JP4217554B2 - Notification device for operation target of vehicle seat - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operation subject notification device for a vehicle seat.
[0002]
[Prior art]
Conventionally, so-called electric power seats have been proposed for vehicle seats. As a device for operating this electric power seat, a device described in Patent Document 1 (hereinafter, referred to as known art 1) has been proposed. In this known technique 1, the front / rear position adjustment and the vertical position adjustment of the seat cushion can be performed, and the front / rear position adjustment button and the vertical position adjustment button of the seat cushion are arranged on the side surface of the seat cushion. When each adjustment button is provided with a touch sensor and a finger is touching each adjustment button on the head-up display, a layout image of the adjustment button is displayed by the detection of the touch sensor and touched. An adjustment button on the layout corresponding to the touch sensor displayed is highlighted.
[0003]
When the driver presses the adjustment button after confirming the adjustment button being touched by this highlighting on the head-up display, a mark indicating the direction in which the seat cushion is activated is highlighted by the adjustment button in the display. The operation state is indicated. As described above, according to the known technique 1, for example, any adjustment button touched with a finger adjusts without looking at each adjustment button of the electric power seat in a place where it is difficult to see as on the side of the seat cushion. You can see what you are doing by looking at the heads-up display. In addition, the following patent document 2 and patent document 3 are referred to as known technology 2 and known technology 3 in the specification.
[0004]
[Patent Document 1]
JP-A-5-77679 (paragraph numbers “0041”-“0043”, FIG. 12)
[Patent Document 2]
Actual opening and closing No. 5-55427
[Patent Document 3]
JP-A-8-111134
[0005]
[Problems to be solved by the invention]
However, for example, when the electric power seat is adjusted even during driving, the adjustment button to be operated can be confirmed only by looking at the head-up display. In this case, the driver sees the head-up display during driving and is unpreferable because the driver's line of sight deviates from the traveling path of the vehicle.
[0006]
The present invention has been made to solve the above-described problems, and its purpose is to determine which part of the seat the specific part of the operating means touched by the operator adjusts without looking at the display device. An object of the present invention is to provide a vehicle seat operation target notification device that can be directly felt by the operator.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 is provided in a seat, an operating means for operating a predetermined part of the seat in a predetermined adjustment direction, and an operating means, and the operation of the operating means is controlled. Based on the first switch means to be allowed, the second switch means for notification provided corresponding to the first switch means, and the ON operation of the second switch means. A gist of an operation target notifying device for a vehicle seat, comprising: a notifying means for notifying a predetermined portion which is an operation target of the first switch means associated with the two switch means by mechanically operating the predetermined portion. To do.
[0008]
According to a second aspect of the present invention, in the first aspect, the control unit is configured to control the notification unit, and the control unit controls the notification unit based on an ON operation of the second switch unit, so that the second unit is controlled. A predetermined portion which is an operation target of the first switch means associated with the switch means is operated by a predetermined amount in an operation direction when the first switch is turned on.
[0009]
According to a third aspect of the present invention, in the second aspect, the control means controls the notifying means based on an ON operation of the second switch means, and the first switch means associated with the second switch means. After the predetermined part which is the operation target is operated for a predetermined amount, the return operation is performed.
[0010]
According to a fourth aspect of the present invention, in the first aspect, the control unit controls the notification unit to vibrate a predetermined portion that is an operation target of the first switch unit associated with the second switch unit. It is characterized by making it.
[0011]
According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the second switch means is a contact detection sensor that senses that the operator has made contact.
[0012]
According to a sixth aspect of the present invention, in any one of the first to fifth aspects, the first switch means is a mechanical switch that is turned on based on a predetermined operation amount.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
1 to 5 show an embodiment in which the present invention is embodied in a power seat operation control device (hereinafter referred to as an operation control device) as an operation target notification device for a vehicle driver seat provided in a driver seat of an automobile. explain.
[0014]
As shown in FIG. 1, the operation control device 11 includes a plurality of (four in this embodiment) detection units 12 and a control unit 13.
Each detection unit 12 is provided on an operation knob 15 as an operation means provided on a side portion of a vehicle seat 16 (see FIG. 2) as a seat, and can transmit a detection signal to the control unit 13. Yes. The control unit 13 drives and controls an operation target to be described later based on the detection signal.
[0015]
As shown in FIG. 2, the vehicle seat 16 of the present embodiment includes a seat cushion 16a, a seat back 16b, and a headrest 16c, and only the seat cushion 16a is set as a predetermined portion (operation target).
[0016]
The seat cushion 16a includes a first motor M1 that drives the front / rear position adjustment mechanism 100 that adjusts and drives the front / rear position of the seat cushion 16a, and a second motor that drives the seat surface adjustment mechanism 200 that adjusts the height of the seat cushion seat surface. M2 is provided. These adjustment mechanisms control the forward / reverse rotation of the first motor M1 and the second motor M2 and the amount of motor drive, so that the seating posture desired by the operator of the seat cushion 16a, that is, the operator's body shape, preferences, etc. The corresponding seat position can be adjusted and set arbitrarily.
[0017]
That is, the first motor M1 corresponds to an operating means that operates the seat cushion 16a in the front-rear direction that is a predetermined adjustment direction. The second motor M2 corresponds to an operating means that operates the seat cushion 16a in the up-down direction, which is a predetermined adjustment direction.
[0018]
As shown in FIG. 2, the operation knob 15 is provided in a place where it is difficult for the operator to visually recognize (in this embodiment, the side portion of the seat cushion 16 a in the vehicle seat 16). Therefore, when the operator operates the detection unit 12 provided on the operation knob 15, the operator performs the blind operation.
[0019]
The operation knob 15 is supported so as to be movable forward and backward (front and rear of the vehicle) and up and down with respect to the side portion of the seat cushion 16a. When the operation is released, the operation knob 15 is positioned at a neutral position by a spring mechanism (not shown). Have been to. When the operation knob 15 is operated downward, the switch SWa as a mechanical switch is turned on, and when the operation knob 15 returns to the neutral position, the switch SWa is turned off. When the switch SWa is turned on, a downward operation signal is output to the control unit 13. When the operation knob 15 is operated upward, the switch SWb as a mechanical switch is turned on, and when the operation knob 15 returns to the neutral position, the switch SWb is turned off. When the switch SWb is turned on, an upward operation signal is output to the control unit 13.
[0020]
Further, when the operation knob 15 is operated backward, the switch SWc as a mechanical switch is turned on, and when the operation knob 15 returns to the neutral position, the switch SWc is turned off. When the switch SWc is turned on, a backward operation signal is output to the control unit 13. When the operation knob 15 is operated in the forward direction, the switch SWd as a mechanical switch is turned on. When the operation knob 15 returns to the neutral position, the switch SWd is turned off. When the switch SWd is turned on, a forward operation signal is output to the control unit 13.
[0021]
The switches SWa to SWd correspond to first switch means.
As shown in FIGS. 2 and 3 (a), the operation knob 15 is formed of an insulating synthetic resin in the shape of a covered square cylinder, and the opened bottom face is opposed to the seat cushion 16a. ing. Further, the interior space communicates with the interior of the seat cushion 16a. Then, four touch panels 18a to 18d having a plate shape are provided on the four surfaces which are the side surfaces of the operation knob 15 so as to be separated from each other by the operation knob 15 so as not to contact each other. That is, the operation knob 15 includes an upper panel 18a facing the ceiling (not shown) of the automobile, a lower panel 18b facing the floor (not shown) of the automobile, a front panel 18c facing the steering (not shown), and a rear seat ( The rear panel 18d faces the side (not shown). These surfaces are hereinafter referred to as operation surfaces of the operation knob 15.
[0022]
The touch panels 18a to 18d are constituted by known capacitively coupled touch panels, and the surface to be touched is subjected to conductive metal plating (in this embodiment, chrome plating).
[0023]
Further, as shown in FIG. 3B, the back surfaces of the touch panels 18a to 18d are connected to the wirings 19, and the wirings 19 are arranged from the internal space of the operation knob 15 to the seat cushion 16a. Each wiring 19 is once gathered by a connector 12a at a predetermined location so that the respective wirings 19 are not entangled with each other. In FIG. 3B, the touch panels 18a to 18d are omitted for the sake of explanation. As shown in FIG. 1, each wiring 19 is disposed up to, for example, a touch sensor circuit 20 that performs electrostatic capacitance detection separately provided inside the center console.
[0024]
In each operation surface of the operation knob 15, touch sensors 21a to 21d are configured by the touch panels 18a to 18d, the wiring 19, and the touch sensor circuit 20, respectively. The touch sensors 21a to 21d make use of phase delays that occur in two transmission paths (not shown) due to the capacitance applied to the touch sensor circuit 20 when the operator touches the touch panel 18. It detects whether the operator is touching. And each input port of the said control part 13 is each connected to the output terminal of each touch sensor circuit 20, and the control part 13 inputs the said detection signal. The touch sensors 21a to 21d correspond to contact detection sensors.
[0025]
The touch sensors 21a to 21d provided on the operation surfaces of the operation knob 15 are associated with the switches SWa to SWd, respectively. That is, when the operation knob 15 is to be operated downward, the touch sensor 21a is provided on the upper surface of the operation knob 15, and thus it is essential to touch the touch sensor 21a. When the operation knob 15 is to be operated in the upward direction, the touch sensor 21b is provided on the lower surface of the operation knob 15, so that it is essential to touch the touch sensor 21b. When the operation knob 15 is to be operated backward, the touch sensor 21c is provided on the front surface of the operation knob 15, so that it is essential to touch the touch sensor 21c. When the operation knob 15 is to be operated in the forward direction, since the touch sensor 21d is provided on the rear surface of the operation knob 15, it is essential to touch the touch sensor 21d.
[0026]
The control unit 13 as a control unit is configured as an ECU (electronic control unit) including a CPU, a ROM, and a RAM, and includes a drive device that drives and controls the first motor M1 and the second motor M2.
[0027]
While the downward operation signal or the upward operation signal is input from the switch SWa and the switch SWb, the control unit 13 rotates the second motor M2 forward or backward to drive the seat surface adjustment mechanism 200, and the seat cushion. Adjust the height of the seating surface 16a. The control unit 13 drives the front / rear position adjustment mechanism 100 by rotating the first motor M1 forward or backward while the backward operation signal or the forward operation signal is input from the switch SWc and the switch SWd. The front and rear positions of the seat cushion 16a are adjusted.
[0028]
Further, when a detection signal is input from the touch sensor 21a, the control unit 13 rotates the second motor M2 by a predetermined amount and then reversely rotates the same by a predetermined amount to drive the seat surface adjustment mechanism 200. The predetermined amount at this time is an amount for determining whether or not the operator has actuated so that the seat cushion seating surface is lowered. After the seat surface adjustment mechanism 200 is driven, the seat cushion 16a is returned to its original position (position before it is lowered) after the seat surface height of the seat cushion 16a is lowered. In this case, the operation direction of the seat cushion 16a which is a predetermined part is a downward direction.
[0029]
Further, when the detection signal is input from the touch sensor 21b, the control unit 13 rotates the second motor M2 by a predetermined amount in the reverse direction and then rotates the same by a predetermined amount to drive the seat surface adjustment mechanism 200. The predetermined amount at this time is an amount for determining whether or not the operator has actuated so as to raise the seat cushion seat surface. The seat surface adjustment mechanism 200 is driven to raise the seat surface of the seat cushion 16a and then return to the original position (position before the seat cushion 16a is increased). In this case, the operating direction of the seat cushion 16a, which is a predetermined part, is the upward direction.
[0030]
Further, when a detection signal is input from the touch sensor 21c, the control unit 13 rotates the first motor M1 by a predetermined amount and then reversely rotates the same by a predetermined amount to drive the front / rear position adjustment mechanism 100. The predetermined amount at this time is an amount for determining whether or not the operator has moved rearward of the seat cushion 16a. By driving the front / rear position adjusting mechanism 100, the seat cushion 16a moves backward, and then returns to the original position (position before moving backward). In this case, the operation direction of the seat cushion 16a which is a predetermined part is the backward direction.
[0031]
In addition, when the detection signal is input from the touch sensor 21d, the control unit 13 rotates the first motor M1 reversely by a predetermined amount and then rotates the same by a predetermined amount to drive the front / rear position adjusting mechanism 100. The predetermined amount at this time is an amount for determining whether or not the operator has moved forward of the seat cushion 16a. By driving the front / rear position adjusting mechanism 100, the seat cushion 16a moves forward and then returns to the original position (position before moving forward). In this case, the operation direction of the seat cushion 16a which is a predetermined part is the front direction.
[0032]
The controller 13 receives any one of the various operation signals from the switches SWa to SWd and any one of the detection signals from the touch sensors 21a to 21d at the same time. The first motor M1 or the second motor M2 is driven and controlled by giving priority to the signal.
[0033]
(Operation of the first embodiment)
Next, the operation of the operation control device 11 will be described.
Now, when the operator of the vehicle seat 16 wishes to adjust the position of the seat cushion 16a, the operator extends his hand to the operation knob 15 and selects one of the touch sensors 21a to 21d of the detection unit 12. Contact. Then, a detection signal is input to the control unit 13 from the touch sensors 21a to 21d that are touched. The control unit 13 controls and drives the second motor M2 of the seat surface adjustment mechanism 200 or the first motor M1 of the front / rear position adjustment mechanism 100 in accordance with detection signals of the touch sensors 21a to 21d that are touched.
[0034]
That is, when the touch sensor 21a detects, the second motor M2 is rotated forward and backward by the control of the control unit 13, thereby driving the seating surface adjusting mechanism 200 and lowering the seating surface height of the seat cushion 16a. After that, it returns to the original position (the position before being lowered). As a result, the operator seated on the seat cushion 16a can know by experience that the position of the seat cushion 16a is adjusted in the direction of lowering by operating the touch sensor 21a side of the operation knob 15.
[0035]
When the touch sensor 21b detects, the seat surface adjustment mechanism 200 is driven by the reverse rotation of the second motor M2 under the control of the control unit 13, and the height of the seat surface of the seat cushion 16a is increased. After becoming, it returns to the original position (the position before becoming high). As a result, the operator who is seated on the seat cushion 16a can know by experience that the position of the seat cushion 16a is adjusted in the direction in which the seat cushion 16a is raised by operating the touch sensor 21b side of the operation knob 15.
[0036]
When the touch sensor 21c detects, the first motor M1 is rotated forward and backward by the control of the control unit 13 to drive the front / rear position adjustment mechanism 100, and the front / rear position of the seat cushion 16a moves rearward. Returning to the original position (position before moving backward). As a result, the operator who is seated on the seat cushion 16a can know by experience that the position of the seat cushion 16a is adjusted in the rearward direction by operating the touch sensor 21c side of the operation knob 15.
[0037]
When the touch sensor 21d detects, the first motor M1 rotates in the reverse direction under the control of the control unit 13 and then rotates forward, whereby the front / rear position adjusting mechanism 100 is driven and the front / rear position of the seat cushion 16a is moved forward. After moving to, return to the original position (position before moving forward). As a result, the operator who is seated on the seat cushion 16a can know by experience that the position of the seat cushion 16a is adjusted in the forward direction by operating the touch sensor 21d side of the operation knob 15.
[0038]
In this way, the operator can determine from the experience that the seat cushion 16a can be adjusted in a desired direction by operating any operation surface of the operation knob 15. When the operator determines the desired operation surface of the operation knob 15 based on this experience, if the operator presses the operation surface side, one of the switches SWa to SWd associated with the touch sensor on the operation surface is selected. Turned on. As a result, the control unit 13 drives and controls the front / rear position adjustment mechanism 100 or the seating surface adjustment mechanism 200 based on any of the operation signals input by being turned on.
[0039]
Therefore, according to the first embodiment, the following effects can be obtained.
(1) In the first embodiment, the operation control device 11 operates the first motor M1 (operating in the front-rear direction and the vertical direction (predetermined adjustment direction)) on the seat cushion 16a (predetermined part) of the vehicle seat 16 (seat). Operation means) and a second motor M2 (operation means). The operation control device 11 includes switches SWa to SWd (first switch means) for controlling the operations of the first motor M1 and the second motor M2, and a touch sensor for notification provided corresponding to the switches SWa to SWd. 21a to 21d (second switch means) are provided on the operation knob 15 (operation means). Then, the operation control device 11 performs a mechanical operation to notify the seat cushion 16a that is the operation target of the switches SWa to SWd associated with the touch sensors 21a to 21d based on the ON operation of the touch sensors 21a to 21d. The first motor M1 (notification means) and the second motor M2 (notification means) are provided. As a result, the operator sitting on the seat cushion 16a can directly experience and know which part of the vehicle seat 16 is adjusted by the operation knob 15 which is the operation means touched by the operator.
[0040]
(2) In the above embodiment, the operation control device 11 includes the control unit 13 (control unit) that controls the first motor M1 (notification unit) and the second motor M2 (notification unit). The control unit 13 controls the first motor M1 and the second motor M2 based on the ON operation of the touch sensors 21a to 21d, and the seat cushion 16a that is the operation target of the switches SWa to SWd associated with the touch sensors 21a to 21d. Is operated in a predetermined amount in the operation direction when the switches SWa to SWd are turned on. As a result, the operator seated on the seat cushion 16a can determine which part of the vehicle seat 16 is adjusted by the operation knob 15, which is the operating means touched by the operator, by moving the seat cushion 16a in the operating direction. You can experience it directly.
[0041]
(3) In the above embodiment, in the above (2), the control unit 13 (control means) controls the first motor M1 (notification means) and the second motor M2 (notification means), so that the first A predetermined portion, which is an operation target of the first switch means associated with the two switch means, is actuated for a predetermined amount and then restored.
[0042]
As a result, when the original position before touching the touch sensor is sufficient, there is no need for further operation thereafter.
(Second Embodiment)
A second embodiment of the present invention will be described with reference to FIGS.
[0043]
In each of the following embodiments including the second embodiment, the same or corresponding components as those of the embodiment described above are denoted by the same reference numerals and redundant description thereof is omitted.
[0044]
As shown in FIG. 4, the operation control device 11 of the second embodiment includes two new detection units 12, and each detection unit 12 has a push button switch (hereinafter simply referred to as a switch SWe) as a mechanical switch. , SWf) is different from the operation control device 11 of the first embodiment. In the vehicle seat 16 in the second embodiment, a seat back 16b is newly set as an operation target of the switches SWe and SWf, and a reclining mechanism 300 that can be adjusted in the forward tilt direction and the rear tilt direction is provided on the seat back 16b. I have. The reclining mechanism 300 rotates the third motor M3 forward and backward, and controls the amount of motor drive, so that the seating posture desired by the operator of the seat back 16b, that is, the backrest according to the body shape, preference, etc. of the operator. The position can be adjusted and set arbitrarily.
[0045]
As shown in FIG. 5, an operation knob 25 (second operation knob) is newly provided on the side surface of the seat cushion 16 a when the operation knob 15 of the first embodiment is a first operation knob. Since the operation knob 25 is arranged so that it is difficult for the operator to visually recognize the operation knob 25, the operator touches the operation knob 25 in a blind state. The operation knob 25 corresponds to operation means.
[0046]
Further, as shown in FIG. 6, the operation knob 25 has a synthetic resin box shape, and most of the operation knob 25 is disposed so as to be buried in the seat cushion 16a. Only the surface portion 25a of the operation knob 25 is provided so as to form a panel shape from the side surface of the seat cushion 16a. Further, the inside of the operation knob 25 is a housing space (not shown), and two sliding holes 25b communicating with the housing space are formed in the surface portion 25a of the operation knob 25.
[0047]
Each of the sliding holes 25b is provided with the switches SWe and SWf so as to be slidable in the axial direction. Since the switches SWe and SWf have a known configuration, description thereof is omitted. Each switch SWe, SWf protrudes from the surface portion 25a in the axial direction in a state where it is not operated, and can be pressed (switched) by the operator.
[0048]
As shown in FIG. 6, a touch sensor 21e having a touch panel 18e is provided on the front end surface (operation surface) of the switch SWe disposed on the front side (steering side). A touch sensor 21f having a touch panel 18f is provided on the front end surface (operation surface) of the switch SWf arranged on the rear side (rear seat side). Accordingly, when any one of the switches SWe and SWf associated with the touch sensors 21e and 21f on the operation surface is turned on, the control unit 13 performs reclining based on any operation signal input by being turned on. The third motor M3 of the mechanism 300 is driven and controlled. Accordingly, the touch sensors 21e and 21f are associated with the switches SWe and SWf, respectively, and in order for the operator to press (turn on) the switches SWe and SWf, contact with the touch panels 18e and 18f is essential.
[0049]
The touch sensors 21e and 21f include a wiring 19 and a touch sensor circuit 20, respectively.
The control unit 13 as a control unit of the present embodiment is configured as an ECU (electronic control unit) including a CPU, a ROM, and a RAM, and a driving device that drives and controls the first motor M1 to the third motor M3. including. Since the control for the various operation signals from the switches SWa to SWd and the control for the detection signals from the touch sensors 21a to 21d of the control unit 13 are the same as those in the first embodiment, the description thereof is omitted.
[0050]
While the forward tilt direction operation signal or the rear tilt direction operation signal is input from the switch SWe and the switch SWf, the control unit 13 rotates the third motor M3 forward and backward to drive the reclining mechanism 300, and the seat back 16b. Adjust the posture position.
[0051]
Further, when the detection signal is input from the touch sensor 21e, the control unit 13 rotates the third motor M3 forward by a predetermined amount and then reversely rotates the same by the predetermined amount to drive the reclining mechanism 300. The predetermined amount at this time is an amount that allows the operator to know whether or not the seat back 16b has actuated in the forward tilt direction. By driving the reclining mechanism 300, the posture of the seat back 16b is tilted forward and then restored to the original position (position before tilting forward). In this case, the operating direction of the seat back 16b, which is a predetermined part, is the forward tilt direction.
[0052]
Further, when the detection signal is input from the touch sensor 21f, the control unit 13 rotates the third motor M3 in the reverse direction by a predetermined amount and then rotates the same by a predetermined amount to drive the reclining mechanism 300. The predetermined amount at this time is an amount that allows the operator to know whether or not the seat back 16b is actuated in the backward tilt direction. By driving the reclining mechanism 300, the posture of the seat back 16b is tilted rearward and then returned to the original position (position before tilting backward). In this case, the operating direction of the seat back 16b, which is a predetermined part, is the backward tilt direction.
[0053]
Note that when the operation signal of the switch SWe and the detection signal of the touch sensor 21e are input simultaneously, the control unit 13 drives and controls the third motor M3 with priority on the operation signal. Further, when the operation signal of the switch SWf and the detection signal of the touch sensor 21f are simultaneously input, the control unit 13 drives and controls the third motor M3 by giving priority to the operation signal.
[0054]
(Operation of Second Embodiment)
Next, the operation of the operation control device 11 will be described. In addition, since operation regarding the seat cushion 16a was demonstrated in 1st Embodiment, description is abbreviate | omitted.
[0055]
When the operator of the vehicle seat 16 adjusts the position of the seat back 16b, the operator extends his hand to the operation knob 25 and contacts one of the touch sensors 21e and 21f of the detection unit 12. Then, detection signals are input to the control unit 13 from the touch sensors 21e and 21f that are touched. The control unit 13 controls and drives the third motor M3 of the reclining mechanism 300 according to the detection signals of the touch sensors 21e and 21f that are touched.
[0056]
That is, when the touch sensor 21e detects, the reclining mechanism 300 is driven by the third motor M3 rotating forward and backward by a predetermined amount under the control of the control unit 13, and the posture of the seat back 16b is tilted forward, Return to the position (before tilting forward). As a result, when the operator leans against the seat back 16b operates the touch sensor 21e side of the operation knob 25, it can be understood from the experience that the inclination of the seat back 16b is adjusted to the front side.
[0057]
Also, when the touch sensor 21f detects, the third motor M3 rotates reversely by a predetermined amount under the control of the control unit 13 and then rotates forward, whereby the reclining mechanism 300 is driven and the posture of the seat back 16b tilts backward. After that, it returns to the original position (position before tilting backward). As a result, when the operator leans against the seat back 16b operates the touch sensor 21f side of the operation knob 25, it can be understood from the experience that the inclination of the seat back 16b is adjusted to the rear side.
[0058]
Therefore, according to this embodiment, in addition to the effects described in (1) to (3) in the first embodiment, the following effects can be obtained.
(1) In the second embodiment, the operation control device 11 causes the seat back 16b (predetermined part) of the vehicle seat 16 (seat) to tilt forward (predetermined adjustment direction) and backward tilt (predetermined adjustment direction). A third motor M3 (actuating means) is provided. The operation control device 11 also includes switches SWe and SWf (first switch means) for controlling the operation of the third motor M3, and notification touch sensors 21e and 21f (first switches) provided corresponding to the switches SWe and SWf. 2 switch means) and the operation knob 25 (operation means). Then, the operation control device 11 notifies the seat back 16b, which is the operation target of the switches SWe and SWf associated with the touch sensors 21e and 21f, by mechanically operating them based on the ON operation of the touch sensors 21e and 21f. A third motor M3 (notification means) is provided.
[0059]
As a result, the operator leaning on the seat back 16b can directly experience and know which part of the vehicle seat 16 is adjusted by the operation knob 25 which is the operation means touched by the operator.
[0060]
(2) In the second embodiment, the operation control device 11 includes the control unit 13 (control unit) that controls the third motor M3 (notification unit). The control unit 13 controls the third motor M3 based on the ON operation of the touch sensors 21e and 21f, and switches the seat back 16b, which is the operation target of the switches SWe and SWf associated with the touch sensors 21e and 21f, to the switches SWe and SWf. It was made to operate a predetermined amount in the direction of operation when was turned on. As a result, the operator leaning against the seat back 16b can determine which part of the vehicle seat 16 is adjusted by the operation knob 25, which is the operation means touched by the operator, by moving the seat back 16b in the operating direction. You can experience it directly.
[0061]
(3) In the above embodiment, the control unit 13 (control unit) controls the third motor M3, and switches SWe and SWf (first switch unit) associated with the touch sensors 21e and 21f (second switch unit). The seat back 16b (predetermined part), which is the operation target), is actuated for a predetermined amount and then restored.
[0062]
As a result, when the original position before touching the touch sensor is sufficient, there is no need for further operation thereafter.
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS. In the third embodiment, the same or corresponding configurations as those of the first embodiment are denoted by the same reference numerals, description thereof is omitted, and different points will be mainly described.
[0063]
In 3rd Embodiment, the structure of the operation knob provided in the side part of the seat cushion 16a differs from 1st Embodiment. The operation knob 35 as an operation means is formed in a covered box shape, and the central portion O of the front end surface of the operation knob 35 is supported in a swingable manner. As shown in FIG. 8, the lower, upper, rear, and front portions of the front end surface across the center portion O are the first operation surface 81, the second operation surface 82, the third operation surface 83, and the fourth operation, respectively. A surface 84 is provided. Therefore, when the operation knob 35 presses the first operation surface 81 to the fourth operation surface 84 to the seat cushion 16a side, the pressed operation surface tilts with the central portion O as a support point.
[0064]
Each operation surface of the operation knob 35 can be pressed in two steps. That is, a two-step operation switch is provided between each operation surface of the operation knob 35 and a switch board (not shown) provided on the seat cushion 16a side. The configuration of the two-stage operation switch is well-known as described in, for example, publicly known technology 2 and publicly known technology 3, and will not be described.
[0065]
When the first operation surface 81 is operated by one step, the switch SW1 shown in FIG. 7 is turned on. When the first operation surface 81 is operated by two steps, the switch SWa is turned on. When the second operation surface 82 is operated by one step, the switch SW2 shown in FIG. 7 is turned on. When the second operation surface 82 is operated by two steps, the switch SWb is turned on. When the third operation surface 83 is operated by one step, the switch SW3 shown in FIG. 7 is turned on, and when the second step is operated, the switch SWc is turned on. When the fourth operation surface 84 is operated in one step, the switch SW4 shown in FIG. 7 is turned on, and when the second operation surface 84 is operated in two steps, the switch SWd is turned on.
[0066]
When the pressing operation to the first operation surface 81 to the fourth operation surface 84 is released, the operation knob 35 is returned to the neutral position by a spring mechanism (not shown), and each switch is turned off. Yes.
[0067]
In the third embodiment, the detection unit 12 corresponds to switches SW1 to SW4 that perform detection when each operation surface is pressed by one step.
When the switches SWa to SWd are turned on, an operation signal similar to that in the first embodiment is input to the control unit 13. In addition, when the switches SW1 and SW2 are turned on, in the first embodiment, the touch sensors 21a to 21d are input to the control unit 13 as detection signals. In the third embodiment, the control unit is used as the detection signal. 13 is input. Accordingly, in the third embodiment, the switches SW1 to SW4 are provided instead of the touch sensors 21a to 21d, respectively. As described above, when the detection signals are input from the switches SW1 to SW4, the control unit 13 performs the same control on the first motor M1 and the second motor M2 as when the touch sensors 21a to 21d are input in the first embodiment. Have been to do.
[0068]
(Operation of the third embodiment)
When the operator of the vehicle seat 16 wishes to adjust the position of the seat cushion 16a, the operator extends the hand to the operation knob 35 and moves any one of the first operation surface 81 to the fourth operation surface 84. One-step pressing operation is performed. Then, a detection signal is input to the control unit 13 from the switch pressed by one step (that is, any one of the switches SW1 to SW4). The control unit 13 controls and drives the second motor M2 of the seating surface adjustment mechanism 200 or the first motor M1 of the front / rear position adjustment mechanism 100 according to the detection signal of any of the switches SW1 to SW4.
[0069]
That is, when the switch SW1 is turned on, the seating surface adjusting mechanism 200 is driven by the second motor M2 rotating forward and backward under the control of the control unit 13, and the height of the seating surface of the seat cushion 16a is increased. After lowering, the original position (position before lowering) is restored. As a result, the operator seated on the seat cushion 16a can know by experience that the position of the seat cushion 16a is adjusted in the direction of lowering if the first operation surface 81 of the operation knob 35 is pressed.
[0070]
When the switch SW2 is turned on, the seat motor adjustment mechanism 200 is driven by the reverse rotation of the second motor M2 under the control of the control unit 13, thereby driving the seat surface height of the seat cushion 16a. After the height increases, it returns to the original position (position before the height). As a result, the operator seated on the seat cushion 16a can know by experience that the position is adjusted in the direction in which the seat cushion 16a is raised by operating the second operation surface 82 of the operation knob 35.
[0071]
When the touch sensor 21c is turned on, the front / rear position adjusting mechanism 100 is driven by the first motor M1 rotating forward / reversely under the control of the control unit 13, and the front / rear position of the seat cushion 16a is moved backward. After moving, it returns to the original position (position before moving backward). As a result, when the operator sitting on the seat cushion 16a operates the third operation surface 83 of the operation knob 35, it can be understood from the experience that the position of the seat cushion 16a is adjusted in the rearward direction.
[0072]
When the touch sensor 21d is turned on, the first motor M1 rotates in the reverse direction under the control of the control unit 13 and then rotates forward, thereby driving the front / rear position adjusting mechanism 100 and moving the front / rear position of the seat cushion 16a. After the position has moved forward, it returns to the original position (position before moving forward). As a result, when the operator sitting on the seat cushion 16a operates the fourth operation surface 84 of the operation knob 35, the operator can know from the experience that the position of the seat cushion 16a is adjusted in the forward direction.
[0073]
In this way, the operator can determine from the experience that the seat cushion 16a can be adjusted in a desired direction by operating any operation surface of the operation knob 35. When the operator determines the desired operation surface of the operation knob 35 by this experience, if the operator presses the operation surface twice, the switches SWa to SWd associated with the switches SW1 to SW4 on the operation surface are operated. One of them is turned on. As a result, the control unit 13 drives and controls the front / rear position adjustment mechanism 100 or the seating surface adjustment mechanism 200 based on any of the operation signals input by being turned on.
[0074]
Therefore, in the third embodiment, the operation surface of the operation knob 35 is configured to be capable of two-step pressing operation, and the switch SW1 that is turned on when pressed one step is used instead of the touch sensors 21a to 21d of the first embodiment. ˜SW4 is provided. With this configuration, the switches SWa to SWd are turned on when any one of the operation surfaces is pressed. By comprising in this way, the effect similar to (1)-(3) demonstrated in 1st Embodiment can be show | played.
[0075]
Each of the above embodiments may be embodied by changing to another example as follows.
In each of the above embodiments, a plurality of touch sensors are provided together on the operation knobs 15 and 25, but may be provided one by one.
[0076]
In each of the embodiments described above, the operation of the touch panel 18 is maintained or pressed by the operator. However, other operations such as rotation may be used.
As the contact detection sensor in each of the above embodiments, a capacitive sensor is used, but another type such as a pressure-sensitive sensor may be used.
[0077]
In the above embodiments, the notification means is the first motor M1, the second motor M2, and the third motor M3. Instead, a vibration device is installed in the moving direction (front part and rear part) side in a predetermined part (for example, the seat cushion 16a) to be operated, and the touch sensors 21c and 21d detect the switch SW3, When the SW4 detects, the vibration device may be vibrated. In this way, the side detected by the touch sensor 21a or the like vibrates, so that the operator can experience and determine which operation side should be operated.
[0078]
In the above embodiments, the operation knobs 15, 25, and 35 as the operation means are provided on the side portion of the seat cushion 16a. However, the present invention is not limited to the seat cushion 16a. For example, you may provide in the range which can be operated by the operator, such as the inner surface side of the door in the passenger compartment, or a place where it is difficult for the operator to visually recognize the door.
[0079]
In the second embodiment, the switches SWe and SWf are configured by push button switches. However, instead of the push button switches, an operation knob 45 may be used as an operation unit configured to be turned on when sliding (see FIG. 9). .
[0080]
For example, as shown in FIG. 9, the operation knob 45 is formed in a shape substantially the same as the shape of the operation knob 15. In addition, the same code | symbol is attached | subjected about the structure corresponded to the structure of 2nd Embodiment. Unlike the operation knob 15, the operation knob 45 is provided with a touch sensor 21 e facing the steering side and a touch sensor 21 f facing the rear seat side on a pair of opposing two side surfaces. The operation knob 45 is arranged such that the inclination of the touch sensors 21e and 21f and the inclination when the seat back 16b is normally set are substantially the same. In addition, the detection part 12 which has the touch sensors 21e and 21f arrange | positioned at the operation knob 45 is the structure similar to the detection part 12 which has the other touch panels 18a-18d, Comprising: Touch panel 18e and 18f are provided.
[0081]
The operation knob 45 can be slid in the same two directions as the touch sensors 21e and 21f face the seat cushion 16a. Then, when moving in two directions, the switches SWe and SWf associated with the touch sensors 21e and 21f are turned on.
[0082]
Even if comprised in this way, there exists an effect similar to 2nd Embodiment.
[0083]
【The invention's effect】
As described above in detail, according to the present invention, the operator can directly experience which part of the seat the specific part of the operating means touched by the operator adjusts without looking at the display device. be able to.
[Brief description of the drawings]
FIG. 1 is an electric block diagram showing a first embodiment of an operation control device of the present invention.
FIG. 2 is a side view showing an outline of a sheet used in the first embodiment.
FIG. 3A is a perspective view showing an outline of an operation knob used in the first embodiment.
(B) is a perspective view explaining the operation knob except a touch panel.
FIG. 4 is an electric block diagram showing a second embodiment of the operation control device of the present invention.
FIG. 5 is a side view showing an outline of a sheet used in the second embodiment.
FIG. 6 is an explanatory diagram of an operation knob used in the second embodiment.
FIG. 7 is an electric block diagram showing a third embodiment of the operation control device of the present invention.
FIG. 8 is a side view showing an outline of a sheet used in the third embodiment.
FIG. 9 is a side view illustrating an outline of a seat according to another embodiment.
[Explanation of symbols]
M1 ... 1st motor (notification means, operation means)
M2 ... second motor (notification means, operation means)
M3 ... Third motor (notification means, operation means)
SWa to SWd... Switch (first switch means)
SWe, SWf... Switch (first switch means)
21a to 21d ... Touch sensor (second switch means)
SW1 to SW4 ... switch (second switch means)
13. Control unit (control means)
15 ... Operation knob (operation means)
16 ... Vehicle seat (seat)
16a ... Seat cushion (predetermined part to be operated)
25. Operation knob (operation means)
35 ... Operation knob (operation means)
45 ... Operation knob (operation means)

Claims (6)

A seat,
An operating means for operating a predetermined part of the seat in a predetermined adjustment direction;
A first switch means provided on the operating means and permitting the operation of the operating means;
A second switch means for notification provided in the operating means and corresponding to the first switch means;
And a notifying means for notifying a predetermined portion, which is an operation target of the first switch means associated with the second switch means, mechanically based on an ON operation of the second switch means. A vehicle seat operation target notification device as a feature. Control means for controlling the notification means,
The control means controls the notifying means based on an ON operation of the second switch means, so that a predetermined part which is an operation target of the first switch means associated with the second switch means 2. The vehicle seat operation target notification device according to claim 1, wherein the operation target notification device is operated by a predetermined amount in an operation direction when one switch is turned on. The control means controls the notifying means based on an ON operation of the second switch means, and operates a predetermined portion which is an operation target of the first switch means associated with the second switch means by a predetermined amount. The operation object notification device for a vehicle seat according to claim 2, wherein the return operation is performed after the operation is performed. The said control means controls the said alerting | reporting means, and vibrates the predetermined | prescribed site | part which is the operation object of the 1st switch means matched with the said 2nd switch means. An operation target notification device for a vehicle seat. The vehicle seat operation target notification device according to any one of claims 1 to 4, wherein the second switch means is a contact detection sensor that detects that an operator has made contact. . The vehicle seat operation target notification device according to any one of claims 1 to 5, wherein the first switch means is a mechanical switch that is turned on based on a predetermined operation amount. .

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