JP5948188B2 - Vehicle board structure - Google Patents

Description

  The present invention relates to a vehicular board structure provided in an interior of an automobile, and more particularly to a vehicular board structure that is formed by applying or filling a core with a thermosetting resin and having a hinge portion in a part thereof. About.

  Various board structures are known as interior materials for automobiles such as deck boards that can be opened and closed in the opening of the storage recess provided on the cargo compartment floor of automobiles and tonneau boards that partition the cargo compartment up and down. Yes. This type of board structure is required to have a required load resistance and at the same time to be lighter in terms of operability of the board structure and reduction in fuel consumption of the vehicle.

  As such a lightweight board structure, a honeycomb body having a large number of compartments (cells) partitioned therein is used as a core material, and a foamable thermosetting resin is filled into the cells of the honeycomb body and foamed. A board structure that realizes weight reduction and rigidity improvement is known.

  Further, the deck board disposed on the cargo compartment floor in the automobile interior is intended to open and close the opening of the storage recess and to form the cargo compartment floor surface flat. Since such a deck board is formed so as to cover substantially the entire surface of the cargo compartment, it is necessary to open and close the entire deck board in order to access the housing recess. Therefore, since it is necessary to take out the luggage placed on the deck board once when the entire deck board is opened and closed, the operability and convenience are poor. For this reason, for the purpose of enhancing the convenience of the deck board, a hinge portion is formed on the deck board, and a part of the deck board is configured to be rotatable about the hinge portion, and only a part of the opening of the housing recess is formed. Is configured to be openable and closable.

  As a method of forming the hinge part on the deck board, the board is divided into a plurality of parts, and each divided board is connected by a hinge part so that a part of the board can be bent by this hinge part. How to do is known.

  However, in this configuration, it is difficult to avoid a decrease in board rigidity and an increase in manufacturing man-hours and manufacturing costs.

  Therefore, it is required to form the hinge part without dividing the board. As a method of forming the hinge part without dividing the board structure described above, the core material of the board structure and a part of the face material sandwiching the core material are crushed simultaneously with the molding of the board structure. It is conceivable to form a hinge portion that can bend the board structure starting from the portion. However, since the thermosetting resin filled in the core material and the face material is cured, the hinge portion does not have flexibility, i.e., hinge characteristics. Furthermore, the hinge portion is fragile, and there is a possibility that a crack may occur just by bending the board structure from the hinge portion.

  Japanese Patent Application Laid-Open No. H10-228688 discloses a configuration that makes it possible to impart hinge characteristics to a board structure. The board structure of Patent Document 1 includes a hinge portion in which a part of the core material is crushed from the back side surface material side toward the front side surface material, and the front side surface material and the back side surface material are joined, and the front surface in the hinge portion. A flexible hinge sheet provided across the hinge portion is embedded in the front side surface material outside the side surface material. Thereby, although the board structure of patent document 1 consists of the core material and face material which impregnated the thermosetting resin, the hinge characteristic is provided.

JP 2011-11615 A

  Although the board structure described in Patent Document 1 can provide hinge characteristics, the back side surface material provided with no hinge sheet cracks when folded back toward the front side starting from the hinge portion. Has occurred, and the danger resulting from burrs and glass fibers is a problem.

  In addition, as a countermeasure for this problem, it is conceivable to attach a cover member such as a nonwoven fabric to the board structure. In this method, the cover member is caught in a crack formed in the hinge part of the back side surface material. Furthermore, when the board structure is held for a certain period of time in a state where it is folded back at the hinge portion at a low temperature or the like, there is a problem in that the portion folded back at the hinge portion does not return to the horizontal.

  Accordingly, the present invention has been made in view of the above problems, and in a board structure in which a honeycomb body is used as a core material and a thermosetting resin is foamed and filled in a hollow portion of the honeycomb body, a hinge portion is provided. Even if cracking occurs, there is no danger caused by burrs or glass fibers, and the cover member will not return to the horizontal state after being held at a low temperature with the board structure folded back at the hinge. An object of the present invention is to provide a vehicular board structure that does not cause problems.

A board structure for a vehicle according to the present invention includes a core material made of a honeycomb body, a front side material and a back side material provided so as to sandwich the core material so as to close the opening of the hollow portion of the honeycomb body of the core material, and a core A foamed and filled thermosetting resin in the hollow portion of the material and a part of the core material filled with the thermosetting resin are crushed from the back side material toward the front side material, And a hinge part to which the back side material is joined. A flexible hinge sheet provided across the hinge portion on the outside of the front side surface material, and a cover sheet having a nonwoven fabric layer provided on the outside of the back side surface material so as to cover the hinge portion. Have. Further, an adhesion inhibiting substance is applied to at least a part of the surface of the back side material of the hinge portion. Or a cover sheet has a non-adhesive area | region in which the adhesive layer and adhesive layer which are located between a nonwoven fabric layer and a nonwoven fabric layer and a back side material, and are adhere | attached on a back side material are not provided.

  According to the present invention, even when a crack occurs in the hinge portion, there is no danger caused by burrs or glass fibers, and the board structure is folded back at the hinge portion, even after being held at a low temperature. The problem that the cover member does not return to the horizontal state does not occur,

It is a schematic perspective view which shows the board structure for vehicles of this invention. It is a disassembled schematic diagram which shows the state before shaping | molding of a deck board. It is the schematic of the AA cross section of FIG. The deck board 1 is shown with the front board folded back. It is the front view which looked at the deck board from the back side. It is the perspective view which expanded and showed the front board vicinity of FIG. It is an enlarged schematic view of a spring. It is the schematic which showed the Example of the cover sheet, (a) is the 1st Example, (b) is the 2nd Example, (c) is the 3rd Example.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. In addition, the same number is attached | subjected to the structure which has the same function in an accompanying drawing, and the description may be abbreviate | omitted.

  FIG. 1 is a perspective view of a deck board laid on a cargo floor surface at the rear of a vehicle, to which a vehicle board structure according to the present invention is applied, as viewed from the front surface side (vehicle interior side). In the following description, an automobile is used as an example of a vehicle, but the vehicle board structure of the present invention is not limited to this.

  A deck board 1 that is a vehicle board structure covers an opening of a storage recess provided below a cargo compartment floor of a vehicle, for example, an automobile. Further, by configuring all or a part of the deck board 1 so as to be rotatable, it is possible to access the inside from the outside of the storage recess and to store and take out the luggage. By flattening the surface of the deck board 1, luggage can be placed on the deck board 1.

  The deck board 1 has an outer shape that substantially conforms to the shape of the cargo floor surface that is the laying position in the automobile. A skin material 10 is laminated on a surface (front surface) of the deck board 1 on the cargo compartment side, and a design property and a feeling of touch suitable as an interior material of an automobile are given by the skin material 10.

As the skin material 10, a needle punched nonwoven fabric made of polyester fibers having a basis weight of 100 g / m ² or more and 300 g / m ² or less is preferably used, but is not limited thereto, such as polypropylene fiber or polyethylene fiber. Non-woven fabrics made of various thermoplastic resin fibers can be used instead.

  The deck board 1 is formed with a first hinge portion 11 extending in the Y direction in FIG. 1, which is the width direction of the automobile, at a position on the front side in the X direction in FIG. 1, which is the longitudinal direction of the automobile. A second hinge portion 12 is formed behind the vehicle 11 in the front-rear direction of the automobile. The deck board 1 includes front boards 1 a and 1 a ′ in front of the first hinge part 11, an intermediate board 1 b between the first hinge part 11 and the second hinge part, and a rear rear part of the second hinge part 12. It is divided into boards 1c.

  The user can rotate the rear board 1c about the second hinge part 12 as a rotation axis by grasping the grip part 1c 'at the rear end of the rear board 1c and lifting the rear board 1c. As a result, the rear board 1c rotates about the second hinge portion 12 as a rotation axis by lifting only the rear board 1c without lifting the entire deck board 1, and the cargo is loaded into the storage recess below the cargo floor. It can be taken in and out. For this reason, the deck board 1 has realized the deck board excellent in the convenience which reduced the burden on the user.

Further, the deck board 1 can rotate the front boards 1a and 1a ′ with the first hinge portion 11 as a rotation axis. As a result, even when the front board 1a, 1a 'is placed on the seat back of the rear seat, the front board 1a, 1a' can be moved even if the rear seat reclining operation or the rear seat is moved forward to expand the cargo space. Since the 1 hinge part 11 can be rotated about a rotation axis, the front boards 1a and 1a 'can follow the rear seat. For this reason, it is possible to completely shield the gap between the rear seat and the cargo compartment floor surface and maintain a good appearance. Since the vehicle is divided into the right front board 1a and the left front board 1a 'in the width direction of the automobile (Y direction in the figure), even if the rear seat is a split type seat, it can be adapted to the reclining operation of each seat. It is preferable because the gap between the rear seat and the cargo floor surface can be shielded. In this embodiment, the length in the width direction of the front board 1a and the front board 1a ′ is set to the same ratio of 5: 5 in correspondence with the rear seat of 5: 5, but this is not restrictive. It can be set arbitrarily depending on the situation.

  FIG. 2 is an exploded schematic view showing a state before the deck board 1 is molded, and is a cross-sectional view of the deck board 1 along the X direction of FIG. As shown in FIG. 2, the deck board 1 includes a back side material 16, a spunbond nonwoven fabric layer 25, and a honeycomb body 15 as a core material from the back surface (lower side in the figure) side to the front surface (upper surface in the figure) side. The front side material 14, the hinge sheet 13, and the skin material 10 are laminated. Cover sheets 17 and 17 ′ are disposed on the surface of the back side material 16 opposite to the spunbond nonwoven fabric layer 25 at the position where the hinge portions 11 and 12 (see FIG. 3) are formed. The front side material 14, the honeycomb body 15, the spunbond nonwoven fabric layer 25, and the back side material 16 are formed with substantially the same area. In addition, the hinge sheet 13 and the cover sheets 17 and 17 ′ are substantially equal in length in the width direction of the automobile (Y direction in FIG. 1) with the front side surface material 14, the honeycomb body 15, and the back side surface material 16. It is arranged only in a part in the X direction. Further, the skin material 10 is formed so that the length dimensions in the X direction and the Y direction in FIG. 1 are larger than those of the front side material 14, the honeycomb body 15, the spunbond nonwoven fabric layer 25, and the back side material 16. The deck board 1 is wound and bonded so as to cover from the front surface side to the periphery of the side surface and the bottom surface (back surface). The bonding process of the skin material 10 may be performed simultaneously with the molding of the hinge sheet 13, the front side surface material 14, the honeycomb body 15, the spunbond nonwoven fabric layer 25, and the back side surface material 16, or may be performed after the molding.

  The core material of the deck board 1 of the present embodiment is constituted by a honeycomb body 15 whose interior is divided into a large number of cells. As this type of honeycomb body 15, a paper honeycomb such as cardboard, a plastic honeycomb such as polypropylene, and a metal honeycomb formed of aluminum or the like can be applied. It is preferable to use a honeycomb.

As the basis weight of the honeycomb body 15, 100 g / m ² or more, is preferably a 2000 g / m ² or less in the range, 500 g / m ² or more, further preferably equal 1500 g / m ² or less of the range. If it is equal to or higher than the above-described lower limit value, the rigidity and durability required for the vehicle deck board 1 are secured, and if it is equal to or lower than the above-described upper limit value, a significant weight reduction effect is obtained as compared with the conventional deck board. It is done.

  In the present embodiment, a paper honeycomb made of corrugated cardboard (manufactured by Nippon Feather Core Co., Ltd .: “Feather Core F-V”) is used as the honeycomb body 15.

  As the honeycomb body 15, a honeycomb body configured by connecting cells having a hexagonal cross section, or a plurality of flat partition walls and a plurality of corrugated partition walls are alternately stacked to form a flat partition wall having a predetermined interval. A honeycomb body in which wavy partition walls meander between them is known.

  The honeycomb body 15 constituting the core material of the deck board 1 of the present embodiment is not limited to the above-described honeycomb body. It has a honeycomb structure partitioned so that a large number of cells are formed inside, and the cells are open to the outside on both surfaces (upper surface and lower surface) of the plate-shaped honeycomb body. If it is a structure, it can be replaced with a honeycomb body of another shape.

  As the front side member 14 and the back side member 16, a glass fiber mat can be suitably used because it can give the required rigidity and is lightweight and excellent in heat insulation. In addition, as the front side material 14 and the back side material 16, various fiber mats which are natural fiber mats, such as a vegetable fiber mat, may be used.

  In the present embodiment, the front side material 14 and the back side material 16 are impregnated with a foamable thermosetting resin by various methods such as spraying and dipping. A urethane resin is preferably used as the thermosetting resin, but various thermosetting resins such as a phenol resin, a melamine resin, and a urea resin can be substituted.

  The impregnation amount of the thermosetting resin is preferably in the range of 100% by weight or more and 1000% by weight or less with respect to the weight of the front side material 14 and the back side material 16. If the impregnation amount of the thermosetting resin is equal to or more than the above lower limit value, the filling amount of the thermosetting resin into the hollow portion of the honeycomb body 15 is sufficiently secured, and the deck board 1 has the required rigidity. preferable. Further, if the impregnation amount of the thermosetting resin is less than or equal to the above upper limit value, the weight of the deck board 1 can be reduced as compared with the conventional deck board, and an excessive amount of thermosetting is required. Since it can prevent that a manufacturing cost increases using resin, it is preferable.

  In this embodiment, the impregnation method of the urethane resin to the front side surface material 14 and the back side surface material 16 employs a method of spraying by spraying.

  As a method for impregnating the face material of the thermosetting resin, various known impregnation methods such as coating and dipping can be used in addition to spraying.

  Since the deck board 1 of the present embodiment is a board structure in which both sides of the honeycomb body 15 are sandwiched between the front side surface material 14 and the back side surface material 16, a large number of hollow bodies are formed inside the cardboard honeycomb body 15. Has a cell. For this reason, the deck board 1 can be configured to be extremely light compared to a conventional deck board of this type. In addition, the honeycomb body 15 is provided so as to close the openings of the hollow portions on both surfaces of the honeycomb body 15 with the front side surface material 14 and the back side surface material 16, so that the front side surface material 14 and the back side surface material 16 are At the same time as receiving the force applied to 1, the force is dispersed throughout the partition wall of the honeycomb body 15. As a result, high pressure resistance and high mechanical strength, which are difficult to realize with a board structure using only a cardboard honeycomb body as a core, are obtained in the thickness direction of the deck board 1. The details of the spunbond nonwoven fabric layer 25 will be described later, but it may not be a component of the board structure.

  The deck board 1 of the present embodiment uses a honeycomb body 15 that is partitioned into a large number of cells by partition walls as a core material. The front side material 14 impregnated with the thermosetting resin, the back side material 16 and the spunbond nonwoven fabric layer 25 are sandwiched on both sides of the honeycomb body 15 so that the front side material 14, the back side material 16 and the spunbond nonwoven fabric layer 25 are sandwiched. These are integrated by heating. At this time, the thermosetting resin impregnated in the front side material 14 and the back side material 16 is heated and foamed simultaneously with the pressure molding of the deck board 1 and filled into the hollow portions of the cells of the honeycomb body 15. The thermosetting resin impregnated in the back side material 16 is also filled into the honeycomb body 15 through the spunbond nonwoven fabric layer 25. Thereby, it is possible to form the deck board 1 that is light in weight and high in rigidity.

  The thermosetting resin foamed and filled in the hollow portions of the cells of the honeycomb body 15 is subsequently cured by being continuously heated by the mold. Thereby, the front side material 14 and the honeycomb body 15, and the back side material 16, the spunbond nonwoven fabric layer 25, and the honeycomb body 15 are bonded to each other. When the thermosetting resin is foamed and filled in the hollow portion of the honeycomb body 15, characteristics such as mechanical strength and pressure resistance of the deck board 1 are further improved.

  FIG. 3 is a schematic view of the AA cross section of FIG. FIG. 4 shows the deck board 1 in a state in which the front board 1a is folded in the AA cross section of FIG. After the laminate comprising the hinge sheet 13, the front side material 14, the honeycomb body 15, the spunbond nonwoven fabric layer 25, and the back side material 16 is pressed, the skin material 10 is bonded to the front side material 14, and the skin The end portion of the material 10 is wound and bonded so as to cover the side surface of the deck board 1 and the end portion of the back side surface material 16. Further, the cover sheet 17 is on the surface of the back side member 16 in the first hinge part 11, and the cover sheet 17 'is on the surface of the back side member 16 in the second hinge part 12, and the back side of the hinge parts 11 and 12, respectively. It is pasted so as to cover the recessed part when viewed from above.

  The thermosetting resin 18 impregnated in the front side surface material 14 and the back side surface material 16 is foamed and filled in the honeycomb body 15, so that the foam of the thermosetting resin 18 covers each partition wall of the honeycomb body 15. In addition, the front side material 14 and the honeycomb body 15 and the honeycomb body 15, the spunbond nonwoven fabric layer 25, and the back side material 16 are firmly bonded and fixed. For this reason, the deck board provided on the cargo floor surface can satisfy the required mechanical strength and rigidity, and can achieve a significant weight reduction as compared with the conventional deck board.

  Here, the thermosetting resin 18 to be foamed and filled does not necessarily need to be foamed until it is completely filled in the hollow portions of the cells of the honeycomb body 15. That is, if the front side material 14 and the back side material 16 are bonded to the honeycomb body 15 and a sufficient foaming amount is secured for the thermosetting resin 18 to partially cover the partition walls of the cells of the honeycomb body 15. Well, the effects of the present invention can be obtained as well.

  The foaming and filling amount of the thermosetting resin 18 is preferably filled at a rate of 5% or more and 80% or less with respect to the volume inside the cells of the honeycomb body 15 and is preferably 10% or more and 60% or less. It is more preferable if it is within the range.

  If the foaming and filling amount of the thermosetting resin 18 is equal to or greater than the above lower limit value, the required rigidity and durability are guaranteed, and if the amount is equal to or smaller than the above upper limit value, the effect of reducing the weight of the deck board 1 is sufficient. Is obtained.

  Next, the structure of the 1st hinge part 11 and the 2nd hinge part 12 is demonstrated. The first hinge portion 11 and the second hinge portion 12 are subjected to a crushing process that crushes and crushes part of the honeycomb body 15 from the back side surface material 16 toward the front side surface material 14 simultaneously with the pressure molding of the deck board 1. It is formed by joining the back side material 16, the spunbond nonwoven fabric layer 25, and the front side material 14.

  In the present embodiment, the skin material 10 is bonded in the subsequent step of the forming process of the laminate composed of the back side material 16, the spunbond nonwoven fabric layer 25, the honeycomb body 15, and the front surface material 14. The deck board 1 may be pressure-molded in a state where the material 10 is laminated on the front side material 14, and the deck board 1 may be configured not to include the skin material 10.

  On the side facing the skin material 10 of the front side material 14, a hinge sheet 13 is laminated so as to cover the first hinge portion 11 to the second hinge portion 12.

  In the deck board 1, the honeycomb body 15 is sandwiched between the two face materials 14, 16, and the thermosetting resin impregnated in the face materials 14, 16 is heated and foamed to be thermosetting into the hollow portion of the cell of the honeycomb body 15. It has a honeycomb sandwich structure formed by filling with resin and curing. In the case of a general honeycomb sandwich structure, when the hinge parts 11 and 12 are crushed, the flexibility of the hinge parts 11 and 12 is poor, and it is difficult to bend the hinge parts 11 and 12 around the rotation axis after molding. There is a problem that there is a problem of tearing from this portion when it is bent at the hinge portions 11 and 12, so that the hinge characteristic cannot be imparted. However, in the deck board 1 of the present invention, by disposing the hinge sheet 13 based on the thermoplastic resin from the first hinge portion 11 to the second hinge portion 12, the honeycomb body 15 and the front side surface material 14, Despite the fact that the thermosetting resin is foamed and cured on the back side material 16, the hinge characteristics can be imparted to the first hinge portion 11 and the second hinge portion 12 simultaneously with the pressure molding of the deck board 1. It becomes.

  The hinge sheet 13 has substantially the same length as the width of the deck board 1 in the Y direction, which is the width direction of the automobile. The width in the X direction of the hinge sheet 13 needs to have a dimension that can be arranged between the most depressed portions of the first hinge part 11 and the second hinge part 12 when viewed from the back surface side. The width is preferably about 10 mm to 80 mm, but in the present embodiment, the hinge sheet 13 having a width in the X direction of 112 mm is used and shared with the first hinge part 11 and the second hinge part 12. Increases efficiency in the manufacturing process and shortens manufacturing man-hours.

  Further, a part of the hinge sheet 13 in the thickness direction is embedded in the front side surface member 14. This structure is formed by performing pressure molding (hot press molding) in a state where the hinge sheet 13 is laminated at a position where the first hinge portion 11 and the second hinge portion 12 are formed. In the thickness direction of the hinge sheet 13, it is preferable that 40% or more of the thickness dimension of the hinge sheet 13 is embedded in the front side member 14, and 70% or more of the thickness dimension of the hinge sheet 13 is front side member. The structure embedded in 14 is more preferable. In this way, by forming a laminate in which at least a part of the hinge sheet 13 in the thickness direction is embedded in the front side material 14, unevenness due to the hinge sheet 13 appears on the surface of the front side material 14. It can be prevented as much as possible. Therefore, the appearance of the first hinge part 11 and the second hinge part 12 of the deck board 1 can be kept good.

  Next, the structure of the hinge sheet 13 will be described. The hinge sheet 13 is, for example, a base resin sheet made of a thermoplastic resin such as polypropylene or polyethylene, a heat insulating non-woven cloth made of a PET spunbond non-woven fabric laminated on the skin material 10 side of the base resin sheet, and a base resin sheet. This is a laminate composed of three layers of non-woven fabric for bonding made of PET spunbond nonwoven fabric and the like laminated on the surface of the honeycomb body 15 side.

As the base resin sheet constituting the hinge sheet 13, a flexible thermoplastic resin is preferably used, and the basis weight is preferably in the range of 50 g / m ² or more and 160 g / m ² or less. Further, the basis weight is preferably in the range of 50 g / m ² or more and 150 g / m ² or less, more preferably in the range of 50 g / m ² or more and 120 g / m ² or less. By setting it to the above lower limit value or more, mechanical strength sufficient to impart hinge characteristics to the first hinge portion 11 and the second hinge portion 12 is secured, and by setting the upper limit value or less, the weight of the deck board 1 is increased. Is suppressed. Further, the front boards 1a and 1a ′ are held at a low temperature (−20 ° C.) for a certain time (2 hours) while being rotated to the surface side of the deck board 1 with the first hinge portion 11 as a rotation axis. Later, the front board 1a, 1a 'was opened, and in a test (falldown test) to evaluate whether the front board 1a, 1a' returned to the horizontal state within 2 seconds, it was confirmed that the return to the horizontal state tends to improve. did.

The non-woven fabric for heat insulation preferably has a basis weight of 30 g / m ² or more. This is because the temperature of the base resin sheet rises and melts during pressure molding with heating of the deck board 1, and the melted resin adheres to the mold, and the like. This is because a problem may occur when the hinge portion 12 is molded. By disposing the non-woven fabric for heat insulation, the heat insulation effect can be obtained, so that the possibility that the base resin sheet is melted and a problem occurs during molding can be reduced.

In this embodiment, the hinge sheet 13 is a polypropylene resin sheet having a basis weight of 120 g / m ² as a base resin sheet, a PET spunbond nonwoven having a basis weight of 100 g / m ² as a non-woven fabric for heat insulation, and an adhesive. A PET spunbonded nonwoven fabric having a basis weight of 100 g / m ² was used as the nonwoven fabric.

  FIG. 5 is a front view of the deck board 1 as viewed from the back side, and FIG. 6 is an enlarged perspective view of the vicinity of the front board 1a in FIG. FIG. 7 is an enlarged schematic view of a spring.

  The skin material 10 is wound up and bonded from the side surface of the deck board 1 to the periphery of the back surface. Further, strikers 19 and 19 ′ having engaging protrusions are fixed by rivets on both ends of the intermediate board 1 b in the width direction (Y direction) of the automobile. The strikers 19 and 19 'are formed by injection molding of polyacetal (POM). Engagement protrusions are formed at the approximate center of the rectangular base, and rivet insertion holes are formed on both sides thereof. ing. By engaging the engaging protrusions of the strikers 19 and 19 'with the engaged portion provided on the vehicle body side, the intermediate board 1b is fixed to the vehicle body side so that it cannot slide and rotate. Therefore, only the front boards 1a and 1a ′ can be rotated following the reclining operation of the rear seat with the first hinge portion 11 as a rotation axis, and the rear with the second hinge portion 12 as a rotation axis. Only the board 1c can be rotated according to a user's opening / closing operation. That is, since the turning operation of both the first hinge part 11 and the second hinge part 12 can be independently turned without affecting each other, the deck board 1 provided with the two hinge parts 11 and 12 is established. Making it possible.

  In the first hinge part 11, two springs 20, 20 'are provided between the front board 1a, 1a' and the intermediate board 1b, and the front board 1a, 1a 'is moved by the spring 20, 20' to the intermediate board 1b. It is urged to the position which becomes almost horizontal. Since the two springs 20, 20 'have the same configuration, only one spring 20 will be described.

  The spring 20 includes a spiral coil portion 20a that gives an elastic restoring force, and a front arm portion 20b and a rear arm portion 20c that extend from both ends of the coil portion 20a. The front arm portion 20b extends from one end of the coil portion 20a to the front in the front-rear direction (X direction) of the automobile, whereas the rear arm portion 20c extends from the other end of the coil portion 20a to the rear of the automobile. Furthermore, it is bent in the width direction (Y direction) of the automobile, and the end portion is bent forward. That is, the rear arm portion 20c has a bowl shape.

  The springs 20 and 20 ′ are covered with the front base members 21 and 21 ′ at the ends of the front arm portion 20b, and the ends of the rear arm portion 20c with the rear base members 22 and 22 ′ and fastened with rivets. It is fixed. On the back surfaces of the front base members 21 and 21 'and the rear base members 22 and 22', a groove portion having a shape similar to the terminal shape of the front arm portion 20b and the rear arm portion 20c is formed. The end portions of the arm portion 20b and the rear arm portion 20c are engaged. In addition, although the groove part formed in the back surface of the front side base members 21 and 21 'is linearly formed according to the terminal of the front side arm part 20b, the front side arm part 20b is the front-back direction (X direction) of a motor vehicle. The front arm portion is extended to the front side so that it can slide a predetermined distance. On the other hand, the rear arm portion 20c is formed in a bowl shape, and the groove portions formed on the back surfaces of the rear base members 22, 22 'are also formed so as to correspond to this shape, and the rear arm portion 20c By engaging the end portion with the groove portion, the vehicle cannot slide in the longitudinal direction (X direction) or the width direction (Y direction) of the automobile.

  The coil portion 20a, the front arm portion 20b, and the front base members 21 and 21 ′ are disposed in the front recessed portion 23 that is recessed inward one step from the general surface on the back surface of the deck board 1, and the rear arm portion 20c. The rear base members 22 and 22 ′ are disposed in a rear recessed portion 24 that is recessed inward one step from the general surface on the back surface of the intermediate board 1 b of the deck board 1. Thereby, since the springs 20 and 20 ′ and the front base members 21 and 21 ′ and the rear base members 22 and 22 ′ do not protrude from the back side member 16, the appearance is excellent, and the durability is improved because it is difficult to be caught. Moreover, the danger can be reduced as much as possible.

  The front arm portion 20b and the coil portion 20a can slide in the vehicle front-rear direction in accordance with the turning operation of the front boards 1a and 1a ', and thus smooth without hindering the turning of the front boards 1a and 1a'. And the front boards 1a and 1a ′ can be biased in a direction horizontal to the intermediate board 1b.

  In the present embodiment, coil springs having a maximum moment of 1106.8 N · mm, a material of SWP-B, a diameter of 2 mm, a coil portion diameter of 8 mm, and an effective number of turns of 17.2 are used as the springs 20 and 20 ′.

  The first hinge part 11 and the second hinge part 12 are folded 180 degrees on the front side member 14 side by hand after the initial folding crease is attached by a hinge folding machine after the deck board 1 is formed. Further, it is folded 90 ° toward the back side member 16 side. At that time, cracks are formed on the back side surface material 16 side of the first hinge portion 11 and the second hinge portion 12 along the fold line (the most recessed portion when viewed from the back side), and burrs or the like are generated. Or glass fiber or urethane may pop out, giving the user a feeling of discomfort when touched, or causing the user to be injured.

  Here, in the deck board 1 according to the present invention, the cover sheets 17 and 17 ′ are provided on the back side surface material 16 side of the first hinge portion 11 and the second hinge portion 12 so as to cover the cracks formed along the fold line. Are pasted together.

The cover sheets 17 and 17 ′ are composed of two types of layers , a nonwoven fabric layer 28 and an adhesive layer 27 (see FIG. 8). Nonwoven layer 28, basis weight ^{70g / m 2 ~140g / m 2} , more preferably, PET spunbond nonwoven 80g / m ² ~120g / m ² is preferably used, the adhesive layer 27 is double-sided tape or adhesive However, an adhesive is used for the first hinge part 11 because the cover sheet 17 is difficult to bite into the hinge part 11.

By attaching the cover sheets 17 and 17 ′ to the back side surface material 16 side of the first hinge portion 11 and the second hinge portion 12, respectively, the folding lines of the hinges formed on the first hinge portion 11 and the second hinge portion 12 are formed. It is possible to remarkably reduce the danger to the user due to burrs, glass fibers, and urethane popping out along the cracks formed along the lines. If the basis weight of the nonwoven fabric layer 28 is smaller than 140 g / m ^2, the amount of the nonwoven fabric layer 28 biting into the crack formed in the hinge is reduced by rotating the front boards 1a and 1a ′, or the nonwoven fabric layer 28 Is preferred because it will not be bitten. That is, in the above-described fall-down test, it is possible to satisfy the condition that the front boards 1a and 1a ′ return to the horizontal state within 2 seconds. Further, if the basis weight of the non-woven fabric layer is larger than 70 g / m ^2, it is preferable because the danger to the user due to the crack formed along the fold line of the hinge portion and the unpleasant hand feeling that makes it tingle can be sufficiently reduced. .

  In the present embodiment, the adhesive layer 27 of the cover sheets 17 and 17 ′ is set to substantially the entire nonwoven fabric layer 28. For example, the adhesive layer 27 is bonded to the cracks of the first hinge portion 11 and the second hinge portion 12. There may be provided a non-adhesion region 26 without the layer 27 or having an adhesion inhibited by an adhesion inhibitor described later. By adopting such a configuration, the possibility that the cover sheets 17 and 17 ′ may bite into the cracks can be further reduced. Therefore, in the fall-down test, it is possible to cause a problem that the return of the front boards 1 a and 1 a is delayed. Since it is possible to reduce the weight of the nonwoven fabric layer 28, it is possible to increase the basis weight of the non-woven fabric layer 28. It is possible to further enhance the effect of improvement.

  As shown in FIG. 8A, the non-adhesion region 26 is provided in an intermediate portion of the cover sheets 17 and 17 ′ from one end to the other end in the longitudinal direction (vehicle width direction) of the cover sheets 17 and 17 ′. It's okay. Further, as shown in FIGS. 8B and 8C, the non-contact region 26 may be provided intermittently.

  The method of attaching the cover sheets 17 and 17 ′ will be described later. In the state where the front boards 1a and 1a ′ or the rear board 1c are folded back 180 degrees by the hinge portions 11 and 12 and stacked on the intermediate board 1b, the cover sheets 17 and 17 are stacked. Since 'is pasted to the back side material 16, when returning to the original state, at least a part of the non-adhesive region 26 of the cover sheets 17, 17' is lifted to form a convex portion (wrinkle). . Thereby, it is further preferable because the cover sheets 17 and 17 ′ are difficult to bite into the cracks of the hinge portions 11 and 12.

In this embodiment, the cover sheets 17 and 17 ′ use PET manufactured by Kansai Felt Fabric with a basis weight of 100 g / m ² as the nonwoven fabric layer 28, and the length in the vehicle front-rear direction (X direction) is 22 mm. Cut to a length of 852 mm in the width direction (Y direction), as the adhesive layer 27, the cover sheet 17 is coated with an adhesive having a basis weight of 60 g / m ² on the cover sheet 17, and the cover sheet 17 ′ is coated with Sekisui A double-sided tape # 5782 made by cutting was cut into approximately the same size, and one surface was bonded to PET. This is because it is found that the cover sheet 17 is less likely to bite into the first hinge portion 11 when the adhesive is used as the adhesive layer than the double-sided tape. Here, as for the cover sheet 17 ′, an adhesive may be applied instead of the double-sided tape as the adhesive layer.

  Before the cover sheet 17 is bonded to the back side surface material 16, a brush is applied to the first hinge portion 11. Thereby, the cover sheet 17 becomes more difficult to bite into the first hinge portion 11.

  As shown in FIG. 2, a spunbond nonwoven fabric layer 25 is laminated between the honeycomb body 15 and the back side surface material 16. In this type of board, that is, a board manufactured using the urethane spray technology, if the basis weight of the glass mat used as the front side material 14 and the back side material 16 is low, perforation occurs in the stretched portion during molding. For this reason, there is a problem that the appearance is deteriorated and the merchantability is lowered. On the other hand, when the fabric weight of the front side material 14 or the back side material 16 is increased, the product weight increases as a result, which is not preferable. Since the skin material 10 is laminated on the front side material 14, there is no problem in appearance. However, since the back side material 16 is exposed except for a portion where the skin material 10 is wound, a problem of appearance occurs when perforation occurs. . As a countermeasure against this, in this embodiment, the spunbond nonwoven fabric layer 25 is formed by laminating the spunbond nonwoven fabric layer 25 between the backside material 16 and the honeycomb body 15, so that the spunbond nonwoven fabric layer 25 is formed even if holes are formed in the backside material 16. Because it fills in the hole, it looks good.

The spunbond nonwoven fabric layer 25 preferably has a basis weight of 5 to 500 g / m ² and a melting point of 80 ° C. or higher.

  By providing the spunbond nonwoven fabric layer 25, not only can the hole filling effect of the back side surface material 16 be obtained, but also the danger at the hinge fold line portion (break) of the back side surface material 16 in the first hinge portion 11 and the second hinge portion 12. The effect of relaxing the property can be obtained at the same time. For this reason, since the fabric weight of the cover sheets 17 and 17 'can also be suppressed, it is preferable because the hinge return can be kept good in the fall-down test.

In the present embodiment, a PET spunbond having a basis weight of 25 g / m ² is used as the spunbond nonwoven fabric layer 25.

  Next, a method for manufacturing the deck board 1 will be described below.

  The front side material 14 and the back side material 16 are preliminarily uniformly dispersed and impregnated with a thermosetting resin 18 using a spray or the like. The honeycomb body 15 is dried. The front side material 14 and the back side material 16 are laminated so as to be sandwiched from both sides of the honeycomb body 15 so as to block the hollow portion of the honeycomb body 15. At this time, the spunbond nonwoven fabric layer 25 is laminated between the honeycomb body 15 and the back side surface material 16. Further, the hinge sheet 13 is placed on the upper surface of the front side member 14, and in this state, it is set between a pair of molds.

  And in the state which heated the mold surface temperature of the shaping | molding die to about 130 to 150 degreeC which is sufficient temperature for the thermosetting resin 18 to foam and harden | cure, the honeycomb body 15, the surface material 14, and the back side surface A laminate formed by laminating the material 16, the spunbond nonwoven fabric layer 25, and the hinge sheet 13 is hot-press molded with a molding die. At this time, the first hinge portion 11 and the second hinge portion 12 are crushed, so that the front board 1a, 1a ′, the intermediate board 1b, and the rear board 1c are folded on the deck board 1 with the hinge parts 11, 12 as starting points. It is formed in a state of being connected so as to be capable of being bent.

  Subsequently, an adhesive is applied to the skin material 10 which has been roughly cut in advance, and is laminated and pressure-bonded to the surface on the surface side material 14 side of the heated laminate. Next, after the outer periphery of the skin material 10 is cut so as to leave a portion to be wound around the back surface of the deck board 1, the skin material 10 is wound up to the peripheral edge portion of the back side material 16 and pressed. A plurality of slits are formed in a portion corresponding to the curved portion of the board in the portion where the skin material 10 is wound around the back surface of the deck board. By forming the slit, the entrainment portion of the skin material 10 can follow the board shape.

  Then, the front board 1a, 1a ′ is turned 180 ° from the first hinge part 11 to the front side member 14 side and overlaid on the intermediate board 1b, with respect to the fold line (break) of the first hinge part 11. A stylus is reciprocated once between end portions in the width direction (Y direction) of the automobile to apply a wax stone as an adhesion-inhibiting substance, and then a cover sheet 17 is pasted so as to cover a broken line (break). As an adhesion inhibitor, candles or chalk may be used in addition to the brush (wax stone), but it is low cost and does not cause a large amount of powder to cause dirt. A stylus (wax stone) is preferred. Subsequently, the cover sheet 17 ′ is pasted so as to cover the fold line (break) of the second hinge portion 12 in a state where the rear board 1 c is folded back 180 ° toward the front side member 14 and overlapped on the intermediate board 1 b.

  Then, accessory parts such as strikers 19 and 19 'and springs 20 and 20' are attached.

1 Vehicle board structure (deck board)
DESCRIPTION OF SYMBOLS 11 1st hinge part 12 2nd hinge part 13 Hinge sheet 14 Front side material 15 Honeycomb body (core material)
16 Back side material 17, 17 'Cover sheet 18 Thermosetting resin

Claims (8)

A core material made of a honeycomb body, a front side surface material and a back side surface material sandwiched between the core materials so as to close an opening of the hollow portion of the honeycomb body of the core material, and the hollow portion of the core material Foamed and filled thermosetting resin, and part of the core material filled with the thermosetting resin is formed by being crushed from the back side material toward the front side material, and the front side material And a hinge part to which the back side material is joined, and a vehicle board structure comprising:
A flexible hinge sheet provided on the outside of the front side member so as to cross the hinge portion;
Outside of the back side surface member, it possesses a cover sheet, a having a non-woven fabric layer provided so as to cover the hinge portion,
A board structure for a vehicle , wherein an adhesion-inhibiting substance is applied to at least a part of the surface of the back side member of the hinge portion . A core material made of a honeycomb body, a front side surface material and a back side surface material sandwiched between the core materials so as to close an opening of the hollow portion of the honeycomb body of the core material, and the hollow portion of the core material Foamed and filled thermosetting resin, and part of the core material filled with the thermosetting resin is formed by being crushed from the back side material toward the front side material, and the front side material And a hinge part to which the back side material is joined, and a vehicle board structure comprising:
A flexible hinge sheet provided on the outside of the front side member so as to cross the hinge portion;
A cover sheet having a non-woven fabric layer provided to cover the hinge portion on the outside of the back side surface material;
The cover sheet has said nonwoven fabric layer, and a non-adhesive region located, adhesive layer and the adhesive layer adhering to the back side surface member is not provided between the back side surface member and the nonwoven fabric layer , car dual board structure. The board structure for a vehicle according to claim 2 , wherein a space is formed between the back side material and the nonwoven fabric layer in the non-bonded region. The basis weight of the nonwoven fabric layer is 70 g / m ² or more and 140 g / m ² or less, for a vehicle board structure according to any one of claims 1 to 3. The board structure for vehicles according to any one of claims 1 to 4 , wherein a spunbond nonwoven fabric layer is provided between the core material and the back side surface material. The board structure for vehicles according to any one of claims 1 to 5 , wherein a plurality of the hinge portions are provided. The vehicle board structure according to any one of claims 1 to 6 , wherein at least a part of the hinge sheet in the thickness direction is embedded in the front side surface material. A core material composed of a honeycomb body, a front side material and a back side material impregnated with a thermosetting resin, and a pair of molding dies between the front side material and the back side material between a pair of molding dies. Between the front side material and the back side material, the core material is sandwiched so as to close the opening of the hollow portion of the honeycomb body, outside the front side material at a position where a hinge portion is formed, A hinge sheet having flexibility is arranged so as to cover the hinge part,
By heating the front side surface material and the back side surface material using the molding die, the thermosetting resin impregnated in the front side surface material and the back side surface material is foamed in the hollow portion of the core material. The front side surface is filled by crushing to a part of the core material filled with the thermosetting resin from the back side surface material side to the front side surface material using the mold. A board structure for joining a material and the back side surface material to form a hinge part,
In a state where the board structure is folded back to the front side material side with the hinge part as a starting point, a cover sheet made of non-woven fabric is attached to the back side material side so as to cover the fold of the hinge part ,
A method for manufacturing a board structure for a vehicle, comprising applying an adhesion-inhibiting substance to at least a part of the folds on the back side material side of the hinge part before attaching the cover sheet .