JP4230336B2 - Vehicle sun visor - Google Patents

Description

  The present invention relates to a vehicle sun visor including a sun visor body, a support arm, and a bracket.

2. Description of the Related Art Conventionally, a support arm of a vehicle sun visor has a vertical axis portion and a horizontal axis portion and is formed in an approximately L shape, and a sun visor body is rotatably supported around an axis of the horizontal axis portion of the support arm. .
Further, the vertical axis portion of the support arm is inserted into a boss portion of a bracket integrally having a flange-like base body fixed to the roof panel of the passenger compartment ceiling portion, and is supported rotatably around the vertical axis. It is common.
In addition, in order to reduce the installation space for the lighting lamp unit for illuminating the interior of the vehicle, and to reduce the number of man-hours for manufacturing and assembling the lighting lamp unit, the boss part against the bracket body of the vehicle sun visor 2. Description of the Related Art A vehicle sun visor is known in which a lamp housing portion is formed at a position laterally away from the vehicle, and an illumination lamp is incorporated in the lamp housing portion to illuminate a vehicle interior (see, for example, Patent Document 1). ).
JP-A-8-207564

  By the way, when the illumination lamp is incorporated at a position laterally separated from the boss portion with respect to the base body of the bracket of the vehicle sun visor, the base body protrudes in the lateral direction and becomes larger. For this reason, it may be difficult to secure an installation space for attaching the bracket to the roof panel of the passenger compartment ceiling in the enlarged base body.

  In view of the above problems, an object of the present invention is to provide a vehicle sun visor that can rationally incorporate an electrical component (for example, a light emitter for illumination) into a bracket and suppress an increase in the size of the bracket.

To achieve the above object, a vehicle sun visor according to claim 1 of the present invention is a sun visor main body, a support arm having a horizontal shaft portion that rotatably supports the sun visor main body, and the sun visor main body supporting the sun visor main body. A vehicle sun visor comprising a bracket attached to the roof panel via an arm,
On the longitudinal axis of the bracket is provided a vertical cylinder formed with a built-in portion corresponding to the electrical component,
An electrical component is incorporated in the assembling part of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
A lens corresponding to the light emitting body is provided at the tip of the vertical cylinder .

Therefore, the sun visor main body is switched between the storage position along the vehicle compartment ceiling and the front light-shielding position along the windshield by rotating around the horizontal axis of the support arm.
In particular, since the electrical component can be incorporated into the assembling portion of the vertical cylinder, it is possible to suppress the bracket from being enlarged in the lateral direction.
In addition, the interior of the vehicle can be illuminated by an illuminating light emitter assembled to the vertical cylindrical body of the bracket.

According to a second aspect of the present invention, a vehicle sun visor includes a sun visor main body, a support arm having a horizontal shaft portion that rotatably supports the sun visor main body, and the sun visor main body mounted on a roof panel via the support arm. A bracket for supporting the sun visor body so as to be rotatable about a vertical axis, and a vehicle sun visor,
The bracket is provided with a vertical cylinder projecting in the direction of the vertical axis and formed with a built-in portion corresponding to the electrical component,
The vertical cylinder is assembled so that the support arm can rotate about the vertical axis, and an electrical component is incorporated in the assembling portion of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
A lens corresponding to the light emitting body is provided at the tip of the vertical cylinder .

Therefore, the sun visor main body is switched between the storage position along the vehicle compartment ceiling and the front light-shielding position along the windshield by rotating around the horizontal axis of the support arm.
Further, the sun visor body is switched between the front light shielding position and the side light shielding position by rotating around the vertical axis of the vertical cylindrical body of the bracket.
In particular, since the electrical component can be incorporated into the assembling portion of the vertical cylinder, it is possible to suppress the bracket from being enlarged in the lateral direction.
In addition, the interior of the vehicle can be illuminated by an illuminating light emitter assembled to the vertical cylindrical body of the bracket.

According to a third aspect of the present invention, a vehicle sun visor includes a sun visor main body, a support arm having a horizontal shaft portion that rotatably supports the sun visor main body, and the sun visor main body mounted on the roof panel via the support arm. A bracket for supporting the sun visor body so as to be rotatable about a vertical axis, and a vehicle sun visor,
The support arm is formed with a vertical cylinder formed with a built-in portion corresponding to an electrical component,
In the vertical cylinder, the support arm is assembled to the bracket so as to be rotatable around a vertical axis, and an electrical component is incorporated in an assembly part of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
A lens corresponding to the light emitting body is provided at the tip of the vertical cylinder .

Therefore, the sun visor main body is switched between the storage position along the vehicle compartment ceiling and the front light-shielding position along the windshield by rotating around the horizontal axis of the support arm.
The sun visor body is switched between a front light shielding position and a side light shielding position by being rotated around the vertical axis of the vertical cylinder of the support arm.
In particular, since the electrical component can be incorporated into the assembling portion of the vertical cylinder, it is possible to suppress the bracket from being enlarged in the lateral direction.
In addition, the interior of the vehicle can be illuminated by an illuminating light emitter assembled to the vertical cylindrical body of the bracket.

  According to the present invention, since the electrical component (for example, the light emitter for illumination) can be rationally incorporated into the vertical cylindrical body provided on the vertical axis of the bracket with respect to the assembly portion, the bracket is enlarged in the lateral direction. Can be suppressed. As a result, an installation space corresponding to the bracket can be easily secured with respect to the roof panel of the vehicle interior ceiling.

  Next, the best mode for carrying out the present invention will be described with reference to examples.

FIG. 1 is a front view showing the entire vehicle sun visor. FIG. 2 is a perspective view showing an assembled state of the bracket and the support arm. FIG. 3 is an exploded perspective view showing the bracket and the support arm. FIG. 4 is a plan view showing a state in which a support arm is attached to the roof panel via a bracket. FIG. 5 is a cross-sectional view based on the line VV in FIG. 6 is a cross-sectional view based on the line VI-VI in FIG. 7 is a plan sectional view based on the line VII-VII in FIG. 8 is a plan sectional view based on the line VIII-VIII in FIG.
As shown in FIGS. 1 to 3, the vehicle sun visor 10 includes a sun visor body 11, a support arm 20, and a bracket 30.

  As shown in FIG. 1, the sun visor main body 11 functions as a light shielding body, is formed in a substantially horizontally long rectangular shape, has a bearing portion 12 at one side corner, and has a cosmetic surface on one side surface. A mirror unit 13 is mounted. The cosmetic mirror unit 13 includes a case body 14 that holds a cosmetic mirror plate 15, and an opening / closing lid 16 that is attached to one side (upper side in FIG. 1) of the case body 14 so as to be openable and closable around a shaft 17. And.

As shown in FIG. 3, the support arm 20 supports the sun visor main body 11 so as to be rotatable around the horizontal axis, and has a fitting cylinder portion having a fitting hole 23 in the vertical axis direction at the root portion of one end thereof. 22 and a horizontal shaft portion 26 extending in a lateral direction from a part of the outer peripheral surface of the fitting tube portion 22 are integrally provided, and are integrally formed by injection molding of a synthetic resin material.
The sun visor body 11 is attached to the horizontal shaft portion 26 of the support arm 20 so as to be rotatable in the bearing portion 12.
A large-diameter hole portion 25 having a step surface 25a is formed at the opening portion of the fitting hole 23 formed in the fitting cylinder portion 22 of the support arm 20.

As shown in FIGS. 1 to 3, the bracket 30 mounts the sun visor body 11 on the roof panel 1 via the support arm 20 and supports the sun visor body 11 so as to be rotatable about the vertical axis. That is, the bracket 30 includes a base body 31 that is fixed to the roof panel 1 with the roof lining 2 interposed therebetween, and an illumination light-emitting body that projects from the base body 31 in the vertical axis direction and is an electrical component (this embodiment) 1 includes a vertical cylindrical body 40 in which a built-in portion 41 into which a lamp 51) 50 is incorporated is formed.
Then, the support arm 20 is fitted into the outer periphery of the vertical cylinder 40 in the fitting hole 23 of the fitting cylinder portion 22, whereby the support arm 20 is assembled to be rotatable around the vertical axis. ing.

In the first embodiment, the bracket 30 is configured such that the base body 31 and the vertical cylinder body 40 are separately formed of a synthetic resin material and integrated.
As shown in FIG. 3, the base body 31 has a fitting hole 32 having a hole diameter substantially the same as the fitting hole 23 of the fitting cylinder portion 22 of the support arm 20 and has a ring shape. In some cases, an overhang portion 31a is integrally formed. On the upper surface of the overhanging portion 31a, an engaging projection 33 that can be inserted into a square hole-shaped through-hole 3 formed in the roof panel 1 protrudes substantially vertically.

As shown in FIGS. 3 and 8, the inner wall surface of the fitting hole 32 of the base body 31 is formed with a recess 34 at a portion where the overhanging portion 31a is formed. The recess 34 is formed with a lock piece 35 for locking and unlocking the vertical cylinder 40, which will be described in detail below, in the mounted state so as to be locked and unlocked.
That is, a lock piece 35 is formed integrally with a thin elastic deformation portion 36 integrally connected to one side of the recess 34 at the base portion, and a vertical cylinder 40 is formed at the tip of the lock piece 35. A convex portion 37 is formed that engages with the lock groove 45 and locks the vertical cylinder 40 in the mounted state.
Further, on the lower surface of the lock piece 35, an unlocking operation piece 38 is integrally projected so as to release the lock while the lock piece 35 in the locked state is elastically deformed by the elastic deformation portion 36.

As shown in FIG. 3, the vertical cylindrical body 40 has an outer dimension that fits into the fitting hole 23 of the fitting cylinder portion 22 of the support arm 20 and the fitting hole 32 of the bracket 30 so as to be rotatable. It has a built-in portion 41 into which an illuminating light emitter (lamp 51) 50 as an electrical component can be incorporated, and is formed in a cylindrical shape. On the outer periphery of one end portion (lower end portion) of the vertical cylinder body 40, a flange portion 49 is formed which holds the fitting cylinder portion 22 of the support arm 20 in a rotatable manner in cooperation with the base body 31. Yes.
A small-diameter mounting shaft 42 projects on the same center line at the other end (upper end) of the vertical cylinder 40.

As shown in FIGS. 4 to 7, the distance between the two points of the mounting shaft 42 and the engagement protrusion 33 is changed at the base of the mounting shaft 42 (in this embodiment, the distance between the two points is small). The cam body 43 for restraining the bracket 30 and the vertical cylinder body 40 is formed between the through hole 3 and the mounting hole 4 of the roof panel 1.
That is, the cam body 43 can be inserted into a non-circular (substantially triangular in FIG. 7) mounting hole 4 penetrating at a predetermined distance from the through hole 3 of the roof panel 1 and is predetermined around the vertical axis. By rotating a predetermined angle in the direction (for example, around 30 to 60 degrees), the cam surface of the cam body 43 is in contact with the inner peripheral surface of the mounting hole 4 while the mounting shaft 42 and the engagement protrusion 33 are in contact with each other. The distance between the points is changed to be small.
In other words, the cam body 43 is rotated by a predetermined angle (for example, around 30 to 60 degrees) in a predetermined direction around the vertical axis in a state where the cam body 43 is fitted in the mounting hole 4, thereby the cam surface of the cam body 43. Rotates while being in pressure contact with the inner peripheral surface of the mounting hole 4, and this cam action causes the engagement protrusion 33 to be pressed against one inner surface of the through-hole 3 (the left inner surface as viewed in FIG. 7). As a result, the bracket 30 and the vertical cylinder 40 are constrained between the through hole 3 and the mounting hole 4 of the roof panel 1.

  As shown in FIGS. 4 to 6, a locking body 44 is formed on the outer peripheral surface of the mounting shaft 42 so as to be positioned above the cam body 43. The locking body 44 is formed in a non-circular shape (substantially triangular in FIG. 4) that is slightly smaller than the mounting hole 4. The locking body 44 can be inserted from below the mounting hole 4 and is rotated by a predetermined angle (for example, around 30 to 60 degrees) around the vertical axis in a predetermined direction, so that the locking surface on the lower surface thereof is The peripheral edge of the mounting hole 4 is in contact with and engaged with the upper surface of the roof panel 1.

  As shown in FIG. 6, a pair of fixed electrode plates 48 are inserted and fixed to the vertical cylinder 40 from the tip end portion of the mounting shaft 42 to the built-in portion 41. A coupler (connector) 47 is provided at the distal ends of the pair of fixed electrode plates 48.

As shown in FIGS. 3, 5, and 6, in the vicinity of the opening of the built-in portion 41 of the vertical cylindrical body 40, two locking pins 61 that are fitted with the lamp holder 60 and orthogonal to the direction of the vertical axis are shown. And is held so as to be rotatable around the vertical axis within a predetermined angle range.
At the center of the lamp holder 60, a lamp case 52 having a lamp (including LEDs and the like) 51 as an illuminating light emitter 50 at the front end (lower end) is mounted integrally with the lamp holder 60.
A movable electrode plate 53 is attached to the outer peripheral surface of the lamp case 52 opposite to the lamp 51 (upper side) so as to come into contact with and separate from the fixed electrode plate 48.
A lens holding part 62 formed at the lower end of the lamp holder 60 is fitted with a lens 63 having a substantially hemispherical shell shape. In addition, the lens holding portion 62 is formed with an operation portion 62 a for rotating the lamp holder 60 about the vertical axis to make the movable electrode plate 53 contact and separate from the fixed electrode plate 48.

The vehicle sun visor 10 according to the first embodiment is configured as described above.
Therefore, when mounting the vehicle sun visor 10 on the roof panel 1, first, the engagement protrusion 33 of the base body 31 and the mounting shaft of the vertical cylinder body 40 from below the through hole 3 and the mounting hole 4 of the roof panel 1. After the (cam body 43 and the locking body 44) 42 are inserted, the vertical cylinder 40 is rotated by a predetermined angle (for example, around 30 to 60 degrees) in a predetermined direction around the vertical axis.
Then, the cam surface of the cam body 43 rotates while being pressed against the inner peripheral surface of the mounting hole 4, and this cam action causes the engagement protrusion 33 to be formed on one side inner surface (the left inner surface as viewed in FIG. 7). The bracket 30 and the vertical cylinder 40 are constrained between the through hole 3 and the mounting hole 4 of the roof panel 1 due to the pressing and deformation.

  Further, as shown in FIGS. 4 and 5, the locking surface on the lower surface of the locking body 44 comes into contact with and engages with the upper surface of the roof panel 1 at the peripheral edge of the mounting hole 4. As a result, the vehicle sun visor 10 is mounted on the roof panel 1. When the vertical cylinder 40 is rotated around the vertical axis, an engaging portion (not shown) for torque transmission is provided between the fitting cylinder 22 and the vertical cylinder 40 of the support arm 20. Thus, the turning operation of the vertical cylinder 40 can be easily performed.

As described above, in the state where the vehicle sun visor 10 is mounted, the convex portion 37 at the tip of the lock piece 35 of the bracket 30 engages with the lock groove 45 of the vertical cylinder 40 (see FIG. 8). As a result, the vertical cylinder 40 is locked and locked in the mounted state.
Therefore, the vehicle sun visor 10 according to the first embodiment can be easily attached to the roof panel 1 by operating as described above.

  In a state where the vehicle sun visor 10 is mounted on the roof panel 1, the sun visor body 11 is rotated from the retracted position along the ceiling surface of the passenger compartment about the horizontal shaft portion 26 of the support arm 20 and toward the windshield. By doing so, it is arranged at the front light shielding position. The sun visor main body 11 arranged at the front light shielding position is switched to the side light shielding position by being rotated together with the support arm 20 about the vertical axis of the vertical cylinder 40 of the bracket 30 and toward the side glass. Is done.

When illumination is required, the fixed electrode is obtained by rotating the lamp holder 60 provided in the built-in portion 41 of the vertical cylinder 40 by a predetermined angle around the vertical axis in the operation portion 62a of the lens holding portion 62. The movable electrode plate 53 comes into contact with the plate 48, whereby the lamp 51 is lit.
Further, by rotating the lamp holder 60 in the reverse direction, the movable electrode plate 53 is brought into a non-contact state with respect to the fixed electrode plate 48, and thereby the lamp 51 is turned off.
As described above, since the illumination light emitting body 50 as an electrical component, in this embodiment, the lamp 51 can be assembled to the built-in portion 41 of the vertical cylindrical body 40, it is possible to suppress the base body 31 from becoming large. it can. As a result, it is possible to easily secure an installation space corresponding to the base body 31 with respect to the roof panel 1 of the vehicle interior ceiling.

Next, Embodiment 2 of the present invention will be described with reference to FIG.
In the second embodiment, a cylindrical shape that supports a vertical cylindrical body 140 so as to be rotatable about a vertical axis with respect to a bracket 130 provided with a base body 131 attached to a roof panel 101 of a vehicle compartment ceiling portion by screws or clips. The support part 132 is formed. A locking portion 133 that has a slit-like split groove (not shown) and can be elastically shrunk is formed on the outer peripheral surface of the tip (lower end) of the support portion 132.

On the other hand, in the vicinity of the base portion of the support arm 120 having the horizontal shaft portion 126 that rotatably supports the sun visor body (not shown), the sun visor main body (not shown) is rotatably supported around the vertical axis with respect to the support portion 132 of the bracket 130. The vertical cylinder 140 is integrally formed. A protrusion 143 is provided on the upper inner peripheral surface of the vertical cylinder 140 so as to be elastically engaged with and attached to the locking portion 133 of the support portion 132 of the bracket 130 by a pushing operation.
A lamp holder 160 having an illuminating light emitter (lamp 151) 150 as an electrical component is incorporated in the built-in portion 141 provided in the vertical cylinder 140, and the lower end of the vertical cylinder 140 is provided at the lower end of the vertical cylinder 140. A lens 163 is attached.
Note that a switch for blinking the illumination light emitter (lamp 151) 150 is disposed at a predetermined position in the vehicle interior, for example, in the vicinity of the bracket 130 or at a predetermined position on the instrument panel.

In the second embodiment configured as described above, the sun visor main body (not shown) is rotated around the axis of the horizontal shaft portion 126 of the support arm 120, so that the storage position along the vehicle interior ceiling portion is The arrangement is switched to the front shading position along the windshield.
Further, the sun visor body is switched between the front light shielding position and the side light shielding position by being rotated around the vertical axis of the vertical cylinder 140 of the support arm 120.
In particular, also in the second embodiment, the illumination light-emitting body (lamp 151) 150 as an electrical component can be incorporated into the built-in portion 141 of the vertical cylinder 140 in substantially the same manner as the first embodiment. Can be prevented from increasing in size in the lateral direction.

Next, Embodiment 3 of the present invention will be described with reference to FIGS.
In the third embodiment, the support arm 220 is formed by a single synthetic resin molded product integrally including a horizontal shaft portion 226 and a vertical cylindrical body 240 that rotatably support a sun visor body (not shown). Yes.
In addition, the bracket 230 is configured such that the base body 231 and the support body 242a are separately formed of a synthetic resin material and integrated.

That is, as shown in FIG. 10, the base body 231 has an overhang portion 231a formed integrally on a part of the outer peripheral surface thereof in substantially the same manner as in the first embodiment, and is formed on the upper surface of the overhang portion 231a. An engagement protrusion 233 that can be inserted into a square hole-shaped through hole 203 formed in the roof panel 1 protrudes substantially vertically.
Further, as shown in FIGS. 10 and 12, a recess 234 is formed on the inner wall surface of the fitting hole 232 of the base body 231 at a portion where the protruding portion 231a is formed. The recess 234 is formed with a lock piece 235 for locking and unlocking a mounting shaft 242 that will be described in detail below to lock the mounting shaft 242 in the mounted state. This locking mechanism is substantially the same as in the first embodiment.

As shown in FIGS. 10 and 11, the support body 242 a is fitted over the inner hole of the vertical cylindrical body 240 of the support arm 220 and the fitting hole 232 of the base body 231. A flange portion 249 is formed to hold the engaging portion 240a projecting from the inner peripheral edge of the upper end portion of the inner hole of the 220 vertical cylinder 240 in a rotatable manner in cooperation with the base body 231.
A small-diameter mounting shaft 242 projects on the same center line at the upper end of the support 242a. At the base portion of the mounting shaft 242, the distance between the two points of the mounting shaft 242 and the engaging protrusion 233 is changed in substantially the same manner as in the first embodiment, and the through hole 203 and the mounting hole 204 of the roof panel 201 are changed. A cam body 243 for restraining the base body 231 and the support body 242a is formed therebetween.

  Further, a locking body 244 is formed on the outer peripheral surface of the mounting shaft 242 so as to be positioned above the cam body 243 and substantially the same as in the first embodiment. The locking body 244 is formed in a non-circular shape (substantially triangular in the figure) slightly smaller than the mounting hole 204. The locking body 244 can be inserted from below the mounting hole 204 and is rotated by a predetermined angle (for example, around 30 degrees to 60 degrees) in a predetermined direction around the vertical axis so that the locking surface of the lower surface thereof is The peripheral edge of the mounting hole 204 comes into contact with and engages with the upper surface of the roof panel 201.

On the other hand, the vertical cylinder 240 of the support arm 220 having a horizontal shaft portion 226 that rotatably supports a sun visor body (not shown) has an inner hole as a built-in portion 241. A lamp holder 260 having an illuminating light emitter (lamp 251) 250 as an electrical component is incorporated in the built-in portion 241 of the vertical cylindrical body 240, and a lens 263 is attached to the lower end portion of the vertical cylindrical body 240. ing.
Note that the switch for blinking the illumination light emitter (lamp 251) 250 can be disposed at a predetermined position in the vehicle interior, for example, in the vicinity of the bracket 230 or at a predetermined position on the instrument panel. It can also be configured in the same manner as in FIG.

In the third embodiment configured as described above, the sun visor main body (not shown) is rotated around the axis of the horizontal shaft portion 226 of the support arm 220, so that the storage position along the vehicle interior ceiling portion is The arrangement is switched to the front shading position along the windshield.
Further, the sun visor body is switched between the front light shielding position and the side light shielding position by being rotated around the vertical axis of the vertical cylinder 240 of the support arm 220.
In particular, also in the third embodiment, since the illumination light emitter (lamp 251) 250 as an electrical component can be incorporated into the assembly portion 241 of the vertical cylinder 240, the bracket 230 is increased in size in the lateral direction. Can be suppressed.

Next, a fourth embodiment of the present invention will be described with reference to FIG.
In the vehicle sun visor according to the fourth embodiment, as shown in FIG. 13, the sun visor main body 311 is positioned along the storage position along the vehicle interior ceiling and the windshield by the support arm 320 having a pair of left and right horizontal shaft portions 326. The arrangement is switched to the front shading position.
Brackets 330 are integrally formed at the base portions of the pair of support arms 320, and a vertical cylinder 340 is formed integrally with the vertical axis of the bracket 330.
Further, a base body 331 is integrally formed at the upper end of the vertical cylinder 340 and is attached to the roof panel 101 of the passenger compartment ceiling by screws or clips.

A built-in portion 341 is formed inside the vertical cylinder 340, and a lamp holder 360 having an illumination light-emitting body (lamp 351) 350 as an electrical component is incorporated in the built-in portion 241. A lens 363 is attached to the lower end of the lens.
Note that the switch for blinking the light emitter for illumination (lamp 351) 350 can be configured in the same manner as in the first embodiment. However, a predetermined position in the passenger compartment, for example, in the vicinity of the bracket 330 or an instrument. You may arrange | position in the predetermined position of a panel.

In the fourth embodiment configured as described above, the sun visor main body 311 is rotated around the axis of the pair of left and right horizontal shaft portions 326 so that the storage position along the vehicle interior ceiling portion and the windshield are aligned. The position is switched to the front shading position.
In particular, also in the fourth embodiment, since the illumination light-emitting body (lamp 351) 350 as an electrical component can be incorporated into the built-in portion 341 of the vertical cylinder 340, the bracket 330 is increased in size in the lateral direction. Can be suppressed.

In addition, this invention is not limited to the said Examples 1-4.
For example, in the said Examples 11-4, the lamp | ramp 51,151 as the light-emitting body 50,150,250,350 for illumination in the incorporating part 41,141,241,341 of the vertical cylinder 40,140,240,340. , 251 and 351 are illustrated as an example, but an electrical component such as a speaker can also be assembled.

BRIEF DESCRIPTION OF THE DRAWINGS It is a front view which shows the whole vehicle sun visor which concerns on Example 1 of this invention. It is a perspective view which similarly shows the assembly | attachment state of a bracket and a support arm. It is a perspective view which decomposes | disassembles and similarly shows a bracket and a support arm. It is a top view which shows the state which similarly attached the support arm to the roof panel via the bracket. It is sectional drawing based on the VV line of FIG. 4 similarly. It is sectional drawing based on the VI-VI line of FIG. It is a plane sectional view based on the VII-VII line of Drawing 6 similarly. It is a plane sectional view based on the VIII-VIII line of Drawing 6 similarly. It is a longitudinal cross-sectional view which shows the relationship between the bracket and support arm of the vehicle sun visor which concern on Example 2 of this invention. It is a longitudinal cross-sectional view which shows the relationship between the bracket and support arm of the vehicle sun visor which concern on Example 3 of this invention. It is sectional drawing based on the XI-XI line of FIG. 10 similarly. It is the plane sectional view based on the XII-XII line of FIG. 10 similarly. It is a front view which shows the whole vehicle sun visor which concerns on Example 4 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Roof panel 4 Mounting hole 10 Vehicle sun visor 11 Sun visor main body 13 Cosmetic mirror unit 20 Support arm 26 Horizontal shaft part 30 Bracket 31 Base body 40 Vertical cylinder 41 Assembly part

Claims (3)

A vehicle sun visor comprising: a sun visor body; a support arm having a horizontal shaft portion that rotatably supports the sun visor body; and a bracket that attaches the sun visor body to a roof panel via the support arm. ,
On the longitudinal axis of the bracket is provided a vertical cylinder formed with a built-in portion corresponding to the electrical component,
An electrical component is incorporated in the assembling part of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
The vehicle sun visor is characterized in that a lens corresponding to the light emitter is provided at a tip of the vertical cylinder . A sun visor body, a support arm having a horizontal shaft portion that rotatably supports the sun visor body, the sun visor body is mounted on the roof panel via the support arm, and the sun visor body can be rotated about a vertical axis. A vehicle sun visor comprising:
The bracket is provided with a vertical cylinder projecting in the direction of the vertical axis and formed with a built-in portion corresponding to the electrical component,
The vertical cylinder is assembled so that the support arm can rotate about the vertical axis, and an electrical component is incorporated in the assembling portion of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
The vehicle sun visor is characterized in that a lens corresponding to the light emitter is provided at a tip of the vertical cylinder . A sun visor body, a support arm having a horizontal shaft portion that rotatably supports the sun visor body, the sun visor body is mounted on the roof panel via the support arm, and the sun visor body can be rotated about a vertical axis. A vehicle sun visor comprising:
The support arm is formed with a vertical cylinder formed with a built-in portion corresponding to an electrical component,
In the vertical cylinder, the support arm is assembled to the bracket so as to be rotatable around a vertical axis, and an electrical component is incorporated in an assembly part of the vertical cylinder ,
Moreover, the electrical component is composed of a light emitter for illumination,
The vehicle sun visor is characterized in that a lens corresponding to the light emitter is provided at a tip of the vertical cylinder .

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