave of the carpet sheet. There is.
[0070]
  In the cushion layer of the fiber assembly, the fiber material is partially fused, and a sufficient gap is formed between the fiber materials. That is, the cushion layer can absorb noise due to the dense space formed in the cushion layer. Therefore, there is an effect that intruding noise can be reduced.
[0071]
  In addition, the hard layer of the fiber assembly has high rigidity because there are few gaps between the fiber materials (many fusion parts between the fiber materials). Therefore, it is possible to remove the unevenness of the floor panel that humans feel when stepping on the interior carpet, and further, it is possible to prevent deterioration of the stepping comfort when stepping on due to the sinking of the interior carpet. . Furthermore, the hard layer is formed of a dense layer in which the degree of fusion between the fibers is sufficiently secured. That is, the hard layer can reflect noise by the dense layer formed on the hard layer. Therefore, there is an effect that intruding noise can be reduced.
[0072]
  And in a lamination process, the thickness dimension of a fiber accumulation body can be adjusted by adjusting the amount of lamination of the 1st cotton-like object and the 2nd cotton-like object. Therefore, the distance from the floor panel to the interior carpet can be freely set by adjusting the thickness dimension of the fiber assembly.
[0073]
  Also,The fiber assembly including the cushion layer, the hard layer, and the interposed layer can be integrally formed by a temporary forming process. The intervening layer provided in this fiber assembly has a large number of high-melting-point fiber materials that maintain a fibrous form (that is, the number of fibrous objects protruding from the intervening layer surface). Therefore, in the pressurizing step, the high melting point fiber material of the interposition layer is embedded in the back surface layer on the fusion surface where the interposition layer and the back surface layer of the carpet sheet are fused. The anchor effect due to the embedding of the fiber has an effect that the fiber aggregate can be firmly fused to the carpet sheet.
[0074]
  Claim8According to the method for manufacturing an interior carpet described in claim7In addition to the effects exhibited by the method for producing an interior carpet described above, a fiber assembly including at least a hard layer, a cushion layer, and a waterproof film fused to the opposite side of the hard layer in the cushion layer is formed by a temporary molding step. Can be molded integrally. The waterproof film provided in this fiber assembly has a waterproof property. Therefore, there is an effect that water or the like condensed on the surface of the floor panel can be prevented from being sucked into the cushion layer.
[Brief description of the drawings]
FIG. 1 is a perspective view of an interior carpet according to an embodiment of the present invention.
FIG. 2 is a partial cross-sectional view taken along the line II-II in FIG.
FIG. 3 is a partial cross-sectional view of a conventional interior carpet and a raising material.
[Explanation of symbols]
1 interior carpet
3 Raising material (fiber assembly)
6 Interposition layer
7 Hard layer
8 Cushion layer
9 Waterproof film
10 Skin layer
11 Back layer

Claims (8)

In an interior carpet provided with a skin layer laminated on the surface, and a back layer made of a thermoplastic polymer fused to the back side of the skin layer,
It is formed by heating a first flocculent body obtained by mixing a high melting point fiber material and a low melting point fiber material having a melting point lower than that of the high melting point fiber material at a predetermined ratio at a temperature equal to or higher than the melting point of the low melting point fiber material. The first cotton before the cushion layer is formed into a second cotton-like body in which the mixing ratio of the low-melting fiber material to the high-melting-point fiber material is larger than that of the first cotton-like body. and a hard layer which is by Li Cheng form the heating at a first temperature above the melting point of the low melting fiber materials with cotton-like body by laminating the Jo body, and said refractory fibrous material and the low-melting fiber material A third cotton-like body composed of the same proportion as the first cotton-like body is laminated on the second cotton-like body before being formed into the hard layer, and the second cotton-like body and The low-melting fiber material together with the first cotton-like body before being formed into the cushion layer By heating at a temperature higher than the melting point has a fiber aggregate having a through設層molded integrally with the hard layer and the cushion layer,
In this fiber assembly, the interposed layer is fused to the opposite side of the skin layer in the back surface layer , and the hard layer is provided between the interposed layer and the cushion layer. Interior carpet. The mixing ratio of the low-melting fiber material in the first flocculent body and the third flocculent body is not more than 2 0 wt% or more 4 0 wt% against the total weight of the first cotton-like body, the mixing ratio of the low-melting fiber material in the second flocculent body, according to claim 1 Symbol mounting, characterized in that the second against the total weight of the cotton-like body 6 is 0 wt% to 100 wt% Interior carpet. The interior carpet according to claim 1 or 2 , wherein the low-melting fiber material has a thermoplastic polymer having a melting point lower than that of the high-melting fiber material on at least an outer surface. The low-melting-point fiber material includes a core portion provided at the center of the cross section and a sheath portion that is circumferentially attached to the outer surface of the core portion, and the sheath portion has a lower melting point or softening point than the core portion. The interior carpet according to any one of claims 1 to 3 , wherein the interior carpet is formed of a thermoplastic polymer. The fiber aggregate has a waterproof film having a waterproof property, one of the waterproof film is from claim 1, characterized in that it is fused on the opposite side of the hard layer in the cushion layer 4 Interior carpet as described in. The waterproof film is provided between a first layer formed of a polyester-based resin, a second layer formed of linear low-density polyethylene, and the second layer and the first layer. The interior carpet according to claim 5, further comprising an adhesive layer formed of an ethylene-based resin that adheres the two layers. A first cotton-like body in which a high-melting fiber material and a low-melting fiber material having a melting point lower than that of the high-melting fiber material are mixed at a predetermined ratio, and a mixing ratio of the low-melting fiber material to the high-melting fiber material is the first. A second cotton-like body that is larger than the cotton-like body is laminated in the mold, and the mixing ratio of the high-melting fiber material and the low-melting fiber material is the same as that of the first cotton-like body. A laminating step of laminating a third flocculent body to the opposite side of the first flocculent body in the second flocculent body ;
A mold the first flocculent body and the second flocculent body is laminated Rutotomoni third flocculent body is laminated to the opposite side of the first flocculent body in the second flocculent body by the laminating process Heating at a temperature equal to or higher than the melting point of the low-melting fiber material, and melting the low-melting fiber material of the first flocculent body and the low-melting fiber material of the second flocculent body are melted. predetermined fiber aggregate having a through設層molded integrally with the cushion layer and the hard layer by the low melting fiber material is melted by the hard layer and the third flocculent material which is Li Cheng form the A temporary molding step of molding into a shape of
An arrangement step of taking out the fiber assembly formed by the temporary forming step from a mold and placing it in a pressure mold;
A heating step of heating the back layer side of the carpet sheet in which the skin layer and the back layer are fused,
A placing step of placing the carpet sheet heated by the heating step on the intervening layer of the fiber aggregate placed in the pressure mold by the placing step, with the back surface layer side being placed;
A pressurizing step of pressing the pressurizing die in which the fiber aggregate and the carpet sheet are laminated by the placing step to fuse the fiber accumulator and the carpet sheet and form them integrally. A method for producing an interior carpet characterized by the above. The lamination step, in addition to the prior SL and the first flocculent body second flocculent body and third flocculent body, waterproof film having a waterproof property of the second flocculent body in the first cotton-like body It is thrown into the mold so as to be laminated on the opposite side,
In the temporary molding step, the waterproof film is heated at a temperature equal to or higher than the melting point of the low-melting fiber material by laminating the waterproof film on the opposite side of the second cotton-like body in the first cotton-like body, a hard layer and the cushion layer to be molded, the low-melting fiber material of the second flocculent body is Li Cheng form by the melting by a low melting point fiber material of the first flocculent body is melted, the An intervening layer formed integrally with the cushion layer and the hard layer by melting the low melting point fiber material of the third cotton-like body, and the waterproofing fused to the opposite side of the hard layer in the cushion layer method for producing a decorated carpet of claim 7, wherein the forming the fiber aggregate to have a the film into a predetermined shape.

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