JP6051672B2 - Plate member - Google Patents

Description

  The present invention relates to a plate member formed by laminating at least a core material and a base resin, and particularly relates to a plate member suitable for a luggage board such as an automobile.

  2. Description of the Related Art Conventionally, in a vehicle such as an automobile, a luggage compartment is provided on the rear side of a rear seat, and a luggage board is arranged so that a luggage can be loaded on the luggage board. Moreover, by providing the seat back of the rear seat so that it can be folded forward, the back of the seat back folded forward may be used as a part of the cargo floor. A structure in which a luggage board is arranged on the rear side of the rear seat is disclosed in, for example, Patent Document 1 (Japanese Patent Laid-Open No. 2008-239086).

  Patent Document 1 discloses a luggage board that forms the bottom surface of a luggage room, an auxiliary board that is rotatably connected to the front end of the luggage board via an integral hinge, and a spring that is fixed to the luggage board and the auxiliary board. The auxiliary board is disclosed as a luggage board structure for an automobile in which the auxiliary board is always urged in a direction to press the back surface of the rear seat back by a spring member. This makes it possible to increase the rotation angle with a light and simple structure.

JP 2008-239086 A

  Patent Document 1 discloses a mode in which a spring member is fixed to a luggage board. Specifically, a configuration is disclosed in which both ends of the spring member are fixed to the board with attachment members such as screws or resin plates. Further, a configuration is also disclosed in which the end of the spring member is bent in an L shape and hooked into a long hole of a reinforcement provided near the hinge.

  However, in the configuration disclosed in Patent Document 1, the work of fixing the spring member becomes complicated.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a plate-like member capable of easily and firmly connecting at least one end of an elastic member to the plate-like member. To do.

  In order to achieve this object, the present invention has the following features.

The plate-like member according to the present invention is
It is a plate-shaped member that is constituted by laminating at least a core material and a base resin,
Having a hinge mechanism, the plate-like member is rotatable about the hinge mechanism as a rotation axis;
The hinge mechanism is composed of at least an elastic member, and at least one end of the elastic member has a portion arranged on the outer surface of the plate-like member, a portion bent and connected to the portion arranged on the outer surface, The portion to be bent and connected is inserted into the base resin and the core material in a direction in which the base resin and the core material are laminated, and is connected to the plate-like member. It is characterized by that.

  According to the present invention, at least one end of the elastic member can be easily and firmly connected to the plate-like member.

1 is a diagram showing a configuration when a plate-like member of the present embodiment is used as a luggage board 10. FIG. 1 shows a state of the luggage board 10 seen from the back side, (a) shows an example of the overall configuration of the luggage board 10, and (b) shows two reinforcement portions 18 from the luggage board 10 shown in (a). Shown with 19 removed. It is a figure which shows the structural example of the periphery of the coil spring 16 shown in FIG.2 (b). 3 shows a cross-sectional configuration example of 3A-3A ′ of FIG. FIG. 3 is a first diagram showing another configuration example of the luggage board 10. FIG. 6 is a second view showing another configuration example of the luggage board 10. FIG. 6 is a third diagram illustrating another configuration example of the luggage board 10. FIG. 10 is a fourth diagram illustrating another configuration example of the luggage board 10.

(Outline of the plate member 10 according to the present invention)
First, an outline of the plate member 10 according to the present invention will be described with reference to FIGS. 2 shows a configuration example of the plate-like member 10, FIG. 3 shows a configuration example around the elastic member (corresponding to the coil spring 16) shown in FIG. 2B, and FIG. 4 shows the configuration shown in FIG. A cross-sectional configuration example of 3A-3A ′ is shown.

  As shown in FIG. 4, the plate-like member 10 according to the present invention is a plate-like member 10 configured by laminating at least a core material 103 and a base resin 102, and has a hinge mechanism 14. The plate-like member 10 is rotatable about a rotation axis 14, the hinge mechanism 14 is composed of at least an elastic member 16, and at least one end 161 of the elastic member 16 is formed of a core with the laminated base resin 102. It is inserted into the material 103 and connected to the plate member 10. 2 to 4, one end 161 of the elastic member 16 is inserted into the base resin 102 and the core material 103, and the one end 161 of the elastic member 16 is connected to the plate member 10. However, the other end 162 of the elastic member 16 may be inserted into the base resin 102 and the core material 103 so that the other end 162 of the elastic member 16 is also connected to the elastic member 10.

  The plate-like member 10 according to the present invention is connected to the plate-like member 10 by inserting at least one end 161, 162 of the elastic member 16 into the laminated base resin 102 and the core material 103, and therefore, a simple operation of inserting. Thus, at least one end 161, 162 of the elastic member 16 can be easily and firmly connected to the plate member 10. Further, since at least one end 161, 162 of the elastic member 16 is inserted into the laminated base resin 102 and the core material 103 and connected to the plate member 10, a complicated hole is formed in the base resin 102 and the core material 103. Without forming, at least one end 161, 162 of the elastic member 16 can be easily and firmly connected to the plate-like member 10. Further, since at least one end 161, 162 of the elastic member 16 is inserted into two places of the laminated base resin 102 and the core material 103 and connected to the plate-like member 10, at least one end 161, 162 of the elastic member 16 is plate-like. A stable connection to the member 10 can be achieved. As a result, at least one end 161, 162 of the elastic member 16 can be prevented from wobbling. Hereinafter, the plate-like member 10 according to the present invention will be described in detail with reference to the accompanying drawings. In the following embodiment, a case where the plate-like member 10 is used as a luggage board 10 of an automobile will be described.

<Configuration example of plate-like member 10>
First, a configuration example of the plate member 10 of the present embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a diagram showing a configuration example when the plate-like member 10 of the present embodiment is used as a luggage board 10 of an automobile. FIG. 2 shows a state of the luggage board 10 shown in FIG. 1 viewed from the back side, FIG. 2 (a) shows an example of the overall configuration of the luggage board 10, and FIG. 2 (b) shows FIG. 2 (a). The state which removed the two reinforcement parts 18 and 19 from the luggage board 10 is shown. The first reinforcing portion 18 maintains a state in which the coil spring 16, which is an example of the elastic member 16, is installed in the accommodating portion 17, and a part of the coil spring 16 disposed in the first plate-like portion 11 is It is attached to the 1st plate-shaped part 11 so that it may cover. By attaching the first reinforcing portion 18 to the first plate-like portion 11, the coil spring 16 is connected to the first plate-like portion 11. The second reinforcing portion 19 is for protecting the two hinge mechanisms 14 and 15, and is attached to the connecting portion 12 so as to cover the two hinge mechanisms 14 and 15.

  As shown in FIG. 1, a pair of left and right rear seats 1 are installed at the rear of the interior of the automobile. The rear seat 1 has a rear seat cushion 2 and a rear seat back 3. The rear seat cushion 2 is slidable in the longitudinal direction of the vehicle. The rear seat back 3 can be reclined in the front-rear direction with respect to the rear seat cushion 2, and can be folded forward and folded.

  The rear of the rear seat back 3 constitutes a luggage room R, and a rear panel 6 of the vehicle body is formed behind the luggage room R. The opening of the back panel 6 is opened and closed by a back door (not shown).

  On the floor panel of the luggage room R, a storage box 7 for storing tools and spare tires is installed. A deck board 8 is placed on the storage box 7. The deck board 8 is engaged with the storage box 7, and can be opened / closed and removed only when necessary.

  On the top of the deck board 8, a luggage board 10 which is a member constituting the bottom surface of the luggage room R is placed.

  The luggage board 10 is connected to the rear seat cushion 2. For this reason, the luggage board 10 slides on the deck board 8 in the front-rear direction together when the rear seat cushion 2 is slid in the front-rear direction. The luggage board 10 is coupled to the rear seat back 3. For this reason, the luggage board 10 follows and moves together when the rear seat back 3 is reclined in the front-rear direction with respect to the rear seat cushion 2.

  As shown in FIG. 2, the luggage board 10 includes a first plate-like portion 11, a connecting portion 12, and a second plate-like portion 13 that are rotatably connected via hinge mechanisms 14 and 15. The first plate-like portion 11 constitutes the rear end of the luggage board 10 and moves on the deck board 8. The second plate-like portion 13 constitutes the front end of the luggage board 10 and is connected to the rear seat cushion 2 and the rear seat back 3. The 1st plate-shaped part 11 and the 2nd plate-shaped part 13 are comprised by the plate shape which has a predetermined surface area. As long as the shape of the 1st plate-shaped part 11 and the 2nd plate-shaped part 13 is a plate shape which has a predetermined surface area, it can be comprised by arbitrary shapes. The connecting portion 12 connects the first plate-like portion 11 and the second plate-like portion 13 via the hinge mechanisms 14 and 15. The connecting portion 12 is configured in a shape having a smaller surface area than the first plate-like portion 11 and the second plate-like portion 13. As shown in FIG. 4, the connecting portion 12 of the present embodiment has a trapezoidal shape in which the width of one surface is shorter than the width of the other surface. The hinge mechanisms 14 and 15 are configured such that the first plate-like portion 11 and the connecting portion 12 or the connecting portion 12 and the second plate-like portion 13 are rotatable via the hinge mechanisms 14 and 15. However, if it is possible, it will not specifically limit and it is possible to comprise arbitrarily.

  In the present embodiment, as shown in FIG. 4, the hinge mechanism 15 is configured by recessing the connecting portion of the second plate-like portion 13 and the connecting portion 12 from one surface to the other surface, The second plate-like portion 13 and the connecting portion 12 are rotatable about the connecting portion as a rotation axis. As shown in FIG. 4, the hinge mechanism 14 is configured by recessing the connecting portion of the first plate-like portion 11 and the connecting portion 12 from one surface to the other surface, and rotating the connecting portion. The first plate-like part 11 and the connecting part 12 are rotatable as axes. As shown in FIG. 4, the hinge mechanism 14 has one end 161 of the coil spring 16 connected to the connecting portion 12, the other end 162 of the coil spring 16 connected to the first plate-like portion 11, and the coil spring 16. The connecting portion 12 and the first plate-like portion 11 are connected via the connecting portion 12, and the connecting portion 12 and the first plate-like portion 11 are rotatable via the coil spring 16.

  As shown in FIG. 2 (b), the hinge mechanism 14 of the present embodiment has an accommodating portion 17 for accommodating the coil spring 16, and the coil spring 16 is disposed in the accommodating portion 17, and the coil spring is arranged. Both ends of 16 are connected to the first plate-like portion 11 and the connecting portion 12. The accommodating portion 17 can be formed, for example, by further recessing a part of the connecting portion between the first plate-like portion 11 and the connecting portion 12 constituting the hinge mechanism 14. In the present embodiment, as shown in FIG. 4, the hinge mechanism 14 is configured such that the standing wall of the first plate-like portion 11 (the wall rising from one surface to the other surface) and the standing wall of the connecting portion 12 are connected. Since it is composed of portions, the accommodating portion 17 can be formed by further denting a part of the standing wall into a concave shape. The shape of the accommodating portion 17 is not particularly limited, and can be configured in an arbitrary shape as long as the coil spring 16 can be stably accommodated. Note that the coil spring 16 can be arranged at the connecting portion between the standing wall of the first plate-like portion 11 and the standing wall of the connecting portion 12 constituting the hinge mechanism 14 without forming the accommodating portion 17. is there. The coil spring 16 generates a twist restoring force and makes it possible to stabilize the rotational state of the first plate-like portion 11 and the connecting portion 12. Further, it is possible to suppress the first plate-like portion 11 and the connecting portion 12 from fluttering up and down due to vibration or the like when the vehicle travels.

  As shown in FIG. 2 (b), the luggage board 10 of the present embodiment is configured such that one end of the coil spring 16 is inserted into the connecting portion 12, one end of the coil spring 16 is connected to the connecting portion 12, and the hinge mechanism 14 is configured. The coil spring 16 is disposed in the accommodating portion 17 formed at the connecting portion between the standing wall of the first plate-like portion 11 and the standing wall of the connecting portion 12. 2B, the other end of the coil spring 16 is disposed in the attachment portion 24 formed in the first plate-shaped portion 11 in a state where the coil spring 16 is disposed in the housing portion 17. As shown in FIG. The attachment portion 24 is a portion to which the first reinforcing plate 18 is attached, and the attachment portion 24 can be formed by forming a concave portion having a shape corresponding to the first reinforcing plate 18 in the first plate-like portion 11. it can.

  In this embodiment, the 1st reinforcement part 18 is attached to the attachment part 24 so that the other end of the coil spring 16 arrange | positioned at the attachment part 24 formed in the 1st plate-shaped part 11 may be covered. The first reinforcing portion 18 is attached to the attachment portion 24 with two screw stops. As a result, the other end of the coil spring 16 and the first plate-like portion 11 are connected.

  Next, the concave shape portions of the two hinge mechanisms 14 and 15 (the space formed between the portions where the standing wall of the first plate-like portion 11 and the standing wall of the connecting portion 12 are connected, the second plate-like portion 13 A second reinforcing portion 19 is attached to the connecting portion 12 so as to cover a space between the standing wall and a portion where the standing wall of the connecting portion 12 is connected. Reference numeral 25 shown in FIG. 2 (b) denotes an arrangement part 25 for arranging the second reinforcing part 19, and a recess corresponding to the shape of the second reinforcing part 19 arranged on the first plate-like part 11 is formed. Thus, the arrangement portion 25 is formed.

  In this embodiment, the 2nd reinforcement part 19 is arrange | positioned on the connection part 12 and the arrangement | positioning part 25 so that the concave shape part of the two hinge mechanisms 14 and 15 may be covered, and the 2nd reinforcement part 19 is made into the connection part 12. Install. The second reinforcing portion 19 is attached to the connecting portion 12 with four screw stops. In addition, since the 2nd reinforcement part 19 is attached only to the connection part 12, the 1st plate-shaped part 11, the connection part 12, and the 2nd plate-shaped part 13 rotate via the hinge mechanisms 14 and 15. The hinge mechanisms 14 and 15 can be covered without causing any trouble. In addition, the material which comprises the 1st reinforcement part 18 and the 2nd reinforcement part 19 is not specifically limited, It is possible to comprise with arbitrary materials, such as aluminum, iron, a plastics.

<Example of configuration around coil spring 16>
Next, a configuration example around the coil spring 16 shown in FIG. 2B will be described with reference to FIGS. FIG. 3 shows a configuration example around the coil spring 16 shown in FIG. 2B, and FIG. 4 shows a cross-sectional configuration example of 3A-3A ′ in FIG.

  As shown in FIG. 3, the coil spring 16 is disposed in a receiving portion 17 formed at a connecting portion between the first plate-like portion 11 and the connecting portion 12 constituting the hinge mechanism 14.

  One end 161 of the coil spring 16 is connected to the connecting portion 12 by being inserted into the hole 20 formed in the connecting portion 12. One end 161 of the coil spring 16 has a portion disposed on the outer surface of the connecting portion 12 and a portion inserted into the hole 20 formed in the connecting portion 12, and is disposed on the outer surface of the connecting portion 12. This portion is connected to the central body portion of the coil spring 16, and the portion inserted into the hole 20 formed in the connecting portion 12 is connected to the portion disposed on the outer surface of the connecting portion 12. The central body portion of the coil spring 16 has a spiral shape. A portion arranged on the outer surface of the connecting portion 12 has an arc shape, and has the same shape as the guide groove 21 formed on the outer surface of the connecting portion 12. For this reason, one end 161 of the coil spring 16 is arranged along the guide groove 21 and the position of the one end 161 of the coil spring 16 is displaced (perpendicular to the laminating direction in which the base resins 101 and 102 constituting the luggage board 10 and the core material 103 are laminated). Occurrence of misalignment in the orthogonal direction) can be prevented. The shape of the portion arranged on the outer surface of the connecting portion 12 is not limited to the circular arc shape as shown in FIG. 3, but any shape as long as it is the same shape as the guide groove 21 formed on the outer surface of the connecting portion 12. Can be configured. The portion to be inserted into the hole 20 formed in the connecting portion 12 has a linear shape as shown in FIG. 4 and is bent with the portion arranged along the guide groove 21 formed on the outer surface of the connecting portion 12. Yes. The bending direction is the inner surface side direction of the luggage board 10 as shown in FIG. 4 and is bent about 90 degrees with the portion arranged on the outer surface of the connecting portion 12. As shown in FIG. 4, the portion to be inserted into the hole 20 formed in the connecting portion 12 is configured in a linear shape, so that one end 161 of the coil spring 16 can be easily inserted into the hole 20 formed in the connecting portion 12. it can. Note that the tip surface of the portion inserted into the hole 20 formed in the connecting portion 12 does not need to be a flat surface, and the tip can be rounded or sharpened.

  The other end 162 of the coil spring 16 is disposed along the guide groove 22 formed in the first plate-like portion 11 so as to cover the other end 162 of the coil spring 16 as shown in FIG. The first reinforcing portion 18 is attached to the attaching portion 24 formed on the first plate-like portion 11. Thereby, the other end 162 of the coil spring 16 is connected to the first plate-like portion 11 and the state in which the coil spring 16 is housed in the housing portion 17 can be maintained.

  The other end 162 of the coil spring 16 is configured to be bent in an L shape, and the tip of the bent portion is hooked to the end of the slide region 23 formed at the tip of the guide groove 22. As a result, the other end 162 of the coil spring 16 slides only within the range α of the slide region 23 formed at the tip of the guide groove 22, and the other end 162 of the coil spring 16 is prevented from coming out of the guide groove 22. . Thereby, the other end 162 of the coil spring 16 can be provided with play. The shape of the guide groove 22 formed in the first plate-like portion 11 is such that the other end 162 of the coil spring 16 can be disposed and the other end 162 of the coil spring 16 can be slid within a predetermined range α. Any possible shape can be used as long as it is possible. Further, the shape of the tip of the other end 162 of the coil spring 16 is not limited to the shape bent in an L shape, and the bent portion is hooked to the end of the slide region 23 formed at the tip of the guide groove 22. If so, it can be configured in an arbitrary shape.

  As shown in FIG. 4, the luggage board 10 according to the present embodiment includes two upper and lower base resin members 101 and 102 and a core member 103, and the core member 103 is composed of two base resin members 101 and 102. A three-layer structure welded to each other in a sandwiched state is formed. Further, the decorative member 104 is laminated on the upper surface of the base resin 101 constituting the front side.

  As the base resin 101, 102, a known resin can be used. For example, polyethylene resin, polypropylene resin, ethylene-vinyl acetate copolymer, vinyl chloride resin, ABS resin (acrylonitrile-styrene-butadiene resin), polyamide resin, polystyrene Engineering plastics such as resin, polyester resin, polycarbonate resin, and modified polyphenylene ether are suitable, and fillers such as glass fiber, carbon fiber, calcium carbonate, talc, and mica can be appropriately added. However, as the base resin 101, 102, it is preferable to use a resin that is higher than the rigidity of the core material 103 from the viewpoint of ensuring the rigidity of the luggage board 10 as a whole, in particular, the bending rigidity. In addition, it is preferable to use a resin material having a high melt tension from the viewpoint of preventing the thickness variation from being caused by drawdown, neck-in, etc. It is preferable to use a resin with high fluidity in order to improve the flowability.

  The core material 103 can be a known material. For example, the core material 103 can be made of a known resin similar to the base resin 101 or 102 or a material constituting the decorative member 104 described later. Thereby, the shape of the core material 103 can be formed into a desired shape. The core material 103 is preferably composed of the foam 103 as in the present embodiment. As a result, the weight of the luggage board 10 can be reduced. In this case, it is preferable that the foam 103 has a closed cell structure (closed cell ratio is 70% or more) having a plurality of bubble cells at a foaming ratio of 2.5 to 5.0. Note that examples of the foaming agent applicable when the foam 103 is formed include a physical foaming agent, a chemical foaming agent, and a mixture thereof. Physical foaming agents include inorganic physical foaming agents such as air, carbon dioxide, nitrogen gas, and water, and organic physical foaming agents such as butane, pentane, hexane, dichloromethane, dichloroethane, and their supercritical fluids. Can be applied. The supercritical fluid is preferably made of carbon dioxide, nitrogen, etc. If the nitrogen is nitrogen, the critical temperature is −149.1 ° C., the critical pressure is 3.4 MPa or more, and if carbon dioxide, the critical temperature is 31 ° C., the critical pressure. 7. It can be created by setting it to 4MPa or more. In the following description, the core material 103 is described as the foam 103.

  The foam 103 according to the present embodiment includes a hollow portion 105, a first groove portion 106, and a second groove portion 107. The first groove portion 106 is formed by being recessed from one wall portion constituting the foam 103 toward the other wall portion. The second groove 107 is formed by being recessed from the other wall toward the one wall. The first groove portion 106 and the second groove portion 107 are joined to constitute a plate-like portion 108. The plate-like portion 108 can be formed by compressing the resin constituting the foam 103. The shapes of the first groove portion 106 and the second groove portion 107 are not particularly limited, and can be configured in any shape such as a truncated cone shape, a cylindrical shape, and a prism shape. Since the luggage board 10 of the present embodiment is formed by sandwiching the foam 103 having the hollow portion 105 and the groove portions 106 and 107 between the base resins 101 and 102, the luggage board 10 is lightweight and thin, so that high rigidity can be obtained.

  A known material can be applied to the decorative member 104, for example, a knitted fabric, a woven fabric, a non-woven fabric, or a poly-fiber obtained by processing fibers made of natural fibers, regenerated fibers, semi-synthetic fibers, synthetic fibers and blends thereof. Appropriately selected from thermoplastic elastomers (TPE) such as vinyl chloride (PVC), thermoplastic polyurethane elastomer (TPU) or thermoplastic polyolefin elastomer (TPO), resin sheets made of thermoplastic resins such as polyethylene polyolefin resins, and laminated sheets thereof. Selectable.

  As shown in FIG. 4, the luggage board 10 of the present embodiment has a hole 20 into which the one end 161 of the coil spring 16 is inserted into the base resin 102 and the foam 103 constituting the connecting portion 12. ing. The luggage board 10 of the present embodiment includes a coil spring 16 in which one end 161 of the coil spring 16 is inserted into the hole 20 formed in the base resin 102 and the hole 20 formed in the foam 103 of the portion constituting the connecting portion 12. One end 161 of 16 is connected to the connecting portion 12. Since one end 161 of the coil spring 16 is inserted into two portions of the base resin 102 and the foam 103 constituting the connecting portion 12, the one end 161 of the coil spring 16 is stably connected to the connecting portion 12. be able to. As a result, as shown in FIG. 3, the other end 162 of the coil spring 16 is disposed along the guide groove 22 formed in the first plate-like portion 11, and as shown in FIG. When the first reinforcing portion 18 is attached to the attachment portion 24 formed on the first plate-like portion 11 so as to cover the other end 162 of the 16, the one end 161 of the coil spring 16 can be prevented from wobbling. . For this reason, the 1st reinforcement part 18 can be easily attached to the attachment part 24 formed in the 1st plate-shaped part 11. FIG.

  In the luggage board 10 of the present embodiment, since the holes 20 are formed in the stacking direction in which the base resin 102 and the foam 103 are stacked, the holes 20 are formed in the stacking direction (one direction). Since only one end 161 of the coil spring 16 needs to be inserted in one direction, the one end 161 of the coil spring 16 can be easily connected to the connecting portion 12.

  Further, in the luggage board 10 of the present embodiment, the base resin 102 in the portion where the hole 20 is formed and the foam 103 are separated from each other, so that the one end 161 of the coil spring 16 is held at a plurality of locations. Can do. For this reason, the one end 161 of the coil spring 16 can be stably connected. The portion of the foam 103 that holds the one end 161 of the coil spring 16 is preferably configured to be provided at a position about 2/3 from the root of the one end 161 of the coil spring 16 inserted into the connecting portion 12. . This is because the one end 161 of the coil spring 16 can be stably connected to the connecting portion 12 by holding the vicinity of the tip of the one end 161 of the coil spring 16.

  Further, the hole 20 formed in the foam 103 is preferably formed in a compression portion such as a plate-like portion 108 formed by compressing the foam 103. As a result, even if the coil spring 16 moves after the coil spring 16 is inserted into the hole 20 formed in the foam 103, the foam 103 is hard, so that the end 161 of the coil spring 16 is not expanded without expanding the region of the hole 20. Can be stable. Further, the thickness of the foam 103 can be regulated to make it easy to form the hole 20, or the coil spring 16 can be easily inserted into the hole 20.

  Further, it is preferable to form a hollow portion 105 around the portion where the hole 20 is formed. By forming the hollow portion 105 around the portion where the hole 20 is formed, the portion where the hole 20 is formed can be supported by the hollow portion 105. As a result, even after one end 161 of the coil spring 16 is inserted into the hole 20 formed in the foam 103, the one end 161 of the coil spring 16 is supported by the surrounding hollow portion 105, and the one end 161 of the coil spring 16 is supported by the connecting portion 12. Can be connected stably. Further, since the periphery of the portion where the hole 20 is formed can be supported by the hollow portion 105, the hole 20 can be easily formed. The hollow portion 105 around the portion where the hole 20 is formed is preferably configured in a shape along the base resin 101,102. This is because the hollow portion 105 can be stabilized when the hollow portion 105 and the base resin 101, 102 are in contact with each other.

  The luggage board 10 of the present embodiment is configured to have two hinge mechanisms 14 and 15, and the base resin 102 and the foam that constitute the connecting portion 12 surrounded by the two hinge mechanisms 14 and 15. Since the hole 20 is formed in the hole 103 and one end 161 of the coil spring 16 is inserted into the hole 20 and the one end 161 of the coil spring 16 is connected to the connecting portion 12, the one end 161 of the coil spring 16 is connected to the connecting portion 12. And can be fixed stably. This is because the foam 103 constituting the connecting portion 12 is surrounded by the two hinge mechanisms 14 and 15, so that the foam 103 is unlikely to be displaced. It is preferable that the foam 103 and the base resin 102 on the standing wall of the connecting portion 12 constituting the hinge mechanisms 14 and 15 are configured so that the contact area between the foam 103 and the base resin 102 is large. Thereby, it is possible to make it difficult for the foam 103 constituting the connecting portion 12 to be displaced.

  As shown in FIG. 4, the luggage board 10 of the present embodiment pre-forms a foam 103 in which hinge mechanisms 14 and 15, a hollow portion 105, and groove portions 106 and 107 are formed. Then, the foam 103 formed in advance is sandwiched between the base resins 101 and 102 and the decorative member 104 and welded. At this time, for example, the base resin 102 and the foam 103 are pierced by the tip of the slide pin, and simple holes 20 are formed in the base resin 102 and the foam 103 as shown in FIG. As a result, when the luggage board 10 is formed, a simple hole 20 for inserting the one end 161 of the coil spring 16 can be formed in the base resin 102 and the foam 103 without causing a positional shift. The shapes of the holes 20 formed in the base resin 102 and the foam 103 are not particularly limited, and can be formed in any shape as long as the one end 161 of the coil spring 16 can be inserted. Note that the shape of the hole 20 may be smaller than the cross-sectional shape of the one end 161 of the coil spring 16. Thereby, when one end 161 of the coil spring 16 is inserted into the hole 20, the one end 161 of the coil spring 16 can be firmly held by the base resin 102 and the foam 103 in which the hole 20 is formed.

  Next, the coil spring 16 is disposed in the accommodating portion 17 formed in the connecting portion between the first plate-like portion 11 and the connecting portion 12 constituting the hinge mechanism 14, and one end 161 of the coil spring 16 is connected to the connecting portion 12. Is inserted in one direction into the hole 20 formed in the base resin 102 and the foam 103 of the part 103, and one end 161 of the coil spring 16 is connected to the connecting portion 12. At this time, one end 161 of the coil spring 16 is disposed along the guide groove 21 formed on the outer surface of the connecting portion 12.

  Further, the other end 162 of the coil spring 16 is disposed along the guide groove 22 formed in the first plate-like portion 11 so as to cover the other end 162 of the coil spring 16 as shown in FIG. The first reinforcing portion 18 is attached to the attaching portion 24 formed on the first plate-like portion 11. Further, the second reinforcing portion 19 is attached to the connecting portion 12 so as to cover the hinge mechanisms 14 and 15. Thereby, the luggage board 10 shown to Fig.2 (a) can be formed.

<Operation / Effect of Luggage Board 10 of this Embodiment>
Thus, as shown in FIG. 4, the luggage board 10 of the present embodiment has a hole for inserting one end 161 of the coil spring 16 into the base resin 102 and the foam 103 of the portion constituting the connecting portion 12. 20 is formed in the stacking direction in which the base resin 102 and the foam 103 are stacked. Then, as shown in FIG. 4, one end 161 of the coil spring 16 is inserted in one direction into the hole 20 formed in the base resin 102 and the foam 103 of the portion constituting the connecting portion 12, and the one end 161 of the coil spring 16 is inserted. Is connected to the connecting portion 12. Thereby, the one end 161 of the coil spring 16 can be easily and firmly connected to the connecting portion 12 by a simple operation of inserting the one end 161 of the coil spring 16 into the connecting portion 12. In addition, since one end 161 of the coil spring 16 is inserted into two locations of the base resin 102 and the core material 103 and connected to the plate member 10, the one end 161 of the coil spring 16 is stabilized with respect to the connecting portion 12. Can be connected. As a result, as shown in FIG. 3, the other end 162 of the coil spring 16 is disposed along the guide groove 22 formed in the first plate-like portion 11, and as shown in FIG. When the first reinforcing portion 18 is attached to the attachment portion 24 formed on the first plate-like portion 11 so as to cover the other end 162 of the 16, the one end 161 of the coil spring 16 can be prevented from wobbling. .

  In the configuration shown in FIG. 4, one end 161 of the coil spring 16 is inserted into the hole 20 formed in the base resin 102 and the hole 20 formed in the foam 103, and the one end 161 of the coil spring 16 is connected to the connecting portion 12. Connected.

  However, as shown in FIG. 5, when the hole 20 is formed in the base resin 102, the cylindrical portion 109 erected toward the inside of the luggage board 10 is formed, and the hole 20 formed in the base resin 102 is formed. It is also possible to insert one end 161 of the coil spring 16 into the hole 20 formed in the tubular portion 109 and the foam 103 and connect the one end 161 of the coil spring 16 to the connecting portion 12. The cylindrical portion 109 is formed of the base resin 102 so as to be positioned between the base resin 102 in which the hole 20 is formed and the foam 103. For this reason, when one end 161 of the coil spring 16 is inserted into the hole 20 formed in the base resin 102, the one end 161 of the inserted coil spring 16 is guided to the hole 20 formed in the foam 103, and the coil One end 161 of the spring 16 can be easily inserted into the hole 20 formed in the foam 103. The shape of the cylindrical portion 109 is not particularly limited as long as it is a shape along the outer surface of the one end 161 of the coil spring 16 inserted into the hole 20, and can be configured in an arbitrary shape and has an arbitrary shape having a hollow It is possible to configure in a cylindrical shape. The cylindrical portion 109 can be formed by piercing the base resin 102 with the tip of the slide pin.

  The tubular portion 109 is preferably formed thick. Thereby, the one end 161 of the coil spring 16 can be stably held. For this reason, when forming the cylindrical part 109, it is preferable that the base resin 102 is thick.

  In the configuration shown in FIG. 4, the tip of one end 161 of the coil spring 16 is separated from the base resin 101.

  However, the tip end of the one end 161 of the coil spring 16 is brought into contact with or embedded in the base resin 101, and the hole 20 is formed in the base resin 101 as shown in FIG. It is also possible to configure such that one end 161 of the coil spring 16 is inserted into the hole 20 formed in the above. The tip of one end 161 of the coil spring 16 is fixed by contacting or embedding the tip of the one end 161 of the coil spring 16 with the base resin 101 or by inserting it into the hole 20 formed in the base resin 101. Therefore, the one end 161 of the coil spring 16 can be stably fixed.

  In the configuration shown in FIG. 4, a hole 20 is formed in a compression portion such as a plate-like portion 108 formed by compressing the foam 103, and one end 161 of the coil spring 16 is inserted into the hole 20.

  However, as shown in FIG. 7, it is possible to form the hole 20 in the hollow portion 105 formed in the foam 103 and insert the one end 161 of the coil spring 16 into the hole 20. In the case of the configuration shown in FIG. 7, since the holes 20 are formed in two locations of the hollow portion 105 of the foam 103, the number of locations for holding the one end 161 of the coil spring 16 can be increased. The one end 161 can be stably fixed. As shown in FIG. 7, when one end 161 of the coil spring 16 is held by the hollow portion 105, it is preferable to form a compression portion such as a plate-like portion 108 around the hollow portion 105. As a result, the strength around the hollow portion 108 can be improved, so that the coil spring 16 can be stably held. Note that the shape of the hollow portion 105 into which the one end 161 of the coil spring 16 is inserted is not particularly limited, and can be configured in an arbitrary shape.

  In the configuration shown in FIG. 4, the hole 20 is formed in the foam 103 having the hollow portion 105 and the groove portions 106 and 107, and one end 161 of the coil spring 16 is inserted into the hole 20.

  However, as shown in FIG. 8, it is also possible to form the hole 20 in the solid foam 103 without the hollow portion 105 and the groove portions 106 and 107 and insert the one end 161 of the coil spring 16 into the hole 20. In the case of this configuration, a large area for holding the one end 161 of the coil spring 16 can be secured, so that the one end 161 of the coil spring 16 can be stably fixed.

  The above-described embodiment is a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiment alone, and various modifications are made without departing from the gist of the present invention. Implementation is possible.

  For example, the luggage board 10 can be configured by appropriately combining the components shown in FIGS.

  Further, in the above-described embodiment, as shown in FIG. 4, the upper surface of the base resin 101 that includes the upper and lower base resins 101 and 102 and the single foam 103 and constitutes the front side. A luggage board 10 is formed by laminating a decorative member 104 on the substrate. However, it is also possible to configure the luggage board 10 with one base resin 102 and one foam 103 without providing the base resin 101 and the decorative member 104.

  In the above-described embodiment, one foam 103 is sandwiched between two base resins 101 and 102 and molded. However, the foams 103 constituting the first plate-like part 11, the connecting part 12, and the second plate-like part 13 are individually molded, and the individually molded foams 103 are formed with two base resin materials 101 and 102. It is also possible to mold by sandwiching. In this case, the foam 103 may be interposed between the hinge mechanisms 14 and 15 or may not be interposed.

  In the embodiment described above, as shown in FIG. 4, the first plate-like portion 11, the connecting portion 12, and the second plate-like portion 13 are integrally formed. However, the first plate-like portion 11, the connecting portion 12, and the second plate-like portion 13 can be individually molded and connected. In this case, the hinge mechanism 14 is constituted by the portion connecting the first plate-like portion 11 and the connecting portion 12, and the hinge mechanism 15 is constituted by the portion connecting the connecting portion 12 and the second plate-like portion 13. Will be designed to do. In this case, the hinge mechanisms 14 and 15 can be configured to be connected by a coil spring 16 as shown in FIG.

  In the above-described embodiment, the first plate-like portion 11, the connecting portion 12, and the second plate-like portion 13 are configured to be pivotably connected via hinge mechanisms 14 and 15. However, without providing the hinge mechanism 15, the first plate-like portion 11, the connecting portion 12, and the second plate-like portion 13 can be configured to be pivotably connected via the hinge mechanism 14. is there.

  Further, in the above-described embodiment, the aspect in which the one end 161 of the coil spring 16 is inserted and connected to the base resin 102 and the foam 103 has been described. However, it is also possible to connect the other end 162 of the coil spring 16 by inserting it into the base resin 102 and the foam 103.

  In the above-described embodiment, as shown in FIG. 4, the foam 103 is provided inside the first plate-like portion 11, the connecting portion 12, and the second plate-like portion 13. However, the foam 103 is provided only in the portion constituting the connecting portion 12 into which the one end 161 of the coil spring 16 is inserted, and the one end 161 of the coil spring 16 is inserted into the base resin 102 and the foam 103 and connected. Is also possible.

10 Luggage board (plate-like member)
DESCRIPTION OF SYMBOLS 11 1st plate-shaped part 12 Connection part 13 2nd plate-shaped part 14, 15 Hinge mechanism 16 Coil spring (elastic member)
17 receiving portion 18 first reinforcing portion 19 second reinforcing portion 20 hole 21, 22 guide groove 23 slide region 101, 102 base resin 103 core material (foam)
104 decorative member 105 hollow portion 106 first groove portion 107 second groove portion 108 plate-like portion 109 cylindrical portion

Claims (11)

It is a plate-shaped member that is constituted by laminating at least a core material and a base resin,
Having a hinge mechanism, the plate-like member is rotatable about the hinge mechanism as a rotation axis;
The hinge mechanism is composed of at least an elastic member, and at least one end of the elastic member has a portion arranged on the outer surface of the plate-like member, a portion bent and connected to the portion arranged on the outer surface, The portion to be bent and connected is inserted into the base resin and the core material in a direction in which the base resin and the core material are laminated, and is connected to the plate-like member. A plate-like member characterized by that. The plate-like member according to claim 1, wherein the bent and connected portion is formed in a linear shape .   The plate-like member according to claim 1 or 2, wherein at least one end of the elastic member is inserted into a compression portion formed by compressing the core member.   The plate-shaped member according to claim 3, wherein the core member has a hollow portion around the compression portion.   The plate-shaped member according to claim 1, wherein at least one end of the elastic member is inserted into a hollow portion formed of the core material.   The plate member according to claim 5, wherein the core member has a compression portion formed by compressing the core member around the hollow portion.   The plate member according to claim 1, wherein at least one end of the elastic member is inserted into the solid core member.   The plate-like member according to any one of claims 1 to 7, wherein the base resin and the core material in a portion into which at least one end of the elastic member is inserted are separated from each other. .   9. The base material resin according to claim 1, wherein the base resin in a portion into which at least one end of the elastic member is inserted has a cylindrical shape bent along the elastic member. The plate-like member described in 1. The plate-like member is configured by sandwiching the core material between a first base resin and a second base resin,
The at least one end of the elastic member is inserted into the first base resin and the core material, and is in contact with or inserted into the second base resin. The plate-like member according to any one of claims 1 to 9.   The said core material is a foam, The plate-shaped member in any one of Claims 1-10 characterized by the above-mentioned.

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