JP6247152B2 - Winding device - Google Patents

Description

  The present invention relates to a winding device installed in a passenger compartment of an automobile.

  A sunshade device is provided on a vehicle door or the like for the purpose of blocking direct sunlight for preventing glare or ensuring privacy in the vehicle. In many cases, a sunshade device for a vehicle door winds up and stores a shading screen inside the door body when not in use. At the time of use, the screen is drawn upward along the window glass, and the hook at the tip of the screen is held at the use position by being engaged with the engagement portion on the door side, and covers the window glass.

  In the door sunshade assembly shown in Patent Document 1, a part of the upper side of the door trim that is attached to the interior side of the inner panel of the side door is constituted by an outer case of the sunshade assembly. An opening of a shade sheet (a kind of screen) is formed in the longitudinal direction of the outer case. An abutting piece that abuts on the upper end of the door trim is integrally formed outward at the indoor edge of the opening. An attachment portion to be attached to the flange portion of the inner panel is integrally formed at the edge portion on the door glass side in the opening portion. An upper piece provided with a rising holding piece having a concave surface for holding the synthetic resin shade frame at the shade sheet lead-out end corresponding to the contact piece is formed on the mounting portion. The shade frame is a hard member that sandwiches the end portion of the shade sheet with a pair of sandwiching pieces folded via an integral hinge. The distance between the contact piece and the holding piece is adjusted to the thickness of the shade frame. Therefore, the shade frame does not enter the case from the concave surface when the shade sheet is wound up.

JP 2000-006660 A

However, since the distance between the contact piece and the holding piece is narrow, when the shade sheet is wound up, the shade frame is lifted from the concave surface of the holding piece, that is, between the contact piece and the holding piece. May be in a state. Such a condition reduces the appearance of the sunshade.
Note that the above-described problem may also exist in a winding device other than a sunshade device, such as a tonneau cover device.

  An object of the present invention is to provide a winding device that can prevent the screen drawing end from protruding from the drawing portion of the screen during screen winding.

The winding device of the present invention is a screen having a thick part thicker than the screen main body in a portion including the drawer end;
A winding shaft for winding the screen;
An accommodating portion for accommodating the winding shaft;
A drawing part formed with a slit through which the screen is drawn from the housing part,
The lead-out portion includes a first slit edge portion on one side of the screen body to be pulled out, a second slit edge portion on the other surface side of the screen body to be pulled out, and the second slit edge on the other surface side. A receiving surface that is connected to the inner surface of the housing portion and is connected to the inner surface of the housing portion rather than the portion to receive the drawer end, and
The receiving surface has a corner connected to the inner surface of the housing portion,
In the thick portion, when the screen is wound up, the portion on the screen main body side enters the housing portion, and in the state where the screen is wound up, one side of the screen main body is a corner of the receiving surface. A bent portion that is bent so as to be convex along the portion is formed.

  ADVANTAGE OF THE INVENTION According to this invention, the winding apparatus which can suppress that a screen drawer end protrudes from the drawer part of a screen at the time of screen winding can be provided.

It is a perspective view which shows the example of the side door 802 which assembled | attached the winding apparatus 1 from the vehicle interior C1 side. 1 is a vertical sectional view illustrating a winding device 1. FIG. It is a figure which illustrates the principal part of the screen 2 which has the thick part 10 which can be bent and deformed. FIG. 2A is a plan view illustrating the winding device 1, and FIG. 2B is a side view illustrating a case 40 in which the winding shaft 3 is provided. (A)-(e) is a figure which illustrates typically winding operation of the screen 2 which has the thick part 10 which can be bent and deformed. (A)-(c) is a figure which illustrates typically the principal part of the thick part 10 which has the groove | channel 12a. It is a figure which illustrates typically the principal part of the thick part 10 which has the groove | channel 12a and the uneven | corrugated shape 18. FIG. (A)-(c) is a figure which illustrates typically the principal part of the thick part 10 which has the protrusion 12b. It is a figure which illustrates typically the principal part of thick part 10 which has ridge 12b and uneven shape 18. (A) is a figure which illustrates typically the principal part of the thick part 10 which has the groove | channel 12a and the protrusion 12b, (b) is the principal part of the thick part 10 which has the groove | channel 12a, the protrusion 12b, and the uneven | corrugated shape 18. It is a figure which illustrates typically. It is a figure which illustrates typically the formation method of the thick part 10 which has the groove | channel 12a. It is a figure which illustrates typically the formation method of the thick part 10 which has the protrusion 12b. (A)-(d) is a vertical sectional view which illustrates the thick part 10 previously shape | molded by the convex shape along the corner | angular part 55 of the receiving surface 54. FIG. It is a figure which illustrates typically the method of shape | molding previously in the convex shape along the corner | angular part 55 of the receiving surface 54 of the thick part. (A)-(e) is a figure which illustrates typically winding operation of the screen 2 which has the thick part 10 previously shape | molded by the convex shape along the corner | angular part 55 of the receiving surface 54. FIG. (A) is a top view which shows the winding device 1 which concerns on a modification, (b) is a side view which shows the case 40 which provides the winding shaft 3 in a modification. (A)-(c) is a perspective view which shows the principal part of case 40 in various modifications. (A), (b) is a figure which illustrates typically chamfering depth d1. (A)-(e) is a figure which illustrates typically winding operation of the screen 902 which concerns on a comparative example.

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

(1) Overview of this technology:
First, an outline of the present technology will be described with reference to FIGS. 1 to 18 are schematic views, and the drawings may not be consistent.

  The winding device 1 includes, as basic elements, a screen 2 having a thick portion 10 thicker than the screen main body 2a in a portion including the drawer end 20, a winding shaft 3 for winding the screen 2, and the winding shaft. 3, and a drawer portion 5 formed with a slit 50 through which the screen 2 is pulled out. The drawer 5 includes a first slit edge 51 on the one surface 2a1 side of the screen body 2a to be pulled out, a second slit edge 52 on the other surface 2a2 side of the screen body 2a to be pulled out, and the other surface 2a2 side, the receiving surface 54 which receives the said drawer | drawing-out end 20 which came out to the said screen main body 2a side from the said 2nd slit edge part 52, was connected to the inner surface 46c of the said accommodating part 4, and entered the said slit 50. FIG. The receiving surface 54 has a corner portion 55 connected to the inner surface 46 c of the housing portion 4. When the screen 2 is wound up, the thick-walled portion 10 has a portion (14) on the screen body 2a side that enters the accommodating portion 4, and the screen body 2 is wound in the state where the screen 2 is wound up. A bent portion 12 is formed so that the one surface 2a1 side of 2a is bent so as to protrude along the corner portion 55 of the receiving surface 54.

  First, referring to the winding device 901 of the comparative example schematically shown in FIGS. 19A to 19E, the thick portion 910 provided in the portion including the drawer end 20 of the screen 902 has no bent portion. The winding operation of the screen 902 will be described. The thick portion 910 has a function of holding the shape of the drawing end of the screen 902 by the core material 22, is thicker than the screen body 2 a by the design material that wraps the core material 22, and is not easily bent and deformed. There is a door provided with a door window on the vehicle exterior side (case direction D11 side) from the accommodating portion 4 shown in FIG. Since the screen 902 drawn out from the accommodating portion 4 needs to be along the door window as much as possible, the slit 50 (drawer portion 5) through which the screen 2 is drawn out is closer to the door side (case direction D11) than the axis AX1 of the winding shaft 3. On the side). A receiving surface 54 that receives the thick portion 910 is provided at the back of the slit 50. The receiving surface 54 protrudes further toward the screen body 2 a than the second slit edge 52 on the door side and is connected to the inner surface 46 c of the housing portion 4.

  FIG. 19A shows the state of the screen 902 that is moving in the accommodation direction D21. FIG. 19B shows a state where the main body side edge 14a of the thick portion 910 is in contact with the first slit edge 51 (door trim 805). Thereafter, the thick portion 910 enters the slit 50 as shown in FIG. 19C while rotating to the door side (case direction D11 side), and the main body side edge 14a is in the vicinity of the corner portion 55. 54 is contacted. By design, the thick portion 910 further rotates to the door side, and the main body side edge 14a enters the accommodation space SP1 of the winding shaft 3 as shown in FIG. As shown in FIG. 19E, it is preferable that the main body side edge 14a further enters the accommodation space SP1.

  In practice, as shown in FIG. 19 (d), the main body side edge 14a pulled by the screen main body 2a in the direction close to the direction along the inner surface 46c of the case may stop in a state in which the main body side edge 14a enters the accommodation space SP1 very slightly. . Further, as shown in FIG. 19C, the main body side edge 14a pulled by the screen main body 2a in the above-mentioned direction may stop in a state where it abuts against the receiving surface 54. In either case, the drawer end 20 of the screen 902 is in a state of protruding from the slit 50. In order to improve the appearance of the winding device 901 during screen winding, it is preferable that the screen drawing end 20 does not protrude from the slit 50. In addition, if the winding force (spring urging force) of the winding shaft 3 is increased so that the main body side edge 14a enters the housing space SP1, the burden on the occupant increases when the screen 902 is pulled out.

  In the case of the present technology, as illustrated in FIGS. 5A to 5E, the one surface 2 a 1 side of the screen body 2 a is convex along the corner portion 55 of the receiving surface 54 with the screen 2 being wound up. The thick portion 10 has a bent portion 12 that is bent in the middle. Thereby, when the screen 2 is wound up, the lifting of the screen drawing end 20 from the receiving surface 54 is suppressed. Therefore, the present technology can provide a winding device that can prevent the screen drawing end from protruding from the screen drawing portion during screen winding without increasing the winding force of the winding shaft.

Here, the thick part may be substantially thicker than the screen main body, and may be a part where a thin part such as a groove, a through hole, and the like are partially provided.
The screen is not limited to awning as long as it shields at least part of transmitted light. The screen includes a screen having a mesh, a sheet without a mesh, and the like.
The slit includes not only a linear slit but also a curved slit.

  By the way, the thick portion 10 may not be bent and deformed, but may be bent and deformed with the bent portion 12 as a starting point. The bending deformation means that the shape is changed by the bending operation. In this aspect, since the degree of bending of the thick portion 10 becomes weak when the screen 2 is pulled out, the appearance of the screen can be improved.

The bent portion 12 of the thick portion 10 may be formed at least one of the groove 12a and the protrusion 12b. Note that “strip” means a line. A ridge means a protruding line. When the bent portion 12 is formed by the groove 12a so that the strength is lower than that in the vicinity of the bent portion 12, the thick portion 10 can be formed so as to be bent and deformed starting from the bent portion. Even if the bent portion 12 is formed by the protrusion 12b so that the strength is lower than that in the vicinity of the bent portion 12, the thick portion 10 can be formed so as to be bent and deformed starting from the bent portion. Therefore, this aspect can improve the appearance of the screen with a simple structure.
The bent portion 12 may be formed by a plurality of parallel grooves, the bent portion 12 may be formed by a plurality of parallel protrusions, or the bent portion 12 may be formed by a combination of parallel grooves and protrusions. It may be formed.

  The bent portion 12 of the thick-walled portion 10 may be formed in advance in a shape in which the one surface 2a1 side of the screen body 2a is convex along the corner portion 55 of the receiving surface 54. By forming the bent portion 12 in such a shape in advance, when the screen 2 is wound up and the portion (14) on the screen body 2a side of the thick portion 10 enters the accommodating portion 4, the receiving surface 54 Further lifting of the screen drawer end 20 is further suppressed. Therefore, this aspect can further suppress the protrusion of the screen drawer end from the drawer portion.

  Here, in the thick portion 10, a portion on the screen main body 2 a side from the bent portion 12 is a main body side portion 14, and a portion on the drawing end 20 side from the bent portion 12 is a drawing side portion 16. . An uneven shape 18 having a groove 18a and a protrusion 18b along the drawing direction D22 of the screen 2 connected to the bent portion 12 may be formed in at least one of the main body side portion 14 and the drawing side portion 16. If the concavo-convex shape 18 is formed so that the thick-walled portion 10 is easily bent starting from the bent portion 12, it is possible to further suppress the protrusion of the screen drawing end from the drawn portion. In addition, the uneven | corrugated shape 18 may be formed only in one of the main body side site | part 14 and the extraction | drawer side site | part 16, and may be formed in both the said site | parts 14 and 16. FIG.

  An operation unit 23 may be provided in the middle of the drawing end 20 in the longitudinal direction DL2. The thick wall portion 10 may have a core material 22 that is passed through the operation portion 23 with its longitudinal direction directed to the longitudinal direction DL2 of the extraction end 20, and the operation portion 23 passes through the core material 22. You may have the bag-like part 21 which formed the opening 21c in the location provided, and pinched | interposed the edge part (2c) by the side of the said drawer end 20 in the said screen main body 2a. In this aspect, it is possible to improve the operability of pulling out the screen because the screen drawer end is prevented from entering the drawer portion too much.

(2) Specific examples of the winding device:
FIG. 1 shows an example in which the winding device 1 is used as a sunshade device for a side door (802) of an automobile 800, and shows the winding device 1 by cutting an upper portion of a door trim 805. An automobile 800 shown in FIG. 1 is a road traveling automobile designed and equipped to be used on a road, and is a passenger automobile in which a passenger compartment C1 surrounding a front seat and a rear seat is formed. A door 802 and a pillar 803 are arranged on the side surface of the passenger compartment C1. The winding device 1 as a sunshade device is assembled to the door 802. The winding device includes what is called a shielding device, a shade device, or a blind device. A winding device 1 shown in FIG. 1 is a winding device that is attached to the inside of the upper edge of a door trim 805 as an interior material of a side door and that can draw out the screen 2.

  The door 802 is provided with a door panel 804, a door trim 805, a door window 806, and the like. The door panel 804 is a kind of metal body panel such as a steel plate. The trim 805 is an interior material attached to 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 an outer skin 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 put on an elbow to keep the posture easy. The winding device 1 is disposed on the back surface of the trim 805 above the armrest 807.

  FIG. 1 shows an example of the winding device 1 in which the screen 2 is wound (contained) on the winding shaft 3 by a solid line, and shows a state in which the screen 2 is drawn upward by a two-dot chain line. FIG. 2 is a vertical cross-sectional view showing an example of the winding device 1 and shows a vertical cross-section passing through the operation unit 23. FIG. 3 is a diagram illustrating the main part of the screen 2, and also shows a vertical sectional view of the thick part 10, a perspective view of the operation part 23, and an enlarged view of the locking hole 21d and its periphery. FIG. 4A is a plan view showing an example of the winding device 1. FIG. 4B is a side view showing an example of the case 40 provided with the winding shaft 3, and also shows an enlarged cross-sectional view of the main part of the winding shaft 3.

  Reference numeral D21 indicates the accommodation direction of the screen 2, reference numeral D22 indicates the drawing direction of the screen 2, reference numeral AX1 indicates the axis of the winding shaft 3, and reference numeral D11 indicates the case direction from the trim 805 to the case 40. Reference numeral D12 indicates a trim direction from the case 40 toward the trim 805, reference numeral DR1 indicates a winding direction of the screen 2, and reference numeral D1 indicates an axial direction of the winding shaft 3. The accommodation direction D21 and the withdrawal direction D22 are opposite directions, for example, the accommodation direction D21 is substantially downward, and the withdrawal direction D22 is substantially upward. The case direction D11 and the trim direction D12 are opposite to each other. For example, the case direction D11 is a substantially outer direction in the vehicle width direction of the automobile 800, and the trim direction D12 is a substantially inner direction in the vehicle width direction of the automobile 800. For ease of illustration, the magnification in each direction may be different and the figures may not be consistent.

  The screen 2 is also called a shielding sheet or a blind sheet, and shields at least part of transmitted light. The screen body 2a of the screen 2 is formed of a thin material having flexibility that can be pulled out from a predetermined winding position P11 to a predetermined pulling position P12, and can be wound from the pulling position P12 to the winding position P11. The screen main body may be a material having a mesh or a sheet-like material without a mesh, and a cloth such as a polyester fabric, a leather using a resin material, a sheet formed from a resin material, or the like can be used. The screen body may be a translucent sheet, a transparent sheet that blocks ultraviolet rays, or the like. Ultraviolet rays and the like are also included in the transmitted light. The screen body for the sunshade device is formed by, for example, cutting a flexible soft material having a light shielding property of about 50 to 90% into a required shape, and is drawn upward from the half case 40 to be a vehicle door. Cover the window from inside the cabin. The winding device 1 blocks sunlight to prevent occupants from glare, and reduces visibility from outside the vehicle for privacy protection and crime prevention during parking.

  Double-sided tape is bonded to the base edge 2b of the screen body 2a shown in FIG. The base end edge 2b of the screen body is bonded to the outer surface of the cylindrical body 31 by winding the cylindrical body 31 of the winding shaft 3 around the area where the double-sided tape is bonded.

  A thick portion 10 that is thicker than the screen main body 2a is provided at the leading edge 2c of the screen main body 2a shown in FIG. The thick portion 10 is in a portion including the drawer end 20 of the screen 2 and has a bag-like portion 21 and a core material 22. A core member 22 penetrating through the through hole 23 a of the operation portion 23 is inserted into the bag-like portion 21.

  The bag-like portion 21 shown in FIG. 3 is formed by folding a material different from that of the screen main body 2a and welding it to the front end edge 2c across the front end edge 2c of the screen main body 2a. A longitudinal space 21a parallel to AX1 is formed inside. The term “welding” means heating and bonding at a high temperature. The core material 22 is passed through the space 21a. In the bag-like portion 21, an opening 21c is formed in the middle of the longitudinal direction DL2 of the extraction end 20, for example, the central portion 20c of the longitudinal direction DL2. The opening 21c is a place where the operation unit 23 is provided. In the bag-like portion 21, an opening that forms a locking hole 21 d with the core member 22 is formed between each of the both end portions 20 e and 20 e and the opening 21 c. When the screen 2 is pulled out, a door-side hook is inserted into the locking hole 21d and the pull-out end 20 is hooked on the hook, whereby the screen 2 can be kept pulled out. The bag-shaped portion 21 can be a leather using a resin material such as a thermoplastic resin, a molded product obtained by molding a resin material by injection molding or the like. In this specification, the leather means a cloth with an adhesion layer of a polymer material such as a resin material on both sides or one side. It is preferable to use leather or the like containing a thermoplastic material for the bag-like portion because it is easily welded to the screen body. From the viewpoint of welding to the screen body, the material for forming the bag-like portion 21 is preferably thicker than the screen body.

  The core material 22 is harder than the screen body 2 a and the bag-like portion 21, and is passed through the operation portion 23 and the bag-like portion 21 with the longitudinal direction directed toward the longitudinal direction DL 2 of the extraction end 20. The core member 22 has a function as a guide member that supports the operation unit 23 rotatably around the core member 22 and guides the drawer end 20 when the screen 2 is pulled out. As the core member 22, 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. As this synthetic resin, thermoplastic resins such as polycarbonate (PC), acrylonitrile butadiene styrene copolymer (ABS), and materials obtained by adding additives to these materials can be used.

  The operation part 23 is harder than the screen main body 2a and the bag-like part 21, and is provided in the middle of the drawing end 20 in the longitudinal direction DL2, for example, in the central part 20c in the longitudinal direction DL2. The operation part 23 has a base part 23 b in which a through hole 23 a through which the core material 22 is passed in a state where there is some play, and a planar operation piece 23 c substantially parallel to the core material 22. Therefore, the operation part 23 is lever-shaped, and the screen 2 can be easily pulled out from the storage part 4 by gripping the operation part 23. The operation unit 23 may be a resin molded product such as a thermopolyolefin (TPO) injection molded product.

  The winding shaft 3 shown in FIG. 4 (b) has a cylindrical body 31, a support shaft portion 33, and a bearing portion 32, and is provided with a spring 61 (biasing mechanism 6). The screen body 2a can be wound up. The cylindrical body 31 is accommodated in the case 40 so as to be rotatable about the axis AX1, and holds the base end edge 2b of the screen body 2a. The cylindrical body 31 may have a cylindrical shape such as a cylindrical shape or a rod shape such as a columnar shape. As the material of the cylindrical body, a metal such as aluminum, a synthetic resin such as a thermoplastic resin, or the like can be used. The magnitude | size of a cylindrical cylindrical body is not specifically limited, For example, an internal diameter can be about 4-20 mm and an outer diameter can be about 6-30 mm. The support shaft portion 33 is a member provided at one end 30 a of the take-up shaft 3, and is inserted into the hole 41 a of one wall portion 41 in the longitudinal direction (axial direction D1) of the case 40. It is rotatably supported. The support shaft portion 33 is fitted so as not to rotate with respect to the cylindrical body 31. The bearing portion 32 is a member provided on the other end 30b of the winding shaft 3, and is fixed to the other wall portion 42 in the longitudinal direction (D1) of the case 40, and the cylindrical body 31 is rotatably fitted on the outside. It has been. One end of a spring 61 that is a coil spring is fixed to the fixed portion of the bearing portion 32. The other end of the spring 61 is fixed to the latching portion 31c. The hook 31c is a member that is inserted into the cylindrical body 31 and fixed. The spring 61 biases the screen 2 in the accommodation direction D21. Usually, the winding shaft 3 provided with the urging mechanism 6 is attached to the case 40 in a state in which the urging force in the winding direction DR1 is applied to the screen 2 even when the screen 2 is stored in the case 40.

The urging mechanism may be disposed on the outer peripheral side of the cylindrical body, on the outer side of the end portion in the longitudinal direction of the cylindrical body, etc., in addition to being disposed on the inner peripheral side of the cylindrical body 31. The urging mechanism may be unitized, may be an inner spring unit inserted into the cylindrical body, or may be an outer spring unit provided outside the cylindrical body. The biasing mechanism may be a spiral spring, an elastic member such as elastomer or rubber, and the like.
Further, the present invention includes a case where the winding shaft does not have an urging mechanism and the screen is manually wound.

  The half case 40 shown in FIGS. 2, 4 and the like has a pair of wall portions 41 and 42 formed at both ends in the axial direction D1 of the winding shaft 3 at the housing position P10, and a side surface portion in which an opening 47 is formed. 46, and constitutes an accommodating portion 4 for accommodating the take-up shaft 3. The side surface 46 means a portion around the winding shaft 3 when the case 40 is in the storage position P10 so that the “side surface” means a surface other than the bottom surface such as a prism, a cylinder, or the like. . Therefore, the side part 46 also includes a part arranged at the front and rear as seen from the user like the back part 46a and a part arranged up and down like the bottom part 46b.

  The wall portions 41 and 42 facing each other in the longitudinal direction (axial direction D1) of the case 40 are formed in a standing wall shape substantially orthogonal to the axial direction D1. One end 30a of the winding shaft 3 is inserted into the hole 41a of the one wall portion 41, and the wall portion 41 supports the one end 30a of the winding shaft 3 so as to be rotatable about the axis AX1. The other wall portion 42 fixes the other end 30 b of the winding shaft 3. The opening 47 is a portion that is substantially covered with the door trim 805, and is also a portion from which the screen body 2a is pulled out.

  The case 40 is combined with the trim 805 to form an accommodation space SP1 such as the winding shaft 3 and the screen body 2a. The case 40 is a halved body that constitutes a part of the housing portion of the winding device 1, and components such as the screen 2 may be assembled in advance to form a unit. By inserting known fastening means such as a screw through a plurality of holes 40a formed in the unitized case 40, the case 40 is fastened to the trim 805, and the winding device 1 is integrated with the vehicle body. The case 40 may be a molded product such as a synthetic resin injection molded product. As the synthetic resin, a lightweight and inexpensive general-purpose resin can be used for the case. Examples of such general-purpose resins include polypropylene (PP), polyethylene (PE), materials obtained by adding additives to these materials, and the like.

A slit 50 through which the screen 2 is drawn out from the accommodating portion 4 is formed in the drawing portion 5 shown in FIGS. The edges of the slit 50 are a first slit edge 51 on the door trim 805 side which is the one surface 2a1 side of the screen body 2a to be pulled out, and a second slit on the case 40 side which is the other surface 2a2 side of the screen body 2a to be pulled out. And an edge portion 52. The case 40 includes an outwardly extending portion 43 extending from the second slit edge 52 toward the case direction D11 opposite to the first slit edge 51, and an accommodation direction D21 of the screen body 2a from the second slit edge 52 ( A stepped portion 53 (downward) and a receiving surface 54 that protrudes from the second slit edge 52 toward the screen main body 2a (trim direction D12) and is connected to the inner surface 46c of the case 40 are formed. The outward extending portion 43 is formed so as to continue from the trim 805 with the slit 50 interposed therebetween. The step portion 53 is a planar portion that connects the outward extending portion 43 and the receiving surface 54 in a stepped manner. The receiving surface 54 is a planar portion formed so as to be parallel to the outward extending portion 43, and between the first slit edge 51 and the second slit edge 52 on the other surface 2 a 2 side of the screen body. The screen drawer end 20 entered is received. It can be said that the receiving surface 54 is a portion pulled from the inner surface 46c of the housing portion in the opposite case direction D11 from the screen body 2a, and the corner portion 55 of the receiving surface 54 connected to the inner surface 46c of the housing portion 4 is directly below the first slit edge 51. It is in. Since the receiving surface 54 connected to the inner surface 46c of the storage portion is directly below the slit 50 on the other surface 2a2 side of the screen main body, the screen main body 2a drawn out from the storage space SP1 is the second portion where it comes into contact with the corner portion 55. After turning to the slit edge 52 side, the slit 50 exits to the outside.
Further, when the screen body 2 a is wound on the winding shaft 3, the screen drawing end 20 is placed on the receiving surface 54 in a state where the screen drawing end 20 is inclined toward the second slit edge 52 side.

(3) Specific examples of thick parts that can be bent and deformed:
5A to 5E schematically show the winding operation of the screen 2 having the thick-walled portion 10 that can be bent and deformed. In the present technology, as illustrated in FIG. 5 (e), when the screen 2 is wound, at least the main body side edge 14 a enters the accommodating portion 4 in the thick portion 10, and the bent portion 12 is the starting point. The thick portion 10 is bent. The bent portion 12 is bent so that the one surface 2a1 side of the screen body 2a is convex along the corner portion 55 of the receiving surface 54 in a state where the screen 2 is wound. Note that the bent portion 12 is bent so that the one surface 2a1 side is convex as seen from the direction along the axis AX1 in the vicinity of the bent portion 12, as shown in parentheses in FIG. 5 (e). Sometimes, the angle θ1 on the one surface 2a1 side formed by the main body side portion 14 and the drawing side portion 16 is larger than the angle θ2 on the other surface 2a2 side formed by the main body side portion 14 and the drawing side portion 16. The main body side portion 14 is a portion on the screen main body 2 a side from the bent portion 12. The drawing side portion 16 is a portion on the drawing end 20 side from the bent portion 12.
Hereinafter, various thick parts 10A to 10N included in the thick part 10 will be described.

FIGS. 6A to 6C schematically show the main portions of the thick-walled portions 10 </ b> A to 10 </ b> C that can be bent and deformed and have grooves 12 a formed as the bent portions 12. The thick portions 10 </ b> A to 10 </ b> C are welded except for the space 21 a of the bag-like portion 21. The welded part 11 is a welded part among the thick parts 10A to 10C.
FIG. 6A shows a thick portion 10A in which a groove 12a whose longitudinal direction is directed to the longitudinal direction DL2 of the screen drawing end 20 is formed on both the one surface 2a1 side and the other surface 2a2 side of the screen body 2a. . The right side of FIG. 6A shows a cross section of the thick portion 10A at the position A1-A1 in FIG. In the thick portion 10A, the thickness T3 of the groove 12a is made thinner than the thickness T2 of the main body side portion 14 and the extraction side portion 16 near the groove 12a, so that the thick portion 10A can be bent and deformed from the groove 12a. It is said that.

FIG. 6B shows the thick portion 10B in which the grooves 12a are intermittently formed along the longitudinal direction DL2 of the extraction end 20. The right side of FIG. 6B shows a cross section of the thick portion 10B at the position A1-A1 passing through the groove 12a and at the position A2-A2 not passing through the groove 12a. Also in the thick portion 10B, the thickness T3 of the groove 12a is made thinner than the thickness T2 of the main body side portion 14 and the extraction side portion 16 near the groove 12a, so that the thick portion 10B is bent and deformed from the groove 12a. It is possible.
FIG. 6C shows a thick portion 10 </ b> C in which a plurality of grooves 12 a whose longitudinal direction is directed in the longitudinal direction DL <b> 2 of the extraction end 20 are formed. On the right side of FIG. 6C, a cross section of the thick portion 10C at the position A1-A1 in FIG. By forming the plurality of grooves 12a, the thick portion 10C is easily bent and deformed starting from the grooves 12a, and the protrusion of the extraction end 20 from the extraction portion 5 is further suppressed. The grooves 12a are not limited to the two shown in FIG. 6C, and may be three or more. At least a part of the plurality of grooves 12a may be formed intermittently.

When the thickness of the screen body 2a is T1, the thickness T3 of the groove 12a in the thick portions 10A to 10C is preferably T1 <T3. This is because the structure of the material of the screen body is maintained when the material of the screen body is present in the groove 12a.
Further, the groove 12a may be formed only on the other surface 2a2 side without being formed on the one surface 2a1 side, or may be formed only on the one surface 2a1 side without being formed on the other surface 2a2 side.

  FIG. 7 shows a thick portion 10D in which an uneven shape 18 connected to the bent portion 12 and having a plurality of grooves 18a along the drawing direction D22 of the screen 2 is formed in both the main body side portion 14 and the drawing side portion 16. Yes. For easy understanding, the grooves 12a and 18a appearing on the surface are hatched. The right side of FIG. 7 shows a cross section of the thick portion 10D at the position A1-A1 that does not pass through the groove 18a. The middle of FIG. 7 shows a cross section of the thick portion 10D at the position A2-A2 passing through the groove 18a. 7 shows a cross section of the thick portion 10D at the position A3-A3 in FIG. The grooves 18a of the main body side portion 14 and the drawer side portion 16 are formed on both the one surface 2a1 side and the other surface 2a2 side of the screen main body 2a. Since the groove 18a having the longitudinal direction in the drawing direction D22 is connected to the groove 12a which is the bent portion 12, the thick portion 10D is easily bent and deformed from the groove 12a, and the drawing end 5 from the drawing portion 5 is easily bent. The protrusion is further suppressed.

The thickness of the groove 18a in the thick portion 10D is preferably larger than the thickness T1 of the screen body 2a. This is because the structure of the material of the screen body is maintained when the material of the screen body is present in the groove 18a.
Further, the groove 18 a may be formed only in the extraction side region 16 without being formed in the main body side region 14, or may be formed only in the main body side region 14 without being formed in the extraction side region 16. Of course, the groove 18a may be formed only on the other surface 2a2 side without being formed on the one surface 2a1 side, or may be formed only on the one surface 2a1 side without being formed on the other surface 2a2 side. The longitudinal direction of the groove 18a may deviate from the drawing direction D22 within, for example, 45 ° (more preferably within 30 °, and even more preferably within 15 °).

FIGS. 8A to 8C schematically show the main portions of the thick-walled portions 10 </ b> E to 10 </ b> G that can be bent and deformed with the protrusions 12 b formed as the bent portions 12. The thick portions 10E to 10G are also welded except for the space 21a of the bag-like portion 21.
FIG. 8A shows a thick portion 10E in which protrusions 12b whose longitudinal direction is directed to the longitudinal direction DL2 of the screen drawing end 20 are formed on both the one surface 2a1 side and the other surface 2a2 side of the screen body 2a. Yes. On the right side of FIG. 8A, a cross section of the thick portion 10E at the position A1-A1 in FIG. In the thick portion 10E, the thickness T4 of the portion of the ridge 12b is made larger than the thickness T2 of the main body side portion 14 and the extraction side portion 16 near the ridge 12b, so that the portion of the ridge 12b in the thick portion 10E. Welding is weakened, and the thick portion 10E can be bent and deformed from the protrusion 12b.

FIG. 8B shows the thick portion 10 </ b> F in which the protrusions 12 b are formed intermittently along the longitudinal direction DL <b> 2 of the extraction end 20. The right side of FIG. 8B shows a cross section of the thick portion 10F at the position A1-A1 passing through the ridge 12b and at the position A2-A2 not passing through the ridge 12b. Also in the thick portion 10F, the thickness T4 of the portion of the protrusion 12b is made larger than the thickness T2 of the main body side portion 14 and the extraction side portion 16 near the protrusion 12b, so that the thick portion 10F starts from the protrusion 12b. It can be bent and deformed.
FIG. 8C shows a thick portion 10G in which a plurality of protrusions 12b whose longitudinal direction is directed to the longitudinal direction DL2 of the extraction end 20 are formed. On the right side of FIG. 8C, a cross section of the thick portion 10G at the position A1-A1 in FIG. By forming a plurality of protrusions 12b, the thick portion 10G is easily bent and deformed starting from the protrusion 12b, and the protrusion of the extraction end 20 from the extraction portion 5 is further suppressed. The protrusions 12b are not limited to the two shown in FIG. 8C, and may be three or more. At least a part of the plurality of protrusions 12b may be formed intermittently.

  The protrusion 12b may be formed only on the other surface 2a2 side without being formed on the one surface 2a1 side, or may be formed only on the one surface 2a1 side without being formed on the other surface 2a2 side.

  FIG. 9 shows a thick portion 10H in which an uneven shape 18 having a plurality of protrusions 18b along the drawing direction D22 of the screen 2 connected to the bent portion 12 is formed in both the main body side portion 14 and the drawing side portion 16. ing. For easy understanding, the protrusions 12b and 18b appearing on the surface are hatched. The right side of FIG. 9 shows a cross section of the thick portion 10H at the position A1-A1 that does not pass through the protrusion 18b. The middle of FIG. 9 shows a cross section of the thick portion 10H at the position A2-A2 passing through the protrusion 18b. Below FIG. 9, the cross section of the thick part 10H in the position of A3-A3 of FIG. 9 is shown. The protrusions 18b of the main body side portion 14 and the drawer side portion 16 are formed on both the one surface 2a1 side and the other surface 2a2 side of the screen main body 2a. Since the ridge 18b whose longitudinal direction is directed to the drawing direction D22 is connected to the ridge 12b which is the bent portion 12, the thick portion 10H is easily bent and deformed from the ridge 12b, and the drawn portion of the drawn end 20 The protrusion from 5 is further suppressed.

  The protrusion 18b may be formed only on the drawer side portion 16 without being formed on the main body side portion 14, or may be formed only on the main body side portion 14 without being formed on the drawer side portion 16. Of course, the protrusion 18b may not be formed on the one surface 2a1 side but may be formed only on the other surface 2a2 side, or may not be formed on the other surface 2a2 side but only on the one surface 2a1 side. The longitudinal direction of the protrusion 18b may deviate from the drawing direction D22 within, for example, 45 ° (more preferably within 30 °, even more preferably within 15 °).

  Furthermore, the uneven | corrugated shape 18 which has the protrusion 18b as shown in FIG. 9 may be connected with the groove | channel 12a as shown in FIG. 6 (a)-(c), and FIG. The protrusions 12b as shown in FIG. 7 may be connected to the concavo-convex shape 18 having the grooves 18a as shown in FIG.

  The bent portion 12 may be a combination of the groove 12a and the protrusion 12b. Fig.10 (a) has shown the thick part 10I in which the protrusion 12b was formed in the both sides of the groove | channel 12a. The right side of FIG. 10A shows a cross section of the thick portion 10I at the position A1-A1 in FIG. The bent portion 12 includes a groove 12a and a plurality of protrusions 12b that are parallel to each other with the longitudinal direction thereof directed toward the longitudinal direction DL2 of the extraction end 20. The thickness T3 of the groove 12a in the thick portion 10I is T1 <T3 <T2, and the thickness T4 of the protrusion 12b in the thick portion 10I is T2 <T4. By combining the grooves 12a and the ridges 12b that are parallel to each other, the thick-walled portion 10I is easily bent and deformed starting from the bent portion 12, and the protrusion of the pull-out end 20 from the pull-out portion 5 is further suppressed. Of course, the groove 12a and the protrusion 12b may be formed intermittently. A plurality of grooves 12a may be provided.

  FIG. 10B shows that the concavo-convex shape 18 having a plurality of protrusions 18 b along the extraction direction D <b> 22 of the screen 2 connected to the protrusions 12 b around the intermittent groove 12 a is formed between the main body side part 14 and the extraction side part 16. The thick part 10J formed in both is shown. For easy understanding, the protrusions 12b and 18b appearing on the surface are hatched. The right side of FIG. 10B shows a cross section of the thick portion 10J at the position A1-A1 that does not pass through the protrusion 18b and at the position A2-A2 that passes through the protrusion 18b. Since the protrusion 18b whose longitudinal direction is directed to the drawing direction D22 is connected to the protrusion 12b of the bent portion 12, the thick-walled portion 10J is easily bent and deformed from the groove 12a, and the protruding portion 5 of the extraction end 20 is easily bent. Is further suppressed. Of course, the uneven shape 18 may be a plurality of grooves 18a.

  Moreover, the uneven | corrugated shape 18 mentioned above may be the combination of the groove | channel 18a and the protrusion 18b. Of course, the uneven shape 18 may be formed only in one of the main body side portion 14 and the extraction side portion 16.

Next, an example of a method for forming the thick portion 10 that can be bent and deformed will be described.
FIG. 11 schematically shows an example of a welder 100 for forming the thick portion 10 having the groove 12a. The welder 100 includes molds 101 and 102 having protrusions 101a and 102a for forming the grooves 12a. By using this welder 100, for example, the thick portion 10 can be formed as follows.

  First, the design material 25 is folded in half so as to wrap the core material 22 in the design material 25 in which the opening 21c and the locking hole 21d as shown in FIG. 3 are formed, and the edges 25a and 25a of the design material 25 are attached to the screen body 2a. The tip edge 2c is sandwiched. The design material 25 is a material that becomes the bag-like portion 21. Next, as shown in the upper side of FIG. 11, a design material 25 that wraps the core material 22 and sandwiches the tip edge 2c of the screen body is placed between the molds 101 and 102 in the separated state, as shown in the lower side of FIG. The molds 101 and 102 are brought close to each other. The molds 101 and 102 are heated to a temperature at which the thermoplastic material of the design material 25 (for example, a thermoplastic resin contained in leather) is at least plasticized (preferably a temperature at which it is melted). Thereby, the front-end edge 2c of the screen main body and the design material 25 on both sides are welded, and the groove 12a along the extraction end 20 is formed. The lower side of FIG. 11 shows the boundary between the leading edge 2c of the screen body and the design material 25, but when the thermoplastic material is melted, the two are fused. As shown in FIG. 6A, the thickness T3 of the groove 12a in the thick portion 10 is made thinner than the thickness T2 of the main body side portion 14 and the extraction side portion 16 in the vicinity of the groove 12a. The portion 10A can be bent and deformed starting from the groove 12a.

  FIG. 12 schematically shows an example of a welder 100 for forming the thick portion 10 having the protrusions 12b. The welder 100 includes molds 101 and 102 having grooves 101b and 102b for forming the protrusions 12b. By using this welder 100, for example, the thick portion 10 can be formed as follows.

  First, the design material 25 is folded in half so as to wrap the core material 22 in the design material 25 in which the opening 21c and the locking hole 21d are formed, and the leading edge 2c of the screen body 2a is sandwiched between both end edges 25a and 25a of the design material 25. Next, as shown in the upper side of FIG. 12, a design material 25 that wraps the core material 22 and sandwiches the front edge 2c of the screen body is disposed between the separated molds 101 and 102, and is shown in the lower side of FIG. The molds 101 and 102 are brought close to each other. Thereby, the front-end edge 2c of the screen main body and the design material 25 on both sides are welded, and the protrusion 12b along the lead-out end 20 is formed. As shown in FIG. 8A, the thickness T4 of the portion of the protrusion 12b in the thick portion 10 is made larger than the thickness T2 of the main body side portion 14 and the extraction side portion 16 near the protrusion 12b. In the thick part 10, the welding of the portion of the protrusion 12 b becomes weak, and the thick part 10 can be bent and deformed from the protrusion 12 b.

Although not shown, when forming thick portions other than the thick portions 10A and 10E shown in FIG. 6A and FIG. What is necessary is just to use the welder which has the type | mold which formed the shape match | combined with the surface shape of the part.
In addition, if the main body side edge 14a of the thick portion 10 is thinned, the main body side edge 14a can easily enter the accommodation space SP1 of the winding shaft 3. For this purpose, the main body side edge 14a is formed in the molds 101 and 102. It is necessary to project the part to be. When such protruding portions are formed on the molds 101 and 102, the screen body 2a where the main body side edge 14a is formed is sandwiched between the protruding portions of the molds 101 and 102. It is not easy to adjust the operations of the molds 101 and 102 so that the mold is not cut. In the present technology, the bent portion 12 is formed at a position in the drawing direction D22 with respect to the thick portion 10, thereby easily entering the accommodation space SP1 of the winding shaft 3 without reducing the main body side edge 14a. doing.

  Next, the winding operation of the screen 2 having the thick-walled portion 10 that can be bent and deformed will be described with reference to FIGS. Fig.5 (a) has shown the mode of the screen 2 currently moving to the accommodation direction D21. FIG. 5B shows a state in which the main body side edge 14a of the thick portion 10 is in contact with the first slit edge 51 (door trim 805). Thereafter, the thick wall portion 10 enters the slit 50 as shown in FIG. 5 (c) while rotating to the door side (case direction D11 side), and the main body side edge 14a is a receiving surface in the vicinity of the corner portion 55. 54 is contacted. At this time, the thick portion 10 is once bent and deformed so that the other surface 2a2 side of the screen body 2a is convex with the bent portion 12 as a starting point. Thereby, the main body side edge 14a smoothly enters the accommodation space SP1 of the take-up shaft 3, the thick wall portion 10 further rotates to the door side, and as shown in FIG. It enters the accommodation space SP1. The main body side portion 14 that has entered the accommodation space SP1 is pulled by the screen main body 2a by the winding force of the winding shaft 3. Since the orientation of the screen body 2a is close to the orientation along the case inner surface 46c, as shown in FIG. 5E, the one surface 2a1 side of the screen body 2a is convex along the corner portion 55 of the receiving surface starting from the bent portion 12. Thus, the thick portion 10 is bent and deformed.

  When the thick portion 10 is bent and deformed with the bent portion 12 as a starting point, the main body side edge 14a is prevented from stopping in a state where it abuts against the receiving surface 54 as shown in FIG. ), It is also possible to prevent the main body side edge 14a from being stopped in a state in which the main body side edge 14a enters the accommodation space SP1 very slightly. Since the bent portion 12 serving as a starting point of bending deformation is in the thick portion 10, the storage property of the screen 2 is very good. Further, as shown in FIG. 5E, the lifting of the screen leading end 20 from the receiving surface 54 is also suppressed by bending the thick portion 10 so that the one surface 2a1 side is convex with the bent portion 12 as a starting point. Is done. Therefore, in the winding device 1, the protrusion of the screen drawing end 20 from the drawing portion 5 is suppressed.

  Further, when the operation unit 23 shown in FIG. 1 or the like is picked from the state shown in FIG. 5E and the screen 2 is pulled out, the degree of bending of the thick portion 10 becomes weak as shown in FIG. 5A. Therefore, the winding device 1 has a very good screen appearance when used.

(4) Specific example of thick part molded into a bent shape in advance:
FIGS. 13A to 13D are vertical cross-sectional views illustrating thick portions 10K to 10N that are preliminarily formed in a convex shape along the corner portion 55 of the receiving surface 54. FIG. Grooves and ridges for bending deformation are not formed in the bent portion 12 of the thick portion 10K shown in FIG. The thick portion 10L shown in FIG. 13B is formed in advance in a convex shape along the corner portion 55 of the receiving surface, and a groove 12a is formed in the bent portion 12. A thick portion 10M shown in FIG. 13C is formed in advance into a convex shape along the corner portion 55 of the receiving surface, and the ridge 12b is formed in the bent portion 12. The thick portion 10N shown in FIG. 13D is formed in advance into a convex shape along the corner portion 55 of the receiving surface, and grooves and ridges are formed in the bent portion 12. Although not shown in the drawings, the thick portion 10 is shaped in advance into a convex shape along the corner 55 of the receiving surface, and is the same as the groove 12a, the ridge 12b, and the concave and convex shape 18 of the thick portions 10A to 10J described above. It is also possible to give this shape to the thick part 10.

  FIG. 14 schematically shows an example of a welder 100 for previously forming the thick portion 10 into a convex shape along the corner portion 55 of the receiving surface 54. The welder 100 includes molds 101 and 102 having curved surfaces 101c and 102c for forming the convex shape. By using this welder 100, for example, the thick portion 10 can be formed as follows.

  First, the design material 25 is folded in half so as to wrap the core material 22 in the design material 25 in which the opening 21c and the locking hole 21d as shown in FIG. 3 are formed, and the edges 25a and 25a of the design material 25 are attached to the screen body 2a. The tip edge 2c is sandwiched. Next, as shown in the upper side of FIG. 14, a design material 25 that wraps the core material 22 and sandwiches the tip edge 2c of the screen body is placed between the separated molds 101 and 102, as shown in the lower side of FIG. 14. The molds 101 and 102 are brought close to each other. As a result, the front edge 2c of the screen main body and the design material 25 on both sides are welded, and the bent portion 12 is formed in advance so that the one surface 2a1 side of the screen main body 2a is convex along the corner portion 55 of the receiving surface. Is done.

  Next, with reference to FIGS. 15A to 15E, the winding operation of the screen 2 having the thick portion 10 that is preliminarily formed into a convex shape along the corner portion 55 of the receiving surface 54 will be described. FIG. 15A shows a state of the screen 2 that is moving in the accommodation direction D21. FIG. 15B shows a state in which the main body side edge 14a of the thick portion 10 is in contact with the first slit edge 51 (door trim 805). Thereafter, the thick wall portion 10 enters the slit 50 as shown in FIG. 15 (c) while rotating to the door side (case direction D11 side), and the main body side edge 14a is a receiving surface in the vicinity of the corner portion 55. 54 is contacted. When the thick wall portion 10 further rotates to the door side, the main body side portion 14 enters the accommodation space SP1 as shown in FIG. 15 (d). Finally, as shown in FIG. 15E, the main body side portion 14 enters the accommodation space SP1 so that the bent portion 12 is aligned with the corner portion 55 of the receiving surface.

  As shown in FIG. 15 (e), when the thick portion 10 is bent so that the one surface 2a1 side is convex with the bent portion 12 as a starting point, the lifting of the screen extraction end 20 from the receiving surface 54 is suppressed. . Therefore, the winding device 1 is also prevented from protruding from the drawing portion 5 of the screen drawing end 20. Further, since the thick portion 10 is preliminarily formed into a convex shape along the corner portion 55 of the receiving surface, the appearance at the time of storing the screen is very good.

(5) Other variations:
Various modifications can be considered for the present invention.
The installation location of the winding device as the sunshade device may be a rear window, a roof window, a front window, etc. in addition to the side window. The winding device may be a tonneau cover device or the like. The drawing direction of the screen may be the lower direction, the horizontal direction, etc., in addition to the upper direction.
The place where the winding shaft is provided may be a case surrounding almost the entire circumference of the winding shaft, or a trim such as a door trim, in addition to the half case.
The thick part may not have a core material or an operation part, and may be a garnish member or the like that sandwiches the leading edge of the screen body, or a part where the leading edge of the screen body is folded back.
In addition to being formed at least one of the groove and the protrusion, the bent portion that is the starting point of bending deformation is a portion formed of a softer material than the main body side portion and the extraction side portion, or a portion formed of an elastic material , Etc.

The bent portion of the thick portion may be provided only in part in the longitudinal direction of the screen drawing end.
FIG. 16A is a plan view illustrating a winding device 1 according to a modification, and FIG. 16B is a side view illustrating a case 40 in which the winding shaft 3 is provided in the modification. FIGS. 17A to 17C show the main part of the case 40 in various modifications. 18A and 18B schematically show the chamfering depth d1. In these drawings, a chamfered portion of the corner portion 55 of the receiving surface 54 connected to the inner surface 46 c of the housing portion 4 is referred to as a chamfered portion 56, and a portion of the corner portion 55 that is not chamfered is referred to as a non-chamfered portion 57. I will decide. The corner portion includes not only a chamfered portion but also a chamfered portion. In the present technology, it is not included in chamfering to add a slight roundness (curved surface) to a sharp corner so as not to be seen as a curved surface unless it is observed with human eyes. “Slightly rounded” refers to a curved surface having a curvature radius of 1.0 mm or less, and preferably a curvature radius of 0.5 mm or less. As shown in FIGS. 18A and 18B, the depth d1 of the chamfered portion 56 is from the corner portion 55 of the non-chamfered portion 57 when there is no curved surface at all including a very small curved surface not included in the chamfering. The shortest distance to the chamfered portion 56 is assumed. FIG. 18A illustrates the depth of a substantially planar chamfered portion 56 such as a C surface. FIG. 18B illustrates the depth of the curved chamfered portion 56 such as an R shape.

In the example shown in FIGS. 16A and 16B, at least a part of the corner portion 55 of the receiving portion 54 that receives the vicinity 20 a of the end portion 20 a in the longitudinal direction DL 2 at the screen drawing end 20 is the non-chamfered portion 57. . As shown in FIG. 3, the end vicinity 20a of the withdrawal end 20 is within the range of positions P1 and P2 from the end 20e in the longitudinal direction DL2 of the withdrawal end 20 toward the center 20c in the longitudinal direction DL2 of the withdrawal end 20. To do. Here, the ratio of the distance from the end 20e to the position P1 with respect to the distance from the end 20e to the center 20c is 1/1000, and the distance from the end 20e to the position P2 with respect to the distance from the end 20e to the center 20c. The distance ratio is 1/5. The corner portions 55 of the portion 541 that receives the end vicinity 20a may be all non-chamfered portions 57, or only part of the corner portions 55 may be non-chamfered portions 57 and the rest may be chamfered portions 56.
The second slit edge 52 has a recess 52 a that is recessed toward the opposite side (case direction D 11) from the screen body 2 a and into which the operation part 23 enters between the first slit edge 51. The recess 52 a is formed in a stepped portion 53 from the second slit edge 52 to the receiving surface 54. At least a part of the corner 55 of the portion 542 that receives the operation unit 23 on the receiving surface 54 is a non-chamfered portion 57.

  The chamfered portion 56 may have a substantially constant depth over substantially the entire longitudinal direction DL1 of the slit 50 as shown in FIG. 17 (a), or as shown in FIGS. 17 (b) and 17 (c). The depth may vary over the longitudinal direction DL1. Moreover, as shown in FIG.17 (c), the convex parts 58 and 59 which swelled toward the screen main body 2a (trim direction D12) may be formed in the non-beveling part 57 of the said parts 541 and 542. FIG.

  At the time of storing the screen, the drawer side portion 16 in the vicinity 20a, 20a of the thick portion 10 is supported by the non-chamfered portion 57 of the portions 541, 541, and the drawer side portion 16 in the central portion 20c of the thick portion 10 is supported. Is supported by the non-chamfered portion 57 of the portion 542. Therefore, as shown in FIG. 16 (a), the bent portion 12 is not formed in the thick portion 10 corresponding to the chamfered portion 56 in the longitudinal direction DL2 of the extraction end 20, and the non-chamfered portion is formed in the longitudinal direction DL2. The bent portion 12 may be formed only in the thick portion 10 corresponding to 57. In this case, since the thick portion 10 has the bent portion 12 that is bent so that the one surface 2a1 side of the screen body is convex along the non-chamfered portion 57 in a state where the screen 2 is wound, the screen 2 is wound. When taken, the lifting of the screen leading end 20 from the receiving surface 54 is suppressed. Therefore, also in this modification, the protrusion of the screen drawer end from the drawer portion is suppressed. This effect can be obtained even if the non-chamfered portion 57 and the bent portion 12 are misaligned.

(6) Conclusion:
As described above, according to the present invention, according to various aspects, it is possible to provide a technique or the like that can prevent the screen drawing end from protruding from the screen drawing portion during screen winding. Needless to say, the above-described basic actions and effects can be obtained even with a technique that does not have the constituent elements according to the dependent claims but includes only the constituent elements according to the independent claims.
In addition, the configurations disclosed in the embodiments and modifications described above are mutually replaced, the combinations are changed, the known technology, and the configurations disclosed in the embodiments and modifications described above are mutually connected. It is possible to implement a configuration in which replacement or combination is changed. The present invention includes these configurations and the like.

1 ... winding device,
2 ... screen, 2a ... screen body, 2a1 ... one side, 2a2 ... other side, 2c ... tip edge,
3 ... winding shaft, 4 ... housing part, 5 ... drawer part, 6 ... urging mechanism,
10, 10A-10N ... thick part, 11 ... welded part,
12 ... bent portion, 12a ... groove, 12b ... ridge,
14 ... body side part, 14a ... body side edge, 16 ... drawer side part,
18 ... irregular shape, 18a ... groove, 18b ... ridge,
20 ... drawer end, 21 ... bag-shaped part, 22 ... core material, 23 ... operation part, 25 ... design material,
31 ... cylindrical body, 32 ... bearing portion, 33 ... support shaft portion,
40 ... case, 41, 42 ... wall portion, 43 ... outward extending portion,
46 ... side part, 46a ... back part, 46b ... bottom part, 46c ... inner surface, 47 ... opening part,
50 ... slit, 51 ... first slit edge, 52 ... second slit edge,
53 ... Stepped portion, 54 ... Receiving surface, 55 ... Corner portion, 56 ... Chamfered portion, 57 ... Non-chamfered portion,
100 ... welder, 101,102 ... mold,
AX1 ... axis, C1 ... cab,
D1 ... axial direction, DR1 ... winding direction,
D11: Case direction, D12: Trim direction,
D21 ... accommodating direction, D22 ... drawing direction,
DL1 ... the longitudinal direction of the slit, DL2 ... the longitudinal direction of the extraction end,
P10 ... accommodating position, P11 ... winding position, P12 ... drawing position,
SP1: accommodation space.

Claims (5)

A screen having a thick part thicker than the screen body in a portion including the drawer end;
A winding shaft for winding the screen;
An accommodating portion for accommodating the winding shaft;
A drawing part formed with a slit through which the screen is drawn from the housing part,
The lead-out portion includes a first slit edge portion on one side of the screen body to be pulled out, a second slit edge portion on the other surface side of the screen body to be pulled out, and the second slit edge on the other surface side. A receiving surface that is connected to the inner surface of the housing portion and is connected to the inner surface of the housing portion rather than the portion to receive the drawer end, and
The receiving surface has a corner connected to the inner surface of the housing portion,
In the thick portion, when the screen is wound up, the portion on the screen main body side enters the housing portion, and in the state where the screen is wound up, one side of the screen main body is a corner of the receiving surface. A winding device in which a bent portion is formed so as to be convex along the portion.   The winding device according to claim 1, wherein the thick portion can be bent and deformed with the bent portion as a starting point.   The winding device according to claim 2, wherein the bent portion of the thick portion is formed at least one of a groove and a protrusion.   The bent portion of the thick-walled portion is preliminarily formed into a shape in which one surface side of the screen main body is convex along a corner portion of the receiving surface. Winding device. In the thick part, when the part on the screen main body side from the bent part is a main part, and the part on the extraction end side from the bent part is a drawer side part,
The uneven | corrugated shape which is connected to the said bending part and has the groove | channel and the protrusion along the drawer direction of the said screen is formed in at least one of the said main body side site | part and the said drawer side site | part. The winding device according to one item.

Images