JP6680604B2 - Shade device for vehicle - Google Patents

Description

  The present invention relates to a vehicle shade device.

  Sunshade devices and the like are known as shade devices used in automobiles. The sunshade device can cover the window glass of the vehicle by pulling out the screen taken up by the take-up shaft of the take-up device, shielding direct sunlight for anti-glare and ensuring privacy in the room. You can

  Patent Document 1 discloses a sunshade device in which a sunshade unit capable of pulling out a sunshade body is provided between a door trim and a door panel. In this sunshade device, a lighting unit capable of drawing out a plate-shaped lighting member is provided between the door trim and the door panel on the vehicle interior side of the sunshade unit.

JP, 2005-202726, A

However, since the plate-shaped lighting member that emits light is arranged closer to the passenger compartment than the sunshade main body, the plate-shaped lighting member becomes conspicuous.
The above-mentioned problem may also exist in a shade device such as a tonneau cover device other than the sunshade device.

  The present invention has an object to provide a shade device for a vehicle that realizes better illumination in a vehicle interior.

The vehicle shade device of the present invention is a screen main body that can be expanded from the housing position to the shielding range and allows a part of light to pass therethrough,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior ,
When a direction along the expanded screen body and a direction intersecting the direction in which the screen body is expanded are defined as direction a,
The light irradiation unit has a mode in which the light irradiation unit is incorporated in the housing unit, and an emission site for emitting light to be emitted to the back surface of the screen body is arranged along the direction a .

Further, the vehicle shade device of the present invention is a screen main body which can be expanded from the housing position to the shielding range and allows a part of light to pass therethrough,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior,
The screen main body has a hole formed so that a pattern of light is projected on an interior part irradiated with light that has passed through,
The light emitted from the light irradiator to the back surface of the screen body passes through the hole of the screen body, and a pattern of light corresponding to the pattern of the hole is projected on the interior portion .

Furthermore, the vehicle shade device of the present invention is a screen main body that can be expanded from the housing position to the shielding range and allows a part of light to pass therethrough,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior,
The screen body is an optical fiber that transmits the light incident on the back surface of the screen body to another position in the screen body, and the light storage material that stores the energy of the light incident on the back surface of the screen body and emits light by the energy. , And one or more selected from the group of fluorescent materials that emit light in response to light incident on the back surface of the screen body .

  According to the present invention, it is possible to provide a vehicle shade device that realizes better illumination in a vehicle interior.

The perspective view which shows typically the example of the door for vehicles with which the shade device was assembled from the vehicle interior side. The cross-sectional view which shows the example of a shade apparatus typically. The figure which shows the example of a shade apparatus typically. The figure which shows the example of a screen main body typically. The figure which shows the example of a light irradiation part typically. The figure which shows typically the example of the shade apparatus at the time of light irradiation. The figure which shows typically the example which projects a pattern of light on an interior part. The figure which shows typically the example of the interior part by which the pattern of light was projected. The figure which shows typically the example of the screen main body which has the hole formed so that the pattern of light might be projected on an interior part. The figure which shows typically the example of the shade apparatus which has an optical fiber in the screen main body. The figure which shows typically another example of the shade apparatus which has an optical fiber in the screen main body. The figure which shows typically the example of the shade apparatus which has a reflective material in a screen main body. 13A and 13B are diagrams schematically showing an example of a shade device having a phosphorescent material in the screen body. 14A and 14B are views schematically showing an example of a shade device having a fluorescent material in the screen body.

  Hereinafter, embodiments of the present invention will be described. Of course, the following embodiments are merely examples of the present invention, and not all the features shown in the embodiments are essential to the means for solving the invention.

(1) Outline of the present technology:
First, the outline of the technology included in the present invention will be described with reference to the examples shown in FIGS. It should be noted that FIGS. 1 to 14 are schematic views showing examples, and the enlargement ratios in the respective directions shown in these drawings may be different, and the drawings may not match.

[Aspect 1]
The vehicle shade device 1 according to an aspect of the present technology includes a screen body 3, a housing portion 4, and a light irradiation portion 6. The screen body 3 can be expanded from the accommodation position P1 to the shielding range AR1 and allows a part of the light LT0 to pass therethrough. The housing portion 4 can house the screen body 3 in the housing position P1. The light irradiator 6 can irradiate the light LT0 on the back surface 3b of the screen body 3 which is expanded in the shielding range AR1 and which is opposite to the vehicle interior side surface 3a.

  In the above aspect 1, when the light LT0 is applied to the back surface 3b of the screen body 3 expanded in the shielding range AR1, a part of the light LT0 passes through the screen body 3 from the back surface 3b side and enters the inside of the vehicle compartment C1. . On the other hand, the light irradiator 6 is inconspicuous because it is blocked by the screen body 3 when viewed from the passenger in the passenger compartment C1. Since the illumination of the vehicle interior C1 is realized while the light irradiation unit 6 is not conspicuous in this manner, the present embodiment can provide a vehicle shade device that realizes better illumination in the vehicle interior.

Here, the screen including the screen body is a concept including a shade, a blind, a sheet, and the like, as long as it shields a part of the transmitted light, and is not limited to the sunshade. The screen includes a screen having a mesh, a sheet having no mesh, and the like, and specifically includes a sunshade, a tonneau cover, a curtain, and the like.
Adding a material that does not transmit light to a part of the screen body is also included in the present technology.

[Aspect 2]
By the way, as illustrated in FIGS. 3 and 5 and the like, a direction along the expanded screen body 3 and a direction intersecting with a direction in which the screen body 3 is expanded (for example, the drawing direction D22) are a direction a (for example, an axis). Direction D1), the light irradiation part 6 is incorporated in the housing part 4, and the emission part 65 for emitting the light LT0 for irradiating the back surface 3b of the screen body 3 is arranged along the direction a. May be done. This aspect can provide a vehicle shade device suitable for unitization. For example, by illuminating the expanded screen body 3 in a strip shape along the direction a, it is possible to provide a vehicle shade device suitable for indirect illumination or the like.
It should be noted that the present technology also includes a case where the emission site is not arranged along the direction a.

[Aspect 3]
As illustrated in FIGS. 7 to 9, the screen body 3 may have a hole 3h formed so that the pattern PT0 of the light LT0 is projected on the interior portion 8 irradiated with the light LT0 that has passed through. . This aspect can provide a vehicle shade device capable of improving the appearance of the vehicle interior during light irradiation.
Here, the interior portion may be an object to be irradiated with light that has passed through the screen body, and includes a roof trim, a seat, a window, and the like.
It should be noted that the present technology also includes a case in which a hole for projecting a light pattern is not formed in the interior of the screen body.

[Mode 4]
As illustrated in FIGS. 10 to 14, the screen body 3 includes (A) a material (for example, an optical fiber 32) that transmits the light LT0 incident on the screen body 3 to another position in the screen body 3, (B). ) You may have one or more selected from the group of the reflective material 33, the (C) phosphorescent material 34, and the (D) fluorescent material 35. As illustrated in FIGS. 10 and 11, when the material (A) is in the screen body 3, the light LT0 can be emitted from the portion of the screen body 3 where the light LT0 does not enter. As illustrated in FIG. 12, when the reflective material 33 (B) is provided in a part of the screen body 3, it is possible to express lightness and darkness on the screen body 3 irradiated with the light LT0. As illustrated in FIGS. 13A and 13B, when the phosphorescent material 34 (C) is in the screen body 3, the screen body 3 can emit light even when the irradiation of the light LT0 is stopped. As illustrated in FIGS. 14A and 14B, when the fluorescent material 35 (D) is present in the screen body 3, vividness can be expressed in the screen body 3 irradiated with the light LT0. Therefore, this aspect can provide a vehicle shade device capable of enhancing the function of the screen main body.

[Aspect 5]
As illustrated in FIGS. 10 and 11, a vehicle shade device 1 according to another aspect of the present technology includes a screen body 3, a housing portion 4, and a light irradiation portion 6. The screen body 3 can be expanded from the accommodation position P1 to the shielding range AR1. The housing portion 4 can house the screen body 3 in the housing position P1. The light irradiator 6 can irradiate the light LT0 to the incident position 36 of the screen body 3 which is expanded in the shielding range AR1. The screen body 3 has a material (for example, an optical fiber 32) that transmits the light LT0 incident on the incident position 36 to the emission position 37 in the screen body 3.

  In the above aspect 5, when the light LT0 is irradiated to the incident position 36 of the screen body 3 which is expanded in the shielding range AR1, the light LT0 is transmitted to the emission position 37 in the screen body 3 by the material (32). It Thereby, the light LT0 can be emitted from the portion of the screen body 3 where the light LT0 does not enter. Therefore, according to this aspect, it is possible to provide a shade device for a vehicle that realizes better illumination in the passenger compartment.

[Aspect 6]
As illustrated in FIGS. 12 to 14, a vehicle shade device 1 according to another aspect of the present technology includes a screen body 3, a housing portion 4, and a light irradiation portion 6. The screen body 3 can be expanded from the accommodation position P1 to the shielding range AR1. The housing portion 4 can house the screen body 3 in the housing position P1. The light irradiator 6 is capable of irradiating the screen body 3 expanded in the shielding area AR1 with the light LT0. The screen body 3 has at least one selected from the group consisting of a reflective material 33, a luminous material 34, and a fluorescent material 35.

  As illustrated in FIG. 12, when the reflective material 33 is in a part of the screen body 3, it is possible to express light and darkness on the screen body 3 irradiated with the light LT0. As illustrated in FIGS. 13A and 13B, when the phosphorescent material 34 is in the screen body 3, the screen body 3 can emit light even when the irradiation of the light LT0 is stopped. As illustrated in FIGS. 14A and 14B, when the fluorescent material 35 is provided on the screen body 3, vividness can be expressed on the screen body 3 irradiated with the light LT0. Therefore, according to this aspect, it is possible to provide a shade device for a vehicle that realizes better illumination in the passenger compartment.

(2) First specific example of vehicle shade device:
FIG. 1 schematically shows an example of the interior of an automobile in which a sunshade device is assembled as the vehicle shade device 1, and the upper part of a door trim 805 is cut to show the shade device 1. In FIG. 1, an example of a side door is schematically shown as the door 802 to which the sunshade device is assembled, but the door 802 may be a rear door, a roof door, or the like. A vehicle 800 shown in FIG. 1 is a road vehicle designed and equipped to be used on a road, and is a passenger vehicle having a passenger compartment C1 surrounding front and rear seats. A door 802 and a pillar 803 are arranged on the side surface of the vehicle interior C1. The shade device 1 shown in FIG. 1 can substantially cover a side window (door window 806) that can be opened and closed by the screen body 3 drawn out from the housing portion 4. A range covered by the screen body 3 is defined as a shielding range AR1. The portion to which the sunshade device can be attached is not limited to the door, and may be a ceiling portion that cannot be opened or closed. The shade device includes what are called a shielding device, a blind device, and a winding device.

  The door 802 is provided with a door panel 804, a door trim 805, a door window 806, a hook portion 810, and the like. The door panel 804 is a kind of metal body panel such as a steel plate. The window 806 is formed of a transparent material such as glass. The trim 805 is an interior material that is mounted on the vehicle compartment side of the panel 804, and is a molded product obtained by molding a resin material such as a thermoplastic resin by injection molding or the like, and a surface material such as a nonwoven fabric, a woven fabric, or a knitted fabric on the interior base material of the resin material A laminate of materials can be used. The trim 805 shown in FIG. 1 is provided with an armrest 807 having a shape that allows an occupant to rest his / her elbow to keep the posture comfortable. The shade device 1 is arranged on the rear surface of the trim 805 above the armrest 807. In the door 802 shown in FIG. 1, hook portions 810 are attached to the front side and the rear side above the window 806.

  FIG. 1 schematically illustrates a state (accommodation position P1) in which the screen body 3 is wound (accommodated) by the winding unit 50, and the screen body 3 is pulled out upward (shielding range AR1. The state (extended to the position) (drawing position P2) is illustrated by a two-dot chain line. FIG. 2 schematically illustrates a cross section of the shade device 1. FIG. 3 schematically illustrates the shade device 1, and also illustrates an enlarged vertical cross section of a main part of the winding unit 50. FIG. 4 schematically illustrates the screen body 3. FIG. 5 schematically illustrates the light irradiation unit 6. Reference numeral AX1 indicates the rotation axis of the tubular portion 51, reference numeral D1 indicates the axial direction of the tubular portion 51, reference numeral D11 indicates the case direction from the trim 805 to the case 40, and reference numeral D12 indicates the trim from the case 40. The trim direction toward 805 is shown, the code D21 shows the housing direction of the screen body 3, and the code D22 shows the drawing direction of the screen body 3. The housing direction D21 and the drawing direction D22 are opposite to each other, and in the example shown in FIGS. 1 and 2, the housing direction D21 is substantially downward and the drawing direction D22 is substantially upward. Here, the pull-out direction D22 is an example of a direction along the expanded screen body 3 and a direction in which the screen body 3 is expanded. The axial direction D1 is an example of a direction a that intersects the drawing direction D22, and is a direction substantially orthogonal to the drawing direction D22 in the example shown in FIGS. It should be noted that “substantially orthogonal” includes strict orthogonality and a direction slightly deviated from the strict orthogonality, and means that the angle formed by the two directions is 75 ° or more and 105 ° or less. The angle formed by the direction a and the drawing direction D22 may be 45 ° or more and 135 ° or less, preferably 60 ° or more and 120 ° or less.

  The screen 2 is also called a shielding sheet, a blind sheet, etc., and blocks a part of transmitted light. The screen body 3 of the screen 2 is formed on the outer peripheral surface of the tubular portion 51 of the winding portion 50 by a thin material having flexibility that can be wound, and cuts a flexible soft material into a desired shape. It is formed by Thereby, the screen body 3 can be pulled out from the predetermined accommodation position P1 to the predetermined drawing position P2. A garnish 21 that is harder and thicker than the screen body 3 is formed on the pull-out end 20 of the screen 2. The base edge of the screen body 3 on the opposite side of the garnish 21 is fastened to the outer surface of the tubular portion 51 by, for example, a double-sided tape.

  The screen body 3 may be a material having a mesh or a sheet material without a mesh, as long as it can block a part of light, and a cloth such as a polyester woven fabric, a leather using a resin material, or a resin material is molded. Sheets, etc. can be used. The light-shielding rate (JIS L1055: 2009A method) of the screen body 3 is preferably 50 to 80%, more preferably 60 to 75%. By setting the light-shielding rate to the above lower limit or more, a suitable antiglare property can be obtained, which is also suitable in terms of privacy protection and crime prevention during parking, and the light irradiation section 6 on the back surface 3b side of the screen body 3 is also provided. Is preferably hidden. When the light-shielding rate is less than or equal to the upper limit described above, suitable visibility from the vehicle interior C1 as an automobile is obtained, and good illumination is provided by the light LT0 from the light irradiation unit 6 on the back surface 3b side of the screen body. Will be realized. Since the screen main body 3 has a light blocking ratio of less than 100%, it transmits part of the light LT0.

  The screen body 3 shown in FIG. 4 is provided with a large number of holes 3h penetrating in the thickness direction (direction perpendicular to the paper surface of FIG. 4). The area ratio of all the holes 3h to the screen body 3 is not particularly limited, but can be 10 to 40%, for example. Increasing the area ratio can reduce the light blocking rate, and decreasing the area ratio can increase the light blocking rate. The diameter of the hole 3h in the case of a circular shape is not particularly limited, but can be, for example, 0.5 to 3 mm.

  The garnish 21 has an operating portion 25 at an intermediate portion in the longitudinal direction along the axial direction D1, and has hook portions 22 at two positions sandwiching the operating portion 25. For the garnish 21, a rod-shaped member, a cylindrical member, a plate-shaped member, or the like can be used, and a molded product such as a synthetic resin injection molded product can be used. For example, when the screen main body 3 is in the storage position P1, the screen main body 3 is pulled out from the storage part 4 by pinching the operating part 25 by hand, and the hook part 22 of the garnish 21 is hooked on the hook part 810 of the door 802. The door window 806 is almost covered with the screen body 3. Further, when the hook portion 22 of the garnish 21 is removed from the hook portion 810 of the door 802 by manually grasping the operating portion 25 while the screen body 3 is in the pull-out position P2, the screen body 3 is wound around the winding portion 50. Can be taken.

  The accommodating portion 4 shown in FIG. 3 and the like includes a half case 40 having wall portions 41 and 42 at both ends in the longitudinal direction (axial direction D1), and accommodates the screen body 3 in the accommodating position P1. The case 40 shown in FIG. 2 has a side surface portion 46 in which an opening 47 is formed, and a door trim 805 is fitted to the vehicle interior C1 side, so that a slit 48 for pulling out the screen body 3 (an example of an outlet). To form an internal space SP1. The side surface portion 46 means a portion around the cylindrical portion 51 in the case 40, as the “side surface” means a surface other than the bottom surface such as a prism or a cylinder. In the case 40 shown in FIGS. 2 and 3, a bearing portion 41 a that rotatably supports the support shaft portion 53 of the winding portion 50 is formed on one wall portion 41, and an end of the winding portion 50 is formed on the other wall portion 42. The part 51b is fixed. The thick garnish 21 is inserted into the slit 48 when the screen body 3 is accommodated. The bottom surface of the slit 48 serves as a receiving surface 49 that receives the thick garnish 21 that has entered the slit 48. The receiving surface 49 is connected to the inner surface 46c of the side surface portion 46 and is on the back surface 3b side of the screen body 3. For the case 40, a molded product such as a synthetic resin injection molded product can be used.

The winding unit 50 shown in FIGS. 2 and 3 includes a tubular portion 51, a support shaft portion 53, a bearing portion 52, and a spring 56 (an example of a biasing portion 55), and the screen body 3 is biased by the spring 56. Can be wound up.
The cylindrical portion 51 shown in FIG. 3 is a long member having both ends opened, is arranged rotatably around the rotation axis AX1 in the internal space SP1, and the screen body 3 can be wound on the outer peripheral surface. . The tubular portion 51 is also called a barrel member or the like. A member for winding the screen main body on the outer peripheral surface may be a tubular shape such as a cylindrical shape like the tubular portion 51, or a rod shape such as a column shape. As the material of the tubular body, a metal such as aluminum, a synthetic resin such as a thermoplastic resin, or the like can be used. The size of the cylindrical portion is not particularly limited, and for example, the inner diameter can be about 4 to 20 mm and the outer diameter can be about 6 to 30 mm.

  The support shaft portion 53 is a member arranged at one end (end portion 51 a) of the winding portion 50, and is fitted into one open end of the tubular portion 51 so as not to rotate, and the end portion 51 a is attached to the case 40. Is rotatably inserted in the bearing portion 41a of the wall portion 41 of the. Therefore, the support shaft portion 53 is rotatably supported by the wall portion 41. For the support shaft portion 53, a molded product such as a synthetic resin injection molded product can be used. The bearing portion 52 is a member arranged at the other end (end portion 51b) of the winding portion 50, is fitted into the other open end of the tubular portion 51, and the end portion 51b is fixed to the wall portion 42 of the case 40. Has been done. The tubular portion 51 into which the support shaft portion 53 is fitted is rotatably supported by the wall portion 42 via the bearing portion 52. One end of a spring 56, which is a coil spring, is fixed to the bearing portion 52 of the portion inserted into the opening of the tubular portion 51. The coil spring is also called a coil spring, a spiral spring, or the like. The other end of the spring 56 is fixed to the hook portion 51c. The hooking portion 51c is a member that is inserted into the tubular portion 51 so as not to rotate relative to the tubular portion 51. The spring 56 biases the screen 2 in the housing direction D21. Usually, the winding unit 50 having the urging unit 55 is attached to the case 40 while applying the urging force in the winding direction DR1 to the screen body 3 even if the screen body 3 is housed in the case 40.

The urging portion may be arranged not only on the inner peripheral side of the tubular portion 51 but also on the outer peripheral side of the tubular portion, outside the end portion in the longitudinal direction of the tubular portion, and the like. The urging portion may be a unit independent of the tubular portion, an inner spring unit inserted into the tubular portion, or an outer spring unit attached to the outside of the tubular portion. The biasing portion may be a spiral spring, an elastic member such as elastomer or rubber, or the like.
The present technology also includes an electric type in which the screen body is pulled out and wound up by driving a motor, a case where the screen body is manually wound up without a biasing mechanism in the winding shaft, and the like.

  The light irradiation unit 6 shown in FIG. 2 is incorporated in the case 40 (housing portion 4) from the screen body 3 on the back surface 3b side, and irradiates the light LT0 to the back surface 3b of the screen body expanded in the shielding range AR1. Since the light irradiation section 6 is on the back surface 3b side of the screen body 3, this specific example can prevent the light irradiation section from being directly visible. The emission part 65 shown in FIGS. 2 and 3 is arranged on the receiving surface 49 and arranged along the axial direction D1 (direction a). FIG. 5 shows an example of realizing such a long emission part 65. FIG. 5 schematically illustrates an example of a light irradiation unit that irradiates the screen body 3 with the light LT0 from the light source 61 via the elongated light guide 62. The light guide body 62 shown in FIG. 5 is a rod member having a substantially quadrangular prism shape, and is arranged with its longitudinal direction oriented in the axial direction D1. The end face 62c in the longitudinal direction of the light guide body 62 is a portion on which the light LT0 from the light source 61 is incident. At least the end surface 62c and the emission site 65 are surfaces having regular transparency so that reflection and diffusion are suppressed. On the reflecting surface 62b of the light guide body 62, a plurality of concave portions 63 for reflecting the light LT0 incident from the end surface 62c toward the emitting portion 65 are formed at intervals in the longitudinal direction D1. Therefore, the light LT0 is emitted from the emitting portion 65 along the axial direction D1. It should be noted that light from another light source may also be incident from the end face 62d of the light guide body 62 in the longitudinal direction.

As the light guide body 62, a transparent molded product or the like made by molding a transparent material by a known method such as injection molding can be used. The transparent material is a resin having transparency such as acrylic (PMMA) resin, polycarbonate (PC) resin, acrylonitrile butadiene styrene (ABS) resin, silicone (SI) resin, polyethylene (PE) resin, polypropylene (PP) resin. Materials and the like can be used.
Each surface (the surfaces 65, 62b, 62c, 62d, etc.) of the light guide body 62 may be formed not only as a flat surface but also as a part or all of a curved surface. Further, the light guide body 62 may have a shape in which a part or all of the light guide body 62 extends not only in a linear shape but also in a curved shape.

The light source 61 shown in FIG. 5 is connected with a switch SW1 for switching between turning on and off. The switch SW1 includes an operation switch that receives an operation from an occupant, a door open detection switch that switches depending on whether the door is open, a door lock detection switch that switches depending on whether the door is locked, and an ignition is turned on. It is possible to apply an ignition switch that switches depending on whether or not it is, a combination thereof, and the like.
As the light source 61, an LED (light emitting diode), an incandescent light bulb, a halogen light bulb, a fluorescent lamp, a discharge lamp, or the like can be used. The LED is preferable because it is lightweight, has a long life, and saves power and space. Various colors such as white, red, green, and blue can be adopted as the light emitting color of the light source, and light sources of different light emitting colors may be used in combination.

  Although not shown, a plurality of light sources may be arranged on the receiving surface 49 at intervals along the axial direction D1 without using a light guide. In this case as well, the emission site 65 is arranged along the direction a.

Next, the operation and effect of the first specific example will be described.
When the screen body 3 is expanded to the shielding range AR1 and the switch SW1 is switched to turn on the light source 61, the light LT0 from the emitting portion 65 is irradiated to the back surface 3b of the screen body 3 as shown in FIG. A part of this light LT0 passes through the screen body 3 from the back surface 3b side and enters the inside of the vehicle compartment C1. When the back surface 3b of the screen body 3 is illuminated in a strip shape along the axial direction D1 as shown in FIG. 2, the vehicle interior side surface 3a of the screen body 3 becomes bright in a strip shape along the axial direction as shown in FIG. When the emission part 65 is in the case 40, as shown in FIG. 6, the band-shaped part on the case 40 side in the vehicle interior side surface 3a of the screen body becomes brighter than the part on the extraction end 20 side. On the other hand, the light irradiator 6 is inconspicuous because it is blocked by the screen body 3 when viewed from the passenger in the passenger compartment C1. In this way, since the light irradiation unit 6 is inconspicuous and suitable indirect illumination of the vehicle interior C1 is realized, the present specific example can achieve good indirect illumination in the vehicle interior.

(3) Second specific example of vehicle shade device:
FIG. 7 schematically shows a second specific example in which the pattern of the light LT0 that has passed through the expanded screen body 3 is projected on the interior portion 8 of the automobile 800. Note that, in the second concrete example and thereafter, constituent elements similar to those in the above-described examples are denoted by the same reference numerals, and description thereof may be omitted.

  The shade device 1 shown in FIG. 7 is designed so that the light LT0 passing through the screen body 3 is applied to the roof trim (an example of the interior portion 8). The roof trim is an interior material that decorates the ceiling of the vehicle interior C1. When the screen body 3 has a pattern such as the hole 3h illustrated in FIG. 9, the pattern PT0 of the light LT0 corresponding to this pattern is projected on the interior portion 8. FIG. 8 schematically illustrates the interior portion 8 onto which the pattern PT0 of the light LT0 is projected. FIG. 9 schematically illustrates the screen body 3 having the hole 3h formed in the interior portion 8 so that the pattern PT0 of the light LT0 is projected. In the lower part of FIG. 9, an enlarged view of a main part of the screen body 3 including the hole 3h is schematically illustrated.

  In order to clearly form the pattern PT0 of the light LT0 on the interior portion 8, the light irradiation unit 6 may be designed so that the light LT0 having high directivity is emitted from the emission site 65.

  If the optical axis of the light LT0 (one-dot chain line shown in FIG. 7) passing through the expanded screen body 3 is not orthogonal to the screen body 3, a hole 3h is formed depending on the angle between the optical axis of the light LT0 and the screen body 3. The shape of can be designed. For example, when projecting a diamond-shaped pattern PT0, which is longer in the vehicle width direction D2 than in the front-rear direction (axial direction D1) as shown in FIG. 8, on the interior portion 8, as shown in FIG. Rhombic holes 3h having different ratios may be formed in the screen body 3.

In this specific example, since the pattern PT0 of the light LT0 that has passed through the screen body 3 from the back surface 3b side and entered the inside of the vehicle interior C1 is projected on the interior portion 8, it is possible to improve the appearance of the vehicle interior during light irradiation. You can Further, the pattern PT0 of the light LT0 projected on the interior portion 8 can be changed only by changing the pattern of the hole 3h of the screen body 3.
Since a part of the light LT0 passes through the screen body 3 from the back surface 3b side into the inside of the vehicle cabin C1 by the hole 3h, this specific example is used when the part other than the hole 3h in the screen body 3 does not pass light. It is also applicable to.

(4) Third specific example of vehicle shade device:
FIG. 10 schematically shows a third specific example in which the screen body 3 has the functional material 31. On the right side of FIG. 10, a main part of the screen 2 viewed from the inside of the vehicle interior C1 is schematically illustrated, and both ends 32a and 32b of the optical fiber 32 are indicated by black circles. The functional material 31 shown in FIG. 10 is an optical fiber 32 that is a material that transmits the light LT0 from the incident position 36 of the screen body 3 which is spread in the shielding area AR1 to the emitting position 37 in the screen body 3. The entrance position 36 shown in FIG. 10 is set on the lower side of the screen body 3 near the exit part 65 of the light LT0. The end portion 32a of the optical fiber 32 on which the light LT0 from the emission site 65 is incident is directed toward the back surface 3b at the incident position 36 of the screen body 3. The emission position 37 shown in FIG. 10 is set on the upper side farther from the emission position 65 of the light LT0 than the incidence position 36 of the screen body 3. An end portion 32b of the optical fiber 32 from which the transmitted light LT0 is emitted is directed toward the vehicle interior side surface 3a at the emission position 37 of the screen body 3.

  When the light LT0 is irradiated from the light emitting portion 65 to the light incident position 36 on the back surface 3b of the screen body 3, a part of the light LT0 enters the optical fiber 32 from the end 32a, is transmitted to the optical fiber 32, and is emitted. It is discharged from the end portion 32b at the position 37 to the inside of the vehicle interior C1. Thereby, the light LT0 can be emitted from the emission position 37 where the light LT0 is not incident on the screen body 3. The light LT0 that has not entered the end portion 32a of the optical fiber 32 passes through the screen body 3 from the back surface 3b and enters the inside of the vehicle compartment C1. Therefore, in this specific example, from a wide range (for example, the entire area) of the screen main body 3 including the output position 37 where the light LT0 is not irradiated only by irradiating the incident position 36 which is a part of the screen main body 3. The light LT0 can be emitted inside the passenger compartment C1. Therefore, the present specific example can realize good indirect illumination in the passenger compartment.

If the incident end portion 32a of the optical fiber 32 is directed toward the vehicle interior side surface 3a, even if the emission part 65 of the light LT0 is inside the vehicle interior C1 as shown in FIG. The light LT0 can be emitted from 37. The light irradiation unit 6 shown in FIG. 11 is incorporated in the door trim 805, and irradiates the light LT0 from the emission portion 65 to the vehicle interior side surface 3a at the incident position 36 of the screen body 3. The emission site 65 is also arranged, for example, along the axial direction D1. A part of this light LT0 enters the optical fiber 32 from the end 32a, is transmitted to the optical fiber 32, and is emitted inside the vehicle interior C1 from the end 32b at the emission position 37. Therefore, also in this modification, good indirect illumination can be realized in the passenger compartment.
Furthermore, the light irradiation unit 6 may have both an emission part that irradiates the back surface 3b of the screen body with light and an emission part that irradiates the vehicle interior side surface 3a of the screen body with light.

  Furthermore, since the light LT0 exits from the exit position 37 different from the entrance position 36 to illuminate the vehicle interior, this specific example is also applicable when the screen body does not transmit light.

(5) Fourth specific example of vehicle shade device:
FIG. 12 schematically shows a fourth specific example in which the screen body 3 has the reflective material 33 as the functional material 31. In the lower part of FIG. 12, an enlarged view of a main part of the screen body 3 including a hole 3h is schematically illustrated. The reflector 33 shown in FIG. 12 reflects the light LT0 emitted from the emission site 65 of the light emitting unit 6. As the reflecting material 33, various materials such as metal and fine glass beads having a reflectance higher than that of a portion of the screen body 3 which is not the reflecting material can be used. As shown in FIG. 12, when the reflective material 33 is provided in a part of the screen body 3, bright and dark are expressed on the screen body 3 irradiated with the light LT0.

  For example, when the emission part 65 of the light LT0 is inside the vehicle interior C1 rather than the screen body 3 as shown in FIG. 11, the light LT0 from the emission part 65 is inside the vehicle interior C1 by the reflecting material 33. Reflect toward. When a retroreflective material that is returned in a direction close to the opposite direction of the light is used as the reflective material 33, it is possible to prevent the reflected light from the reflective material 33 from going toward the occupant in the passenger compartment C1. Good lighting is achieved in the passenger compartment.

  When the emitting portion 65 of the light LT0 is on the back surface 3b side of the screen body 3 as shown in FIG. 10, the light LT0 from the emitting portion 65 is reflected by the reflecting material 33 toward the outside of the vehicle interior C1. In this case, in the portion of the screen body 3 without the reflection material 33, part of the light LT0 passes through the screen body 3 from the back surface 3b side and enters the passenger compartment C1, and the portion with the reflection material 33 does not pass through the light LT0. Be cut off. As a result, a pattern appears on the screen body 3 during light irradiation, so that good lighting is realized in the passenger compartment. The reflective material 33 in this case may also be a retroreflective material.

The light irradiator 6 may have both an emission part that irradiates the back surface 3b of the screen body with light and an emission part that irradiates the interior side surface 3a of the screen body with light.
Further, since the light LT0 is reflected by the reflecting material 33, the appearance of the screen body as illumination is improved. Therefore, this specific example can be applied even when the screen body does not transmit light.

(6) Fifth specific example of vehicle shade device:
13A and 13B schematically show a fifth specific example in which the screen body 3 has the phosphorescent material 34 as the functional material 31. The phosphorescent material 34 shown in FIGS. 13A and 13B is a material that accumulates light energy when receiving light and emits light by the accumulated energy even if the light is interrupted. As the light storage material 34, for example, various materials such as a material in which strontium or a rare earth element is bound to aluminum oxide can be used.

  As shown in FIG. 13A, when the screen body 3 is irradiated with the light LT0 from the emission portion 65 of the light irradiation unit 6, the screen body 3 itself becomes bright and indirect illumination is realized in the vehicle interior C1. The emission part 65 of the light LT0 may be on the back surface 3b side of the screen body 3 as shown in FIG. 10, or may be on the inner side of the passenger compartment C1 than the screen body 3 as shown in FIG. Alternatively, it may be provided on both the back surface 3b side and the inside of the vehicle interior C1. At the time of light irradiation, the phosphorescent material 34 arranged on the screen body 3 stores the energy of the light LT0. The light-storing material 34 emits light by the stored light energy, but is inconspicuous in the state where the light LT0 from the emission site 65 is irradiated. When the switch SW1 is switched to turn off the light source 61 (see FIG. 5) in this state, the screen body 3 becomes dark, but as shown in FIG. 13B, the phosphorescent material 34 emits light by the accumulated light energy. Therefore, in this example, it is possible to cause the screen body 3 to emit light even when the irradiation of the light LT0 is stopped, and it is possible to realize good illumination in the passenger compartment. As shown in FIG. 13B, when the phosphorescent material 34 is in a part of the screen body 3, the phosphorescent material 34 makes a brighter pattern appear than in a portion of the screen body 3 where the phosphorescent material 34 is not present.

  In addition, since the lighting is realized in the passenger compartment by emitting light from the phosphorescent material 34 when the screen is turned off, this specific example can be applied even when the screen body does not transmit light.

(7) Sixth specific example of vehicle shade device:
14A and 14B schematically show a sixth specific example in which the screen body 3 has the fluorescent material 35 as the functional material 31. The fluorescent material 35 shown in FIGS. 14A and 14B is a material that emits light having a short decay time when receiving light. As the fluorescent material 35, for example, various inorganic fluorescent materials and various organic fluorescent materials can be used.

  When the switch SW1 is switched so that the light source 61 (see FIG. 5) is turned off, the fluorescent material 35 having a short emission decay time quickly becomes dark as shown in FIG. 14A. When the switch SW1 is switched so that the light source 61 is turned on, the screen body 3 itself becomes bright and indirect illumination is realized in the vehicle interior C1. The emission part 65 of the light LT0 may be on the back surface 3b side of the screen body 3 as shown in FIG. 10, or may be on the inner side of the passenger compartment C1 than the screen body 3 as shown in FIG. Alternatively, it may be provided on both the back surface 3b side and the inside of the vehicle interior C1. At the time of light irradiation, the fluorescent material 35 arranged on the screen body 3 emits light having a short decay time to give vividness to the screen body 3. Therefore, in this specific example, vividness can be expressed in the screen body 3 irradiated with the light LT0, and good lighting can be realized in the passenger compartment. As shown in FIG. 14B, when the fluorescent material 35 is present in a part of the screen body 3, the fluorescent material 35 brings out a brighter pattern than the portion of the screen body 3 without the fluorescent material 35.

The light emitted by the light irradiation unit 6 is not limited to visible light, and may be invisible light such as black light. Black light is near ultraviolet light with a wavelength of 320 to 400 nm (ultraviolet light with a long wavelength). When the screen body 3 having the fluorescent material 35 is irradiated with black light, the portion of the screen body 3 without the fluorescent material 35 does not become bright, while the portion of the screen body 3 having the fluorescent material 35 rises brightly. Therefore, also in this modification, good lighting can be realized in the passenger compartment.
The light emitted by the light irradiation unit 6 may include both visible light and invisible light.

  Furthermore, since the fluorescent material 35 imparts vividness to the screen body 3 during light irradiation, this specific example is also applicable to the case where the screen body does not transmit light.

  In addition, it is also possible to combine two or more specific examples arbitrarily selected from the second specific example, the third specific example, the fourth specific example, the fifth specific example, and the sixth specific example. For example, it is assumed that the screen body 3 has a hole 3h as shown in FIG. 9 and an optical fiber 32 as shown in FIG. In this case, as shown in FIG. 8, the pattern PT0 of the light LT0 is projected on the interior portion 8, and the light LT0 is emitted from the wide range of the screen body 3 to the inside of the vehicle interior C1. Therefore, even better lighting is realized in the passenger compartment. Further, it is assumed that the screen main body 3 has the phosphorescent material 34 as shown in FIG. 13A and the fluorescent material 35 as shown in FIG. 14A. In this case, a bright pattern of the fluorescent material 35 emerges as shown in FIG. 14B during light irradiation, and a pattern of light emitted by the phosphorescent material 34 emerges as shown in FIG. 13B when turned off.

(8) Modification:
Various modifications of the present invention are possible.
The installation location of the shade device as the sunshade device may be a rear window, a roof window, or the like other than the side window. The shade device may be a tonneau cover device, a curtain device, or the like, and is not limited to a screen winding device. The direction in which the screen is expanded may be downward, horizontal, etc. other than upward.
The screen may be formed by using a material other than the garnish and the screen main body, in addition to the above-mentioned garnish and the screen main body. For example, a soft edge reinforcing material such as a soft resin may be added to an edge portion connecting the drawing end 20 and the base edge of the screen body 3, that is, at least one of both end portions in the axial direction D1.
The accommodating portion for accommodating the screen main body may be a case that encloses substantially the entire circumference of the screen main body to be accommodated, or a trim such as a door trim, in addition to the half case.

(9) Conclusion:
As described above, according to the present invention, according to various aspects, it is possible to provide a technique such as a vehicle shade device that realizes better illumination in a vehicle interior. Needless to say, the above-described basic operation and effect can be obtained even with a technology that does not have the constituents according to the dependent claims but only has the constituents according to the independent claims.
Further, the configurations disclosed in the above-described examples are mutually replaced or the combinations are changed, the configurations disclosed in the known art and the examples described above are mutually replaced, or the combinations are changed. It is also possible to implement such a configuration. The present invention also includes these configurations and the like.

1 ... Shade device,
2 ... screen, 3 ... screen body, 3a ... vehicle interior side surface, 3b ... back surface, 3h ... hole,
4 ... storage part, 6 ... light irradiation part, 8 ... interior part,
20 ... Draw-out end, 21 ... Garnish, 22 ... Hooking part, 25 ... Operation part,
31 ... Functional material, 32 ... Optical fiber, 33 ... Reflective material, 34 ... Luminescent material, 35 ... Fluorescent material,
36 ... Incident position, 37 ... Outgoing position,
40 ... Case, 41, 42 ... Wall part, 46 ... Side part, 48 ... Slit, 49 ... Receiving surface,
50 ... Winding part, 51 ... Cylindrical part, 52 ... Bearing part, 53 ... Spindle part, 55 ... Energizing part,
61 ... Light source, 62 ... Light guide, 62b ... Reflective surface, 63 ... Recessed portion, 65 ... Emitting site,
800 ... automobile, 802 ... door, 805 ... trim, 806 ... window,
AR1 ... Shielding range, AX1 ... Rotating axis, C1 ... Cabin,
D1 ... axial direction (example of direction a), D2 ... vehicle width direction, D21 ... accommodation direction,
D22 ... drawing direction (example of expanding screen body), DR1 ... winding direction,
LT0 ... light,
P1 ... accommodation position, P2 ... drawing position, PT0 ... pattern.

Claims (3)

A screen body that can spread from the storage position to the shielding range and allows a part of the light to pass,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior ,
When a direction along the expanded screen body and a direction intersecting the direction in which the screen body is expanded are defined as direction a,
The shade unit for a vehicle , wherein the light irradiation unit is incorporated in the housing unit, and an emission portion for emitting light to be emitted to the back surface of the screen body is arranged along the direction a . A screen body that can spread from the storage position to the shielding range and allows a part of the light to pass,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior,
The screen body, light pattern interior portion through the light is irradiated to have a hole formed so as to be projected,
A shade device for a vehicle, wherein light emitted from the light irradiator to the back surface of the screen main body passes through a hole of the screen main body and a light pattern corresponding to the pattern of the hole is projected on the interior portion . A screen body that can spread from the storage position to the shielding range and allows a part of the light to pass,
An accommodating portion for accommodating the screen main body in the accommodating position,
A light irradiation unit for irradiating light on the back surface of the screen body, which is expanded in the shielding range, opposite to the side surface in the vehicle interior,
The screen body, phosphorescent material fiber for transmitting the light incident on the rear surface of the screen body to another position within the screen body, accumulates the energy of light incident on the rear surface of the screen body emits light by the energy , and has one or more selected from the group of fluorescent material that emits light by receiving light incident on the rear surface of the screen body, the vehicle shade apparatus.