JP2005119523A - Sun visor apparatus for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sun visor apparatus for a vehicle, which sun visor apparatus can easily estimate the eye position of a crew member, and can carry out an appropriate shade control based on the estimated eye position, and has a simple configuration. <P>SOLUTION: A driver's seat 2 has two driving motors mounted thereon in order to adjust the forward and backward position of a seat cushion portion 2a and the inclination angle θ1 of a seat back portion 2b. The respective motors are provided with a forward and backward position sensor of the seat cushion for outputting a signal for detecting the forward and backward position of the seat cushion portion 2a and an inclination angle detecting sensor of the seat back for outputting the signal for detecting the inclination angle of the seat back portion 2b respectively. A control unit detects the forward and backward position of the seat cushion portion 2a and the inclination angle of the seat back portion 2b, which are correlated with the eye position of the crew member, based on these signals, and estimates the eye position of the crew member based on the detected information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a vehicle sun visor device that operates to automatically block incident light, for example, direct sunlight, having a predetermined intensity or more into a vehicle interior.

  A sun visor device for blocking incident light of a predetermined intensity or more, for example, direct sunlight, which is incident on the passenger compartment, is provided above the driver's seat and the passenger seat of a conventional vehicle. This sun visor device prevents the incident light from hitting the passenger's eye position (eye position) and prevents the passenger from being dazzled by the incident light. Some of such sun visor devices are configured to shield a predetermined range including a passenger's eye position by manually operating a sun visor main body for blocking incident light mounted in a vehicle interior. However, in recent years, some sun visor devices operate automatically based on the eye position of the passenger, particularly the driver (see, for example, Patent Document 1 and Patent Document 2).

  The sun visor device disclosed in Patent Document 1 is based on a solar radiation sensor that senses the amount of solar radiation of direct sunlight, a liquid crystal panel as a sun visor body provided in a band shape above the windshield of the vehicle, and an output of the solar radiation sensor A liquid crystal panel control unit for controlling the transmission state of the liquid crystal panel is provided. The solar radiation sensor is installed on both sides of the headrest, that is, near the eye position. Then, the liquid crystal panel control unit determines whether or not the output of the solar radiation sensor exceeds the threshold value, and if the output of the solar radiation sensor exceeds the threshold value, the liquid crystal panel is set in a non-transmissive state and directly irradiated. Sunlight is automatically shut off.

In addition, the sun visor device disclosed in Patent Document 2 (in the literature, a direct-light anti-glare device) is provided with two cameras and a sun visor body that is provided on the windshield and can change the shade range of direct sunlight. And a control ECU for controlling the sun visor. A face image of the passenger in the driver's seat is taken by the two cameras, and the eye position of the passenger is detected from the taken face images. Further, a part of the photographed face image is extracted, and the brightness of the extracted image is compared with a predetermined reference value. When the brightness of the extracted image is brighter than the reference value, the range of the sun visor is limited according to the detected eye position of the occupant, and direct sunlight incident on the windshield is blocked.
Japanese Utility Model Publication No. 5-34013 JP 2002-331835 A

  However, since the eye position when sitting on the seat differs depending on the passenger, it is not possible to detect direct sunlight hitting the vicinity of the passenger's eye position by installing a solar sensor on the headrest as disclosed in Patent Document 1. There was a problem that it was difficult.

  Moreover, since the sun visor device disclosed in Patent Document 2 requires various components such as a plurality of cameras, the configuration of the sun visor device is complicated and expensive.

  The present invention has been made in view of these facts, and an object of the present invention is to easily estimate the passenger's eye position and to perform an appropriate light-shielding control using the estimated eye position. An object of the present invention is to provide a vehicle sun visor device.

  In order to solve the above-mentioned problem, the invention described in claim 1 is directed to a light-shielding device provided to block incident light incident on a predetermined measurement angle range, and up, down, left and right incidence of incident light incident on the measurement angle range. A vehicle sun visor comprising: a light receiving sensor that outputs a signal for detecting an angle and an incident intensity; and a control device that performs light blocking control by the light blocking device to block the incident light based on the signal output from the light receiving sensor. In the apparatus, the front / rear position of the seat is detected by being mounted on a first drive motor for adjusting the front / rear position of the seat or a mechanism driven by the first drive motor for adjusting the front / rear position of the seat. A front / rear position sensor for outputting a signal for performing the operation, a second drive motor for adjusting the inclination angle of the back portion of the seat, or the inclination angle of the back portion of the seat Therefore, the control device includes at least one of angle sensors that are mounted on a mechanism driven by the second drive motor and output a signal for detecting a tilt angle of the back of the seat. Detecting at least one of the front-rear position of the seat and the inclination angle of the back of the seat based on the signals of the front-rear position sensor and the angle sensor, and estimating the eye position of the passenger based on the detection information; Shading control is performed according to the estimated eye position.

  According to a second aspect of the present invention, a light-shielding device provided to block incident light incident on a predetermined measurement angle range, and an upper, lower, left, and right incident angle and incident intensity of incident light incident on the measurement angle range are detected. In a vehicle sun visor device comprising: a light receiving sensor that outputs a signal for detecting light; and a control device that performs light blocking control for blocking the incident light by the light blocking device based on the signal output from the light receiving sensor. A room mirror angle detection sensor that outputs a signal for detecting the angle state of the room mirror, and the control device detects the angle state of the room mirror based on a signal of the room mirror angle detection sensor. Then, the eye position of the passenger is estimated based on the detection information, and the light shielding control is performed according to the estimated eye position.

  According to a third aspect of the present invention, there is provided a light-shielding device provided to block incident light incident on a predetermined measurement angle range, and detection of incident angles and incident intensities of the incident light incident on the measurement angle range. An angle of a side mirror in a vehicle sun visor device, comprising: a light receiving sensor that outputs a signal for detecting light; and a control device that performs light blocking control for blocking the incident light by the light blocking device based on the signal output from the light receiving sensor Mounted on a mirror drive motor for adjusting the state, or a mechanism driven by the mirror drive motor to adjust the angle state of the side mirror, and outputs a signal for detecting the angle state of the side mirror A side mirror angle detection sensor that controls the angle of the side mirror based on a signal from the side mirror angle detection sensor. Detects, estimates the eye position of the occupant on the basis of the detection information, the shading control in accordance with the eye position estimated.

  According to a fourth aspect of the present invention, in the vehicle sun visor device according to the first aspect, the vehicle is equipped with a rearview mirror angle detection sensor that is mounted on the rearview mirror and outputs a signal for detecting the angular state of the rearview mirror. The control device detects at least one of the front-rear position of the seat and the inclination angle of the back portion of the seat, and detects the angle state of the room mirror based on a signal of the room mirror angle detection sensor, Based on the detection information, the eye position of the passenger is estimated, and light shielding control is performed according to the estimated eye position.

  According to a fifth aspect of the present invention, in the vehicle sun visor device according to the first aspect, the mirror drive motor for adjusting the angle state of the side mirror or the mirror drive for adjusting the angle state of the side mirror. A side mirror angle detection sensor, which is mounted on a mechanism driven by a motor and outputs a signal for detecting the angle state of the side mirror, includes a front and rear position of the seat and a back portion of the seat. While detecting at least one of the tilt angles, detecting the angle state of the side mirror based on the signal of the side mirror angle detection sensor, estimating the eye position of the passenger based on the detection information, Shading control is performed according to the estimated eye position.

  According to a sixth aspect of the present invention, in the vehicle sun visor device according to the second aspect, the mirror drive motor for adjusting the angle state of the side mirror or the mirror drive for adjusting the angle state of the side mirror. A side mirror angle detection sensor that is mounted on a mechanism driven by a motor and outputs a signal for detecting the angle state of the side mirror, the control device detects the angle state of the room mirror, The angle state of the side mirror is detected based on the signal of the side mirror angle detection sensor, the eye position of the occupant is estimated based on the detected information, and the light shielding control is performed according to the estimated eye position. .

  According to a seventh aspect of the present invention, in the vehicle sun visor device according to the fourth aspect, the mirror drive motor for adjusting the angle state of the side mirror or the mirror drive for adjusting the angle state of the side mirror. A side mirror angle detection sensor, which is mounted on a mechanism driven by a motor and outputs a signal for detecting the angle state of the side mirror, includes a front and rear position of the seat and a back portion of the seat. At least one of the tilt angles and the angle state of the room mirror are detected, and the angle state of the side mirror is detected based on a signal of the side mirror angle detection sensor, and boarding is performed based on the detection information. The eye position of the person is estimated, and shading control is performed according to the estimated eye position.

  According to an eighth aspect of the present invention, in the vehicle sun visor device according to any one of the first, fourth, fifth and seventh aspects, the vertical position of the seat is adjusted. A vertical position sensor that is mounted on a third drive motor or a mechanism that is driven by the third drive motor to adjust the vertical position of the sheet and that outputs a signal for detecting the vertical position of the sheet; And a fourth drive motor for adjusting the vertical position of the headrest of the seat, or a mechanism driven by the fourth drive motor for adjusting the vertical position of the headrest of the seat, At least one headrest position detection sensor that outputs a signal for detecting the vertical position of the headrest; and the control device includes the vertical position sensor and the headrest position sensor. Based on the signal of the headrest position detection sensor, at least one of the vertical position of the seat and the vertical position of the headrest of the seat is detected, and the eye position of the occupant is estimated and estimated based on the detection information Shading control is performed according to the eye position.

(Function)
According to the first aspect of the present invention, the eye position of the occupant is estimated from at least one of the front and rear position of the seat and the inclination angle of the back portion of the seat having a correlation with the occupant's eye position. The passenger's eye position is easily estimated. Further, the control device detects at least one of the front and rear position of the seat and the inclination angle of the back based on the signals of the angle sensor and the position sensor, and estimates the occupant's eye position. No components are required, and a simple configuration can be achieved.

  According to the invention described in claim 2, since the passenger's eye position is estimated from the angle state of the rearview mirror having a correlation with the passenger's eye position, the passenger's eye position is easily estimated. . In addition, the control device needs complicated components such as a camera to detect the angle state of the room mirror based on the signal of the room mirror angle detection sensor attached to the room mirror and estimate the passenger's eye position. However, a simple configuration can be obtained.

  According to the invention described in claim 3, since the passenger's eye position is estimated from the angle state of the side mirror having a correlation with the passenger's eye position, the passenger's eye position is easily estimated. . Further, the control device detects the angle state of the side mirror based on the signal of the side mirror angle detection sensor attached to the side mirror and estimates the occupant's eye position. It is not necessary and can be a simple configuration.

  According to the fourth aspect of the present invention, the control device detects at least one of the front and rear position of the seat and the inclination angle of the back portion, and also detects the angle state of the rearview mirror to detect the passenger's eye position. Therefore, the passenger's eye position is estimated more accurately.

  According to the fifth aspect of the present invention, the control device detects at least one of the front-rear position of the seat and the inclination angle of the back portion, and also detects the angle state of the side mirror to detect the passenger's eye position. Therefore, the passenger's eye position is estimated more accurately.

  According to the sixth aspect of the invention, the control device detects the angle state of the rearview mirror and also detects the angle state of the side mirror to estimate the passenger's eye position. Position estimation is performed more accurately.

  According to the seventh aspect of the present invention, the control device detects at least one of the front / rear position of the seat and the inclination angle of the back portion of the seat, the angle state of the rearview mirror, and the angle state of the side mirror to board the vehicle. Since the passenger's eye position is estimated, the passenger's eye position is more accurately determined.

  According to the invention described in claim 8, the control device detects at least one of the vertical position of the seat and the vertical position of the headrest of the seat correlated with the eye position of the passenger, Since the eye position is estimated, the passenger's eye position is estimated more accurately.

  ADVANTAGE OF THE INVENTION According to this invention, while being able to estimate a passenger's eye position easily, the sun visor apparatus for vehicles of the simple structure which performs appropriate light-shielding control using the estimated eye position can be provided.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, an embodiment of the invention will be described with reference to the drawings.
As shown in FIGS. 1 and 2, the vehicle 1 includes a driving side seat 2, a room mirror 3, a side mirror 4, and a vehicle sun visor device 5.

  The driving-side seat 2 is a power seat that moves electrically, and is positioned in a seat portion 2a that can be adjusted in the front-rear direction (slide) and the vertical direction (vertical), a reclining back portion 2b, and a vertical direction (up and down the headrest). And an adjustable headrest 2c. The seat portion 2a has a mechanism (not shown) for moving the seat portion 2a in the front-rear direction (in the direction of arrow A in FIG. 2) to adjust the front-rear position of the seat portion 2a, and a first drive motor that drives the mechanism As a drive motor 6. The drive motor 6 is equipped with a seat front / rear position detection sensor 60 as a front / rear position sensor that outputs a signal for detecting the front / rear position of the seat 2a. The seat 2a has a mechanism (not shown) for moving the seat 2a in the vertical direction (in the direction of arrow B in FIG. 2) to adjust the vertical position of the seat 2a, and a third for driving the mechanism. A drive motor 7 as a drive motor is provided. The drive motor 7 is equipped with a seat part vertical position detection sensor 70 as a vertical position sensor that outputs a signal for detecting the vertical position of the seat part 2a.

  The back portion 2b includes a mechanism (not shown) for rotating the back portion 2b in the direction of arrow C to adjust the inclination angle θ1 (see FIG. 4) of the back portion 2b, and a second drive motor for driving the mechanism. A drive motor 8 is provided. The drive motor 8 is equipped with a back inclination angle detection sensor 80 as an angle sensor that outputs a signal for detecting the inclination angle θ1 of the back 2b.

  The headrest 2c is provided with a mechanism (not shown) for moving the headrest 2c in the vertical direction to adjust the vertical position of the headrest 2c, and a drive motor 9 as a fourth drive motor for driving the mechanism. . The drive motor 9 is equipped with a headrest position detection sensor 90 that outputs a signal for detecting the vertical position (in the direction of arrow D in FIG. 2) of the headrest 2c.

  The driving side seat 2 includes a seat memory (not shown) that indicates the state of the driving side seat 2 including the front and rear position and the vertical position of the seat portion 2a, the inclination angle θ1 of the back portion 2b, and the vertical position of the headrest 2c. Is provided with a sheet memory switch (not shown).

  The room mirror 3 is fixed to the front center of the ceiling portion 10 in the passenger compartment, and the vehicle 1 passes through the rear glass 11 (see FIG. 3) when a passenger (driver) sits on the driver side seat 2. Is provided with a reflecting plate 3b having a planar reflecting surface 3a that reflects the back of the screen. The room mirror 3 is adjustable in angle so that the passenger can appropriately reflect the situation behind the vehicle 1 on the reflecting surface 3a. That is, the room mirror 3 first passes through the tilting center of the room mirror 3 (reflecting plate 3b) as viewed from above the vehicle 1 as shown in FIG. An angle θ2 (hereinafter referred to as a left-right angle θ2) formed by the reflecting surface 3a with respect to a straight line parallel to or coincident with the direction center line can be adjusted. Further, as shown in FIG. 4, the rearview mirror 3 is seen from the side of the vehicle 1. The rearview mirror 3 passes through the tilt center of the rearview mirror 3 (reflecting plate 3 b) and becomes horizontal when the vehicle 1 is arranged in a horizontal state. An angle θ3 formed by the reflecting surface 3a with respect to the reference line L2 (hereinafter, referred to as a vertical angle θ3) can be adjusted. Further, the room mirror 3 is equipped with a room mirror angle detection sensor 17 that outputs signals for detecting the left and right angle θ2 and the vertical angle θ3 as the angle state of the room mirror.

  The side mirror 4 is installed near the lower end of the front pillar 18 outside the vehicle 1, and is a planar reflection that reflects the rear side of the vehicle 1 when the occupant is seated on the driver's seat 2. A reflecting plate 4b having a surface 4a is provided. The side mirror 4 is a mechanism (not shown) that is driven by the mirror drive motor 19 by driving the mirror drive motor 19 so that the passenger can properly reflect the rear side of the vehicle 1 on the reflecting surface 4a. The angle can be adjusted by driving. That is, the side mirror 4 first passes the third reference line L3 (vehicle width) extending in the front-rear direction of the vehicle 1 through the tilt center of the side mirror 4 (reflecting plate 4b) when viewed from above the vehicle 1 as shown in FIG. An angle θ4 (hereinafter, referred to as a left-right angle θ4) formed by the reflecting surface 4a with respect to a direction center line is adjustable. Furthermore, as shown in FIG. 4, the side mirror 4 is horizontal when the vehicle 1 is placed in a horizontal state through the tilting center of the side mirror 4 (reflecting plate 4) when viewed from the side of the vehicle 1. An angle θ5 (hereinafter, referred to as a vertical angle θ5) formed by the reflecting surface 4a with respect to the reference line L4 can be adjusted. The mirror drive motor 19 is equipped with a side mirror angle detection sensor 24 that outputs signals for detecting the left and right angle θ4 and the vertical angle θ5 as the angle state of the side mirror.

The vehicle sun visor device 5 includes a light receiving sensor 25, a control device 26, and a light shielding device 27.
The light receiving sensor 25 is installed at the upper end portion of the surface of the windshield 28 on the vehicle interior side, substantially in front of the driving seat 2, that is, at the approximate center between the room mirror 3 and the upper end of the front pillar 18. The light receiving sensor 25 is centered on the light receiving sensor 25 and is vertically, horizontally, and horizontally incident light (direct sunlight, etc.) incident on the windshield 28 in a measurement angle range 29 of 150 ° in the horizontal direction and 45 ° in the vertical direction. A signal corresponding to the incident angle and the incident intensity is output to the control device 26. Incidentally, the measurement angle range 29 is set to a range in which incident light can be shielded by the sun visor body 31 when a person with a general physique generally sits on the driving side seat 2.

  As shown in FIG. 5, power is supplied from the battery B to the control device 26. The control device 26 includes a seat part longitudinal position detection sensor 60, a seat part vertical position detection sensor 70, a back inclination angle detection sensor 80, a headrest position detection sensor 90, a room mirror angle detection sensor 17, and a side mirror angle detection sensor 24. Based on the signal, the eye position of the passenger seated in the driver's seat 2 is estimated. Then, the control device 26 performs light shielding control based on the signal from the light receiving sensor 25 and operates the light shielding device 27.

  Here, the front-rear position and the vertical position of the seat portion 2a (driving side seat 2), the inclination angle θ1 of the back portion 2b, and the vertical position of the headrest 2c are correlated with the eye position of the passenger sitting on the driving side seat 2. Have a relationship. Therefore, based on signals from the seat front / rear position detection sensor 60, the seat vertical position detection sensor 70, the back inclination angle detection sensor 80, and the headrest position detection sensor 90, the control device 26 detects the front / rear position of the seat 2a. The position and the vertical position, the inclination angle θ1 of the back portion 2b, and the vertical position of the headrest 2c are detected by calculation. And the control apparatus 26 estimates a passenger's eye position based on the detection information.

  Similarly, the left-right angle θ2 and the up-down angle θ3 indicating the state of the room mirror 3 have a correlation with the passenger's eye position. Therefore, as shown in FIGS. 3 and 4, the control device 26 detects the left and right angle θ2 and the vertical angle θ3 based on the signal from the room mirror angle detection sensor 17, and boarding based on the detected information. The eye position of a person.

  Further, the left-right angle θ4 and the vertical angle θ5 indicating the state of the side mirror 4 are similarly correlated with the eye position of the passenger. Therefore, as shown in FIGS. 3 and 4, the control device 26 detects the left and right angles θ4 and θ5 by calculation based on the signal from the side mirror angle detection sensor 24, and boarding based on the detected information. Estimate the eye position of the person in the vertical direction.

  As shown in FIGS. 1 and 2, the light shielding device 27 operated by the light shielding control performed by the control device 26 is housed and fixed in the ceiling portion 10 together with the control device 26. The light shielding device 27 includes a rectangular sun visor body 31, a moving member 32 to which the sun visor body 31 is fixed, two guide rails 33 that guide the moving member 32 on both sides of the moving member 32, and the moving member 32. Are provided with a link mechanism 34 that moves the front and rear, and a drive motor 35 that moves the moving member 32 via the link mechanism 34.

  When the drive motor 35 rotates, the light shielding device 27 is transmitted to the moving member 32 from the link mechanism 34, and the moving member 32 is guided by the guide rail 33 and moves in the front-rear direction. The sun visor main body 31 moves in the front-rear direction, and protrudes or is stored from the front of the ceiling portion 10 on the vehicle interior side. The light shielding device 27 operates so as to block incident light exceeding a predetermined incident intensity among incident light incident on the measurement angle range 29. The protrusion amount of the sun visor body 31 is divided into five stages from the retracted state to the maximum protrusion amount. That is, the storage state is set to 0 level, and the length in the protruding direction of the sun visor body 31 when protruding to the maximum is equally divided into 4 levels to obtain 5 levels. Then, as an initial setting, when the incident light having a predetermined incident angle and a predetermined incident intensity is incident on the measurement angle range 29, the control device 26 sets the protrusion amount of the sun visor main body 31 in any one of 0 to 4 steps. A control map in which whether to make a stage is set in advance is stored.

  Note that the vehicle sun visor device 5 has a function that allows each passenger to enter a light-shielding state when the amount of protrusion of the sun visor body 31 by the initial setting is not suitable for the passenger. Specifically, an adjustment switch 37 is provided at a predetermined location around the vehicle-side seat 2 of the vehicle, and the passenger operates the adjustment switch 37 when the sun visor body 31 is protruded by the light-shielding control based on the initial setting. Thus, the position of the sun visor body 31 is manually adjusted, that is, it is adjusted to the most suitable stage among the 0 to 4 stages of protrusion of the sun visor body 31. Then, when the adjustment switch 37 is further operated, the state of the driving side seat 2 stored in the seat memory with respect to the incident angles of the upper, lower, left and right of the incident light at that time and the projecting stage of the sun visor body 31 are stored in the control device 26. It is stored in the storage area 36 provided. Here, the state of the driving side seat 2 stored in the seat memory includes the front and rear position and the vertical position of the driving side seat 2, the inclination angle θ1 of the back portion 2b, and the vertical position of the headrest 2c. Thereafter, when the driving side seat 2 is arranged in the state stored in the seat memory, it is replaced with the control map calculated on the basis of the stored protruding stage of the sun visor body 31, and the light shielding control is performed in five steps according to the control map. Is done.

Next, the operation of the vehicle sun visor configured as described above will be described.
Based on the signals from the respective detection sensors, the control device 26 determines the front-rear position and vertical position of the driving side seat 2, the inclination angle θ1 of the back portion 2b, the vertical position of the headrest 2c, the angle state of the rearview mirror 3, and the side mirror 4 Detect the angle state. And the control apparatus 26 estimates a passenger's eye position from all the detection information. In addition, when incident light enters the measurement angle range 29, the light receiving sensor 25 outputs a signal corresponding to the vertical and horizontal incident angles and incident intensity of direct sunlight to the control device 26. When it is determined by the signal from the light receiving sensor 25 that the incident intensity exceeds a predetermined value, the control device 26 determines that the passenger is dazzled by this incident light, and blocks the light according to the estimated eye position. Take control. That is, the sun visor main body 31 in which the control device 26 is suitably shielded from the five initial settings according to the estimated eye position so that the incident light of the incident angle output from the light receiving sensor 25 can be shielded. Is selected, and the drive motor 35 is operated to cause the sun visor body 31 to protrude and shield the light.

  In addition, when a suitable light-shielding state cannot be obtained with the initial projection amount of the sun visor body 31, the position of the sun visor body 31 is manually adjusted by operating the adjustment switch 37, that is, the sun visor in 0 to 4 stages. Of the protruding amount of the main body 31, it is adjusted to the most suitable stage. Then, by further operating the adjustment switch 37, the front and rear position and the vertical position of the driving side seat 2 with respect to the vertical and horizontal incident angles of the incident light at that time, the inclination angle θ1 of the back portion 2b, and the vertical position of the headrest 2c (seat memory) And the projecting stage of the sun visor main body 31 are stored in the storage area 36. Thereafter, when the driving side seat 2 is arranged in the state stored in the seat memory, it is replaced with the control map calculated on the basis of the stored protruding stage of the sun visor body 31, and the light shielding control is performed in five steps according to the control map. Is done.

As described above, the present embodiment has the following effects.
(1) The front-rear position and the vertical position of the driving side seat 2 (seat part 2a) having a correlation with the eye position of the passenger, the inclination angle θ1 of the back part 2b, the vertical position of the headrest 2c, and the left and right as the angle state of the rearview mirror The eye position of the occupant is estimated from the angle θ2 and the vertical angle θ3, and the left and right angles θ4 and the vertical angle θ5 as the angle state of the side mirror. Therefore, the passenger's eye position can be easily estimated.

  (2) Seat part longitudinal position detection sensor 60, seat part vertical position detection sensor 70, back inclination angle detection sensor 80, headrest position detection sensor 90, room mirror angle detection sensor 17, and side mirror angle detection sensor 24 are control devices. A signal for detecting a position and a state is output to 26. Based on the output signals, the control device 26 determines the front-rear position and the vertical position of the driving seat 2, the inclination angle θ1 of the back portion 2b, the vertical position of the headrest 2c, the left-right angle θ2 and the vertical angle θ3, and the left-right The angle θ4 and the vertical angle θ5 are detected, and the eye position of the passenger is estimated based on all the detection information. Therefore, complicated and expensive components such as a camera are not required, and the vehicle sun visor device 5 can be configured simply and inexpensively.

  (3) The control device 26 includes a front-rear position and a vertical position of the driving side seat 2 (seat part 2a), an inclination angle θ1 of the back part 2b, a vertical position of the headrest 2c, a left-right angle θ2 and a vertical angle θ3, The angle θ4 and the vertical angle θ5 are detected, and the passenger's eye position is estimated comprehensively based on all detection information. Therefore, the passenger's eye position can be estimated more accurately.

  (4) Since the vehicle sun visor device 5 includes the adjustment switch 37 and the control device 26 includes the storage area 36, the adjustment is performed when the amount of protrusion of the sun visor body 31 by the initial setting is not suitable for the passenger. A suitable light-shielding state can be stored in the storage area 36 by operating the switch 37 and manually adjusting the protruding stage of the sun visor body 31. At this time, the control device 26 stores the projecting stage of the sun visor body 31 and also the state of the driving side seat 2 stored in the seat memory with respect to the incident angles of the incident light when the adjustment switch 37 is operated. Remember. Thereafter, when the driving side seat 2 is arranged in the state stored in the seat memory, the control device 26 replaces the stored light shielding state (the projecting stage of the sun visor main body 31) with the control map and controls the control map. Shading control is performed according to the map. Therefore, once a suitable light shielding state is stored in the storage area 36, the passenger can thereafter automatically obtain a suitable light shielding state.

In addition, you may change embodiment of this invention as follows.
In the above embodiment, both the seat front / rear position detection sensor 60 and the back inclination angle detection sensor 80 are attached to the driving side seat 2, but only one of them may be attached.

  In the above embodiment, the seat front / rear position detection sensor 60 is mounted on the drive motor 6, but is mounted on a mechanism that moves the driving side seat 2 driven by the drive motor 6 in the front / rear direction. May be. Similarly, the seat portion vertical position detection sensor 70, the back portion inclination angle detection sensor 80, and the headrest position detection sensor 90 are not attached to the drive motors 7, 8, 9, but are attached to the drive motors 7, 8, 9. It may be mounted on a driven mechanism.

  In the above embodiment, the side mirror angle detection sensor 24 is mounted on the mirror drive motor 19, but is mounted on a mechanism driven by the mirror drive motor 19 in order to adjust the left / right angle θ4 and the vertical angle θ5. It may be a thing.

  In the above embodiment, sensors for detecting the respective positions are provided at three locations of the driving side seat 2, the rearview mirror 3, and the side mirror 4, but only at any one of the three locations. A sensor may be provided, and the position of one of the positions may be detected to estimate the passenger's eye position. Alternatively, sensors may be provided at any two of the three locations, and the positions of the two locations may be detected to estimate the passenger's eye position.

  In the above-described embodiment, the vehicle sun visor device 5 has a configuration in which the seat portion vertical position detection sensor 70 and the headrest position detection sensor 90 are provided, but may have a configuration without these two sensors. .

  In the above embodiment, the amount of protrusion of the sun visor body 31 is set in five stages, but is not limited to this. For example, when the number of stages is set to 6 or more, a more favorable light-shielding state can be provided for the passenger.

  In the above embodiment, the measurement angle range 29 is a range of 150 ° in the left-right direction and 45 ° in the up-down direction with the light receiving sensor 25 as the center, but is not limited thereto, and is appropriately set according to the size of the vehicle 1. It may be changed.

In the above embodiment, the drive motors 6 to 9 are mounted on the driving side seat 2, but this is not restrictive. For example, it may be fixed to the floor of the vehicle 1.
The technical idea that can be grasped from each of the above embodiments will be described below.

  (A) The vehicle sun visor device according to claim 1, wherein the vehicle sun visor device includes an adjustment switch, the control device includes a storage area, and the passenger is in an eye position of the passenger. Adjusting the light shielding device by operating the operation switch so that a corresponding light shielding state is obtained, and further operating the adjustment switch, the front and rear positions of the seat with respect to the incident angle when the adjustment switch is operated, and the At least one of the inclination angles of the back portion of the seat and the light shielding state are stored in the storage area, and the seat is arranged at the front-rear position of the seat and the inclination angle of the back portion of the seat stored in the storage area. And the light shielding control is performed based on the stored light shielding state.

  If comprised in this way, a suitable light-shielding state can be obtained for every passenger. Furthermore, once a suitable light-shielding state is stored in the storage area, if the sheet is subsequently placed at the front-rear position of the sheet and the inclination angle of the back stored in the storage area, the light-shielding device need not be adjusted again. A suitable light-shielding state can be obtained.

The front view which shows the sun visor apparatus for vehicles of this embodiment. The side view which shows the sun visor apparatus for vehicles of this embodiment. The schematic diagram for demonstrating the mode of the estimation of the eye position of the front-back direction. The schematic diagram for demonstrating the mode of the estimation of the eye position of an up-down direction. The block diagram of the sun visor apparatus for vehicles.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 2 ... Driving side seat as a seat, 3 ... Room mirror, 4 ... Side mirror, 5 ... Vehicle sun visor device, 2b ... Back, 2c ... Headrest, 6 ... Drive motor as first drive motor, 7 ... Third drive Drive motor as motor, 8... Drive motor as second drive motor, 9... Drive motor as fourth drive motor, 19... Mirror drive motor, 17 .. room mirror angle detection sensor, 24. 25 ... Light receiving sensor, 26 ... Control device, 27 ... Shading device, 29 ... Measurement angle range, 60 ... Seat front / rear position detection sensor as front / rear position sensor, 70 ... Seat part vertical position detection sensor as vertical position sensor, 80 ... Back part inclination angle detection sensor as an angle sensor, 90... Headrest position detection sensor, .theta.1... Inclination angle of back part 2b, .theta.2. Left and right angle as the angle state of the mirror, θ3... Vertical angle as the angle state of the room mirror, θ4... Left and right angle as the angle state of the side mirror, θ5.

Claims (8)

A light blocking device provided to block incident light incident on a predetermined measurement angle range;
A light receiving sensor that outputs a signal for detecting an incident angle and an incident intensity of up, down, left and right incident light incident on the measurement angle range;
A vehicle sun visor device comprising: a control device that performs light shielding control for shielding the incident light by the light shielding device based on a signal output from the light receiving sensor;
A first drive motor for adjusting the front / rear position of the seat, or a mechanism driven by the first drive motor for adjusting the front / rear position of the seat, for detecting the front / rear position of the seat A front / rear position sensor that outputs a signal, and a second drive motor for adjusting the inclination angle of the back portion of the seat, or a mechanism driven by the second drive motor for adjusting the inclination angle of the back portion of the seat And at least one sensor among angle sensors that outputs a signal for detecting an inclination angle of the back portion of the seat,
The control device detects at least one of the front / rear position of the seat and the inclination angle of the back portion of the seat based on signals of the front / rear position sensor and the angle sensor, and based on the detection information, A vehicle sun visor device that estimates an eye position and performs light-shielding control according to the estimated eye position. A light blocking device provided to block incident light incident on a predetermined measurement angle range;
A light receiving sensor that outputs a signal for detecting an incident angle and an incident intensity of up, down, left and right incident light incident on the measurement angle range;
A vehicle sun visor device comprising: a control device that performs light shielding control for shielding the incident light by the light shielding device based on a signal output from the light receiving sensor;
A room mirror angle detection sensor that is mounted on a room mirror and outputs a signal for detecting the angle state of the room mirror,
The control device detects an angle state of the room mirror based on a signal of the room mirror angle detection sensor, estimates a passenger's eye position based on the detection information, and responds to the estimated eye position. A vehicle sun visor device that performs light shielding control. A light blocking device provided to block incident light incident on a predetermined measurement angle range;
A light receiving sensor that outputs a signal for detecting an incident angle and an incident intensity of up, down, left and right incident light incident on the measurement angle range;
A vehicle sun visor device comprising: a control device that performs light shielding control for shielding the incident light by the light shielding device based on a signal output from the light receiving sensor;
Mounted on a mirror drive motor for adjusting the angle state of the side mirror, or a mechanism driven by the mirror drive motor for adjusting the angle state of the side mirror, and for detecting the angle state of the side mirror Side mirror angle detection sensor that outputs the signal of
The control device detects an angle state of the side mirror based on a signal of the side mirror angle detection sensor, estimates a passenger's eye position based on the detection information, and responds to the estimated eye position. A vehicle sun visor device that performs light shielding control. The vehicle sun visor device according to claim 1,
A room mirror angle detection sensor that is mounted on a room mirror and outputs a signal for detecting the angle state of the room mirror,
The control device detects at least one of a front-rear position of the seat and an inclination angle of a back portion of the seat, detects an angle state of the room mirror based on a signal of the room mirror angle detection sensor, and A vehicle sun visor device that estimates a passenger's eye position based on the detected information and performs a light shielding control according to the estimated eye position. The vehicle sun visor device according to claim 1,
Mounted on a mirror drive motor for adjusting the angle state of the side mirror, or a mechanism driven by the mirror drive motor for adjusting the angle state of the side mirror, and for detecting the angle state of the side mirror Side mirror angle detection sensor that outputs the signal of
The control device detects at least one of a front-rear position of the seat and an inclination angle of a back portion of the seat, and detects an angle state of the side mirror based on a signal of the side mirror angle detection sensor, A vehicle sun visor device that estimates a passenger's eye position based on the detected information and performs light-shielding control according to the estimated eye position. The vehicle sun visor device according to claim 2,
Mounted on a mirror drive motor for adjusting the angle state of the side mirror, or a mechanism driven by the mirror drive motor for adjusting the angle state of the side mirror, and for detecting the angle state of the side mirror Side mirror angle detection sensor that outputs the signal of
The control device detects an angle state of the room mirror, detects an angle state of the side mirror based on a signal of the side mirror angle detection sensor, and detects a passenger's eye position based on the detection information. The vehicle sun visor device is characterized in that shading control is performed according to the estimated eye position. The vehicle sun visor device according to claim 4,
Mounted on a mirror drive motor for adjusting the angle state of the side mirror, or a mechanism driven by the mirror drive motor for adjusting the angle state of the side mirror, and for detecting the angle state of the side mirror Side mirror angle detection sensor that outputs the signal of
The control device detects at least one of a front-rear position of the seat and an inclination angle of a back portion of the seat, and an angle state of the room mirror, and based on a signal of the side mirror angle detection sensor, A vehicle sun visor apparatus that detects an angle state of a mirror, estimates a passenger's eye position based on the detected information, and performs light-shielding control according to the estimated eye position. The vehicle sun visor device according to any one of claims 1, 4, 5, and 7,
To detect the vertical position of the sheet mounted on a third drive motor for adjusting the vertical position of the sheet or a mechanism driven by the third drive motor for adjusting the vertical position of the sheet And a fourth drive motor for adjusting the vertical position of the headrest of the seat or the fourth drive motor for adjusting the vertical position of the headrest of the seat. At least one sensor among headrest position detection sensors mounted on a mechanism and outputting a signal for detecting the vertical position of the headrest of the seat,
The control device detects at least one of the vertical position of the seat and the vertical position of the headrest of the seat based on signals of the vertical position sensor and the headrest position detection sensor, and boarding based on the detection information A vehicle sun visor device that estimates a person's eye position and performs light shielding control according to the estimated eye position.

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