JP2004311325A - Controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a controller having a light operation feeling and good operativity at the time of operation of a case to which an operation means is fixed. <P>SOLUTION: This controller 34 turns around a support shaft 208 or 232 instead of a linear slide move of a controller body 36 in the lateral direction. Accordingly, the case 38 can be turned only by manually rotating the hand using the wrist as fulcrum such as waving the hand holding the case 38. Thereby, when the controller body 36 is moved, it would not be required to laterally move the elbow or arm and the operation can be easily done. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a controller for operating various devices such as a car navigation device and an audio device mounted on a vehicle.
[0002]
[Prior art]
Patent Document 1 discloses an example of a controller for operating various devices such as a car navigation device and a car audio device mounted on a vehicle, and a vehicle air conditioner (car air conditioner).
[0003]
A controller disclosed in Patent Literature 1 (referred to as an “in-vehicle input device” in Patent Literature 1) is a trackball used for moving a cursor in a so-called notebook personal computer or the like. A manual operation unit to which a “ball” or a joystick (referred to as a “stick controller” in Patent Document 1) is provided.
[0004]
The manual operation unit is connected to a slider provided on the XY table via a connection shaft. The slider is supported so as to be linearly slidable in a vertical direction (for example, substantially the vehicle front-rear direction) and a horizontal direction (for example, substantially vehicle left-right direction) orthogonal to the axial direction of the connection shaft, and a plurality of springs. To the center position (return position). An engagement pin is provided on the side of the slider opposite to the manual operation section. The engaging pin enters a guide groove of a guide plate provided below the XY table, and the moving direction and the moving amount of the engaging pin are regulated by the guide groove.
[0005]
The guide groove includes three parallel grooves, each of which is longitudinal along the longitudinal direction, and one longitudinal groove along the lateral direction formed to connect the longitudinal central portions of these grooves. And a groove for the book. Therefore, the engagement pin has a structure capable of moving like a shift lever in a transmission of a five-speed manual transmission.
[0006]
As described above, since the moving direction and the moving amount of the engaging pin are regulated by the guide groove, the sliding movement of the slider slidably provided in the vertical and horizontal directions, and furthermore, the manual operation unit connected to the slider As a result, the sliding movement is also restricted to the sliding movement along the shape of the guide groove.
[0007]
In the controller disclosed in Patent Document 1 having the basic configuration as described above, when the manual operation unit is slid to a predetermined position in the guide groove along the guide groove, the controller is provided below the guide plate. The solenoid is energized, and based on the energization of the solenoid, any one of various devices such as a car navigation device, a car audio device, and a vehicle air conditioner is selected.
[0008]
When any one of the various devices is selected in this way, by operating the trackball or the joystick, the selected device can be adjusted.
[0009]
[Patent Document 1]
JP-A-11-339600
[0010]
[Problems to be solved by the invention]
By the way, such a controller as disclosed in Patent Document 1 is provided between a driver's seat and a passenger seat of a vehicle, as disclosed in Patent Document 1, for example, a right-hand drive vehicle. Then, the driver in the driver's seat operates the controller with his left hand.
[0011]
Here, as described above, in the controller disclosed in Patent Document 1, the moving direction of the manual operation unit is a linear sliding movement in the vertical direction and the horizontal direction, and the sliding movement is caused by the urging force of the spring. Against.
[0012]
For example, consider sliding the manual operation unit in the horizontal direction. In this case, of course, the hand holding the manual operation unit is moved in the horizontal direction, but when the hand holding the manual operation unit is moved in the horizontal direction, only the palm is used. In addition to moving sideways, the elbows and arms will also move sideways. For this reason, there is a drawback that the user feels weight as the operation feeling, and there is still room for improvement in terms of operability.
[0013]
The present invention has been made in consideration of the above-described circumstances, and has as its object to provide a controller that has a light operability and high operability when operating a case to which an operation unit such as the above-described manual operation unit is attached.
[0014]
[Means for Solving the Problems]
A controller according to a first aspect of the present invention is provided with a base provided at a predetermined position of a vehicle, a case provided on the base, and a case provided on the case so that a predetermined operation can be performed on the case. Operating means for outputting an operation signal corresponding to the predetermined operation; and support for supporting the case so as to be pivotable by a predetermined angle with respect to the base around an axis whose axial direction is an opposing direction between the case and the base. Means, and case detecting means for detecting turning of the case and outputting a case detection signal different from the operation signal.
[0015]
In the controller according to the first aspect of the present invention, a base is provided at a predetermined position of the vehicle, for example, in front of a center console box between a driver's seat and a passenger seat, and a case is provided on the base. The case is provided with operation means, and when a vehicle occupant performs a predetermined operation on the operation means, an operation signal is output from the operation means. The operation signal is input to a control unit for controlling, for example, a car navigation device or a car audio device mounted on the vehicle, and a process corresponding to the operation signal is performed by the control unit.
[0016]
On the other hand, the case provided on the base is supported by the support means. The support means supports the case so as to be pivotable by a predetermined angle with respect to the base around an axis whose axial direction is the direction in which the case and the base oppose each other. When the case is turned with respect to the base, the turning of the case is detected by the case detecting means, and a case detection signal is output from the case detecting means. The case detection signal is input to, for example, a control unit for controlling a car navigation device, a car audio device, and the like mounted on the vehicle, and a process corresponding to the case detection signal is performed by the control unit.
[0017]
As described above, the controller according to the present invention has a structure in which not only the operation means but also the case itself turns, and the car navigation device and the car audio device mounted on the vehicle can be operated by turning the case. . Therefore, various operations can be realized without increasing the number of operation means or forcibly reducing the size of the operation means.
[0018]
Further, in the controller according to the present invention, the moving direction of the case with respect to the base is turning around the facing direction of the case and the base. In the case of such a turning structure, the case can be turned only by turning the hand around the wrist as if to wave the hand holding the case.
[0019]
Therefore, when the case is moved, the elbow and the arm do not need to be moved, and the operation can be easily performed.
[0020]
Moreover, compared to a structure in which the case is slid substantially in the left-right direction of the vehicle, in the case of the above-described turning structure, if a force is applied to a position separated from the fulcrum, the case can be turned with a relatively weak force. In this sense, the operation can be easily performed.
[0021]
A controller according to a second aspect of the present invention is the controller according to the first aspect of the present invention, wherein a flat or curved surface is provided so as to be exposed from the case, and the surface of an object touching the surface is provided on the surface. Wherein the operating means is configured to include a touch panel for outputting a position detection signal corresponding to the position at the position.
[0022]
According to the controller according to the second aspect of the present invention, the operation means includes a touch panel. The touch panel has a flat or curved surface exposed from the case. When an object such as a finger touches the surface of the touch panel, a position on the surface of the touch panel is detected by the touch panel, and a position detection signal corresponding to this position is detected. Is output from the touch panel.
[0023]
For example, in the case of a car navigation device using a monitor means having a screen such as a monitor television, among a plurality of icons displayed on the screen, an icon at a position corresponding to the position of the finger touching the touch panel is selected and executed. Or the screen is scrolled by the finger moving on the touch panel while keeping the touch on the touch panel.
[0024]
According to a third aspect of the present invention, in the controller according to the first or second aspect of the present invention, the support means is provided with a fulcrum substantially at a predetermined position on the rear side of a center in the front-rear direction of the case. The case is rotatably supported in at least one of the left and right directions of the vehicle, and the case is turned in at least one of substantially the left and right directions of the vehicle with a fulcrum set at a predetermined position in front of a center part in the front and rear direction of the case. Supporting as much as possible.
[0025]
In the controller according to the third aspect of the present invention, the case is supported by the support means so as to be able to turn in at least one of substantially the left and right directions of the vehicle around a predetermined position behind the center in the front-rear direction. Moreover, the case is supported by the support means so as to be pivotable in at least one of the left and right directions of the vehicle with a predetermined point on the front side of the center in the front-rear direction as a fulcrum.
[0026]
That is, in the controller according to the present invention, there are two types of the movement (turning) substantially in the lateral direction of the vehicle, that is, turning using the rear portion of the controller as a fulcrum and turning using the front portion as a fulcrum. Therefore, a more versatile operation is possible as compared with a structure in which the case is simply slid linearly substantially in the left-right direction of the vehicle.
[0027]
According to a fourth aspect of the present invention, in the controller according to the third aspect of the present invention, the support means supports the case so as to be slidable with respect to the base in at least one of substantially a longitudinal direction of the vehicle. In addition, the case detection means detects a slide of the case in at least one of the substantially vehicle front-rear directions and outputs a case detection signal.
[0028]
In the controller according to the fourth aspect of the present invention, the case is slid by the support means not only in at least one of the above-described substantially vehicle left-right directions but also in at least one of the substantially vehicle front-back directions with respect to the base. Supported as possible. The sliding of the case in at least one of the substantially vehicle front-rear directions is detected by the case detecting means.
[0029]
A case detection signal is output from the case detection unit that detects the sliding of the case, and the case detection signal is output to, for example, a control unit for controlling a car navigation device, a car audio device, and the like mounted on the vehicle, thereby detecting the case. Processing corresponding to the signal is performed by the control means.
[0030]
A controller according to a fifth aspect of the present invention is the controller according to any one of the first to fourth aspects, wherein the case is detachably provided to the base. I have.
[0031]
In the controller according to the fifth aspect of the present invention, the case is provided detachably with respect to the base. For this reason, when a failure or the like occurs in the operation means, the repair or the like can be easily performed by removing the case.
[0032]
When the operation signal output by operating the operation unit is a wireless signal that does not use a signal line (a cord or a cable) such as an infrared ray or a radio wave, the operation unit does not operate even if the case is removed from the base. It is possible to operate a car navigation device, a car audio device, and the like.
[0033]
For this reason, for example, the base of the controller according to the present invention is provided on the front side of the center console box between the driver's seat and the passenger seat. By removing the vehicle, for example, a passenger in the rear seat of the vehicle can easily operate the car navigation device, the car audio device, and the like.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
<Configuration of the present embodiment>
(1) Overall configuration of the car navigation device 10
FIG. 2 shows a schematic configuration of a car navigation device 10 to which a controller 34 according to an embodiment of the present invention is applied.
[0035]
As shown in FIG. 1, the car navigation device 10 includes a monitor television 12 as a monitor. The monitor TV 12 is attached to, for example, a predetermined position on an instrument panel (not shown) of the vehicle or a storage hole formed in the instrument panel in a state where the vehicle occupant can view the substantially rectangular screen 14. ing.
[0036]
Further, the monitor television 12 is connected to a control unit 16 as control means provided at an appropriate position in the vehicle. The control unit 16 includes a computer 24 including, for example, a CPU 18, a RAM 20, a ROM 22, and the like, and includes an image corresponding to a display signal from the control unit 16, for example, a map screen and a plurality of icons. Various images such as a menu screen can be displayed on the screen 14.
[0037]
On the other hand, as shown in FIG. 1, the car navigation device 10 includes a controller 34, and has a structure in which various signals output from the controller 34 are input to the CPU 18 of the control unit 16. Hereinafter, the structure of the controller 34 will be described in detail.
[0038]
(2) Structure of controller body 36
As shown in FIG. 1, the controller 34 has a controller main body 36. As shown in FIG. 6, the controller main body 36 includes a substantially box-shaped case 38. A rectangular opening 42 is formed in the upper wall 40 of the case 38, and a support plate 44 is provided in the case 38 corresponding to the opening 42.
[0039]
The support plate 44 is formed in a substantially rectangular flat plate shape having an outer peripheral shape corresponding to the opening 42, and a plurality of support claws 47 extending downward from both ends in the width direction are formed at the bottom of the case 38. The support plate 44 is attached so as to be movable within a predetermined range in the vertical direction (that is, the thickness direction of the support plate 44) in the case 38 by being engaged with the support piece 48.
[0040]
Below the support plate 44, a substrate 46 on which wiring such as printed wiring is provided on at least one of the front surface and the back surface is disposed substantially in parallel. The substrate 46 is held on the case 38 by holding means such as holding pieces and holding walls formed inside the case 38 (not shown). Further, a compression coil spring 50 is disposed on the substrate 46, and supports the support plate 44 so as to be able to move toward and away from the substrate 46 in a state where the support plate 44 is urged toward the opening 42 side. 3, a stopper 52 is formed on the upper wall 40. The stopper 52 is engaged with the outer peripheral portion of the support plate 44 and holds the support plate 44 so as not to be separated from the substrate 46 by a predetermined distance or more.
[0041]
Further, as shown in FIGS. 3 and 6, a push switch 54 constituting an operating means is provided between the support plate 44 and the substrate 46. The push switch 54 has a main body 56. The main body 56 has a fixed contact (not shown). This fixed contact is electrically connected to the wiring of the substrate 46. Further, a movable portion 58 is provided on the main body 56.
[0042]
The movable portion 58 is movable with respect to the main body 56 in substantially the same direction as the direction in which the support plate 44 comes into contact with and separates from the substrate 46, and moves at least partially into the main body 56 by moving in a direction approaching the substrate 46. Moving. Further, the movable portion 58 has a movable contact (not shown), and when the movable portion 58 moves in a direction approaching the substrate 46, the movable portion 58 comes into contact with the fixed contact of the main body 56 to conduct, and is fixed by being separated from the substrate 46. The conduction with the contact is released.
[0043]
The opposite side of the movable portion 58 from the main body 56 is in contact with the back surface of the support plate 44. Accordingly, the movable portion 58 approaches the substrate 46 by the support plate 44 moving in the direction approaching the substrate 46 against the urging force of the compression coil spring 50, and the movable contact of the movable portion 58 becomes the fixed contact of the main body 56. This is the configuration that comes into contact with.
[0044]
(3) Structure of the touch panel 62
On the other hand, as shown in FIGS. 3 and 6, on the support plate 44, a touch panel 62 that constitutes an operation unit together with the push switch 54 is provided. As shown in FIG. 4, the touch panel 62 includes a pair of sheets 64 and 66 each corresponding to the opening 42. The sheets 64 and 66 are formed in a substantially rectangular sheet shape having flexibility using an insulating material such as a synthetic resin material. A plurality of line electrodes 68 are formed on one surface in the thickness direction of the sheet 64. Each line electrode 68 is formed of a conductive material such as a metal foil (for example, a copper foil) in a straight line, and is arranged at predetermined intervals in the vertical direction of the sheet 64 so as to be longitudinal in the horizontal direction. 64 are provided.
[0045]
On the other hand, a plurality of line electrodes 70 are formed on one surface in the thickness direction of the sheet 66 as the operation surface. Each line electrode 70 is linearly formed of a conductive material such as a metal foil (for example, a copper foil). Each of the line electrodes 70 is provided on the sheet 66 at regular intervals in the horizontal direction so as to be long in the vertical direction.
[0046]
The sheet 66 is superposed such that one surface in the thickness direction faces one surface in the thickness direction of the sheet 64 in a state where the longitudinal direction thereof coincides with the longitudinal direction of the sheet 64, and the line electrode 70 is connected to the line electrode 68. Are substantially perpendicular to the sheet 64 and 66 along the thickness direction of the sheets 64 and 66.
[0047]
On the other hand, a substantially hemispherical dot spacer 72 is provided on one surface in the thickness direction of the sheet 64. As shown in FIG. 4, each dot spacer 72 is formed substantially at the center between the adjacent line electrodes 68 and substantially at the center between the adjacent line electrodes 70. The sheet 66 is supported from the side of the sheet 64 in a state where a predetermined gap is formed between the line electrode 68 and the line electrode 70 along the width direction.
[0048]
Therefore, normally, the line electrode 68 and the line electrode 70 are not electrically connected, but a pressing force from a finger or the like acts on the sheet 66 from the side of the sheet 66 opposite to the sheet 64, and the sheet 66 is When it bends to approach the side, the line electrode 70 and the line electrode 68 come into contact at this bent portion, and conduction is established at this contact portion.
[0049]
Also, as shown in FIG. 2, each of the line electrodes 70 is connected to a power supply 78 via a scan circuit 76 provided on the substrate 46. The scan circuit 76 is connected to the CPU 18 of the computer 24, and is controlled by the CPU 18 to make the line electrodes 68 conductive to the power supply 78 at a fixed cycle in a preset order.
[0050]
On the other hand, the line electrode 68 is grounded via a scan circuit 80 provided on the substrate 46. The scan circuit 80 is also connected to the CPU 18 of the computer 24, and detects whether or not a current is flowing through each line electrode 70 in a predetermined cycle at a constant cycle under the control of the CPU 18.
[0051]
The horizontal and vertical directions of the back surface of the sheet 66 of the touch panel 62 (that is, the surface exposed to the outside from the opening 42 of the case 38) correspond to the horizontal and vertical directions of the screen 14 of the monitor television 12, respectively. The computer 24 determines a position on the screen 14 corresponding to each intersection of the line electrode 68 and the line electrode 70 on the touch panel 62.
[0052]
(4) Other switches provided on the controller body 36
On the other hand, as shown in FIG. 6, the controller main body 36 includes a switch 82 in addition to the touch panel 62 and the push switch 54 described above. The switch 82 has a main body 84 attached to the front end of the board 46. The main body 84 is basically the same in structure as the main body 56 of the above-described push switch 54, although the shape and size are different.
[0053]
That is, the main body 84 is provided with a fixed contact (not shown) electrically connected to the wiring of the substrate 46. Further, a movable portion 86 is provided on the main body 84. The movable portion 86 is movable with respect to the main body 84 along the longitudinal direction of the substrate 46 (substantially the vehicle front-rear direction when the controller 34 is mounted on the vehicle). Further, the movable section 86 is provided with a movable contact (not shown), and the movable section 86 moves in a direction to enter the inside of the main body 84 so that the movable contact comes into contact with the fixed contact of the main body 84 to conduct electricity. ing.
[0054]
A substantially rectangular notch 88 is formed at the front end of the upper wall 40 of the case 38. An oscillating piece 90 is provided inside the notch 88. As shown in FIGS. 7 and 8, the oscillating piece 90 has a pair of bearing pieces opposing its rear end along the width direction of the case 38. 92 are formed. A support wall 94 is formed on the back surface of the upper wall 40 corresponding to these bearing pieces 92.
[0055]
The support wall 94 is formed so as to be located between the two bearing pieces 92. Shafts (not shown) protrude coaxially from the support wall 94 toward the outside in the width direction of the case 38, and a bearing piece 92 is rotatably supported around these shafts.
[0056]
In the present embodiment, the shaft is formed so as to protrude from the support wall 94. However, the shaft is formed so as to protrude from the bearing piece 92 and rotatably fitted into a hole formed in the support wall 94. Alternatively, the shaft may be formed separately from the support wall 94 and the bearing piece 92, and the shaft may be inserted into holes coaxially formed in both the support wall 94 and the bearing piece 92. It may be.
[0057]
A pressing piece 96 is formed on the back surface of the swinging piece 90 so as to protrude. The tip of the pressing piece 96 is in contact with the movable section 86 described above. When the swinging piece 90 is pressed to swing, the pressing piece 96 pushes the movable section 86 to move with the fixed contact of the main body 84. The movable contact of the portion 86 is brought into contact with the movable contact to conduct electricity.
[0058]
On the other hand, as shown in FIG. 6, four substantially rectangular openings 98 are formed on the opposite side of the notch 88 via the openings 42. These openings 98 are formed in two rows each in the longitudinal direction and the width direction of the case 38.
[0059]
A switch 100 is provided on the substrate 46 corresponding to each of these openings 98. These switches 100 also include a main body 102 like the switch 82. The main body 102 is provided with a fixed contact (not shown) electrically connected to the wiring of the substrate 46. Further, a movable portion 104 is provided on the main body 102.
[0060]
The movable portion 104 is movable with respect to the main body 102 along the longitudinal direction of the substrate 46 (substantially the vehicle front-rear direction when the controller 34 is mounted on the vehicle). Further, the movable part 104 is provided with a movable contact (not shown), and the movable part 104 moves in a direction to enter the inside of the main body 102, so that the movable contact comes into contact with the fixed contact of the main body 102 and becomes conductive. ing.
[0061]
A pressing piece 106 is provided above the movable portion 104 corresponding to the movable portion 104. The pressing piece 106 is formed in a substantially rectangular shape whose upper end corresponds to the opening 98. As shown in FIGS. 7 and 8, a guide 108 is provided on the back surface side of the upper wall 40 corresponding to these pressing pieces 106.
[0062]
The guide 108 is formed in a tubular shape having a substantially rectangular cross section, and the displacement with respect to the upper wall 40 is restricted by fitting the guide 108 into a rib 110 formed on the back surface of the upper wall 40. The above-mentioned pressing piece 106 can move up and down while being guided by a corresponding guide 108, and the lower end thereof presses the movable part 104 and pushes the movable part 104 into the inside of the main body 102. The movable contact of the movable portion 104 is brought into contact with the movable contact 104 to conduct electricity.
[0063]
(5) Configuration of main body support mechanism 160 and main body detection mechanism 192
On the other hand, as shown in FIG. 5, the controller 34 includes a base 120. As shown in FIGS. 5 and 10, the base 120 has a peripheral wall 122 having a substantially rectangular cross section. Further, a flange portion 124 extends outward from the upper end of the peripheral wall 122. The cross-sectional shape of the peripheral wall 122 is smaller than the case 38 (that is, the controller body 84) in both the longitudinal direction and the width direction of the case 38 as compared with the outer peripheral shape of the case 38. The part 124 faces the case 38.
[0064]
As shown in FIGS. 10 and 11, an inner bottom wall 126 is provided at a substantially intermediate portion of the inner peripheral portion of the peripheral wall 122 in the penetrating direction of the peripheral wall 122. A plurality of fitting claws 128 extend downward from an outer peripheral portion of the inner bottom wall 126, and are fitted to a flange-like fitting wall 130 formed on the inner periphery of the peripheral wall 122 to form a peripheral wall. 122 is held at an intermediate portion in the depth direction.
[0065]
At the center in the width direction of the inner bottom wall 126, a square rod-like column 132 having a substantially rectangular cross section is provided upright. The support column 132 is formed on the front side of the center portion along the longitudinal direction of the inner bottom wall 126. Further, a pillar 134 is provided upright at a central portion in the width direction of the inner bottom wall 126 behind the central portion in the longitudinal direction of the inner bottom wall 126.
[0066]
The column 134 also has a rod shape having a substantially rectangular cross section like the column 132, but is different from the column 132 in that a bottomed circular hole 136 opened at the upper end is formed. A press contact pin 138 is housed inside the circular hole 136. A compression coil spring 140 is housed between the press contact pin 138 and the bottom of the circular hole 136. The compression coil spring 140 urges the pressure contact pin 138 in a direction to protrude from the upper end opening of the circular hole 136 by the urging force.
[0067]
As shown in FIG. 9, a holder 142 is formed substantially at the center of the back surface of the case 38 in the width direction corresponding to the columns 132 and 134. The holder 142 has a pair of vertical walls 144 facing the width direction of the case 38. At both ends of the vertical wall 144 along the longitudinal direction of the case 38, a pair of horizontal walls 146 are respectively extended toward the other vertical wall 144 facing the opposite side.
[0068]
A column accommodating portion 148 is provided between the pair of vertical walls 144 and the pair of horizontal walls 146. One column accommodating portion 148 accommodates the distal end of the column 132 as described above, and the other column accommodating portion 148 includes the column accommodating portion 148. The column 134 is accommodated. The pressure contact pin 138 provided on the column 134 in the state where it is accommodated in the column accommodating portion 148 is pressed against the back surface of the case 38 by the urging force of the compression coil spring 140. The play of the case 38 along the direction is absorbed.
[0069]
On the other hand, as shown in FIGS. 10 and 11, an inner bottom wall 150 is formed below the inner bottom wall 126. Unlike the inner bottom wall 126, the inner bottom wall 150 is formed integrally with the peripheral wall 122. As shown in FIGS. 10 and 12, a pair of guide walls 152 are provided upright at substantially the center in the longitudinal direction of the inner bottom wall 150.
[0070]
As shown in FIG. 13, the pair of guide walls 152 are formed so as to face each other along the width direction of the inner bottom wall 150. At the approximate center of both guide walls 152 along the longitudinal direction of the inner bottom wall 150, a substantially rectangular notch 154 opened at the upper end is formed.
[0071]
A holding piece 158 having a holding claw 156 is provided upright from the bottom of both notches 154 at the tip of the guide wall 152. Further, between these guide walls 152, a support 162 constituting a main body support mechanism 160 as support means is provided.
[0072]
Here, FIG. 14 is a perspective view of the support 162 as viewed from above, and FIG. 15 is a perspective view of the support 162 as viewed from below. As shown in these figures, the support 162 includes a base 164. The base 164 is generally formed in a substantially rectangular plate shape or block shape elongated in the longitudinal direction of the inner bottom wall 150.
[0073]
The width of the base 164 in the width direction is set to be slightly smaller than the distance between the pair of guide walls 152. When the base 164 is disposed between the pair of guide walls 152, the guide wall is not formed. Although the guide wall 152 interferes with the base 164 in the direction opposite to the direction 152 and regulates the displacement of the base 164, the displacement of the base 164 in the longitudinal direction of the inner bottom wall 150 is possible. The holding claws 156 are fitted to both ends in the width direction of the base 164, so that the base 164 is prevented from coming off from between the guide walls 152.
[0074]
As shown in FIG. 15, the support 162 has a bottomed circular hole 166 opened at the bottom surface. A moderating pin 168 having a substantially hemispherical tip is accommodated in the inside of the circular hole 166. Further, a compression coil spring 172 is accommodated between the moderation pin 168 and the bottom of the circular hole 166. The compression coil spring 172 urges the moderating pin 168 in a direction to protrude from the lower end opening of the circular hole 166 by the urging force.
[0075]
As shown in FIGS. 12 and 13, between the guide walls 152 on the inner bottom wall 150, a moderation wall 172 is erected in parallel with the guide wall 152 corresponding to the moderation pin 168. . The upper end of the moderating wall 172 is inclined so as to gradually decrease from both ends along the longitudinal direction of the inner bottom wall 150 toward the center, and the distal end of the moderating pin 168 presses the biasing force of the compression coil spring 172. At the upper end of the moderation wall 172.
[0076]
Further, a notch 174 having a substantially semicircular shape is formed at the center of the upper end of the moderation wall 172. The notch 174 is slightly larger than the outer peripheral shape of the tip of the moderation pin 168. When the moderation pin 168 faces the notch 174 along the protruding direction, the tip of the moderation pin 168 enters the inside of the notch 174. The base 164 is in a neutral state with the moderation pin 168 inserted into the notch 174, and slides forward and backward along the longitudinal direction of the inner bottom wall 150 from this state.
[0077]
On the other hand, as shown in FIGS. 14 and 15, a substantially cylindrical support shaft 176 stands upright from the upper end of the base 164. As shown in FIG. 10, the support shaft 176 passes through a rectangular hole 178 formed in the inner bottom wall 126 and protrudes above the inner bottom wall 126. As shown in FIGS. 9 and 11, the holder 142 has a shaft receiving portion 180 formed corresponding to the support shaft 176.
[0078]
The shaft housing section 180 includes a pair of lateral walls 182. These horizontal walls 182 are formed between the horizontal wall 146 formed on one side in the longitudinal direction of the case 38 and the horizontal wall 146 formed on the other side. The shaft accommodating portion 180 is constituted by these horizontal walls 182 and the vertical walls 144 described above, and the support shaft 176 enters between the horizontal walls 182 and the vertical walls 144.
[0079]
On the other hand, as shown in FIG. 15, a cam piece 184 is formed on the back surface of the base 164. The cam piece 184 is elongated along the longitudinal direction of the base 164, and its lower end is formed in a substantially trapezoidal shape in which the extension dimension gradually increases downward from both ends in the longitudinal direction toward the center. As shown in FIGS. 12 and 13, a pair of circular holes 186 are formed in the inner bottom wall 150 so as to face both inclined portions at the lower end of the cam piece 184 with the above-mentioned moderation pin 168 inserted into the notch 174. Is formed.
[0080]
A substantially cylindrical pressing pin 188 is slidably accommodated in each of the circular holes 186 in a direction in which the circular hole 186 penetrates (that is, in a vertical direction). Further, as shown in FIG. 10, on the back surface side of the inner bottom wall 150, a substrate 190 provided with wiring such as printed wiring on at least one of the front surface and the back surface is provided.
[0081]
A switch 194 constituting a main body detection mechanism 192 as a case detection unit is provided on the substrate 190.
[0082]
The switch 194 has a substantially rectangular main body 196 elongated in the longitudinal direction of the cam piece 184 in plan view. The main body 196 is covered with an elastic synthetic resin material or the like, and accommodates a fixed contact electrically connected to the wiring of the substrate 190. Further, movable portions 198 are provided on both ends in the longitudinal direction of the main body 196 within the main body 196.
[0083]
Each movable portion 198 is provided so as to be movable along the thickness direction of the main body 196, and has a movable contact. Each movable portion 198 is lowered by pressure from above, so that the movable contact comes into contact with the fixed contact of the main body 196 and conducts. When no pressure from above acts, an elastic body provided in the main body is provided. Due to the elasticity of the movable contact, the movable contact is raised to a position where it does not contact the fixed contact.
[0084]
These movable portions 198 are provided so as to face the above-mentioned pressing pins 188, and have a structure in which the movable portions 198 are pressed down by the lowering of the pressing pins 188.
[0085]
On the other hand, as shown in FIG. 12, a pair of guide walls 200 is provided upright in front of the guide walls 152 along the longitudinal direction of the inner bottom wall 150. The pair of guide walls 200 are formed so as to face each other along the longitudinal direction of the inner bottom wall 150. A substantially rectangular notch 202 opened at the upper end is formed substantially at the center of both guide walls 200 along the width direction of the inner bottom wall 150, and a holding piece 158 stands upright from the bottom like the notch 174. ing. Further, as shown in FIGS. 10 and 11, a support 204 constituting the main body support mechanism 160 is provided between the guide walls 200.
[0086]
The support 204 has a base 206. The base 206 is generally formed in a substantially rectangular plate shape or block shape elongated in the width direction of the inner bottom wall 150. The width of the base 206 in the width direction is slightly smaller than the distance between the pair of guide walls 200. In a state where the base 206 is disposed between the pair of guide walls 200, the width of the guide wall is small. Although the guide wall 200 interferes with the base 206 in the direction opposite to 200 and regulates the displacement of the base 206, the displacement of the base 206 in the width direction of the inner bottom wall 150 is possible.
[0087]
Further, holding claws 156 formed in the notches 202 are fitted to both ends in the width direction of the base 206, thereby preventing the base 206 from coming off from between the guide walls 200.
[0088]
As shown in FIG. 11, a bottomed circular hole 166 opened at the bottom surface is formed in the support 204, and the moderation pin 168 and the compression coil spring 172 are accommodated in the same manner as the support 162. . A moderation wall 172 is also provided between the guide walls 200 in parallel with the guide wall 200 in correspondence with the moderation pins 168 of the support 204.
[0089]
On the other hand, a substantially cylindrical support shaft 208 is provided upright from the upper end of the base 206. The support shaft 208 passes through a rectangular hole 210 formed in the inner bottom wall 126 and protrudes above the inner bottom wall 126. As shown in FIGS. 9 and 11, a shaft accommodating portion 212 is formed in front of the holder 142 corresponding to the support shaft 208.
[0090]
The shaft accommodating portion 212 is constituted by a pair of vertical walls 214 formed on the back surface of the case 38 on the front side of the holder 142. The pair of vertical walls 214 oppose each other along the width direction of the case 38, and the opposing interval is set to be slightly larger than the outer diameter of the support shaft 208. Of the support shaft 208 enters the support shaft 208.
[0091]
On the other hand, a cam piece 216 is formed on the back surface of the base 206. The cam piece 216 has basically the same configuration as the cam piece 184, but is different from the cam piece 184 in that it is elongated along the width direction of the base 206.
[0092]
Below the two inclined portions of the cam piece 216, a pair of circular holes 218 are formed in the inner bottom wall 150, and the substantially cylindrical pressing pin 220 slides in a direction in which the circular hole 218 penetrates (that is, in a vertical direction). It is housed freely.
[0093]
Further, switches 222 constituting the main body detection mechanism 192 are provided on the substrate 190 in correspondence with these pressing pins 220. The switch 222 has basically the same configuration as the switch 194, but its longitudinal direction is orthogonal to the switch 194, and has a substantially rectangular shape elongated along the longitudinal direction of the cam piece 216.
[0094]
On the other hand, as shown in FIG. 12, a pair of guide walls 224 is provided upright behind the guide walls 152 along the longitudinal direction of the inner bottom wall 150. The pair of guide walls 224 are formed so as to face each other along the longitudinal direction of the inner bottom wall 150.
[0095]
A substantially rectangular notch 226 opened at the upper end is formed substantially at the center of both guide walls 224 along the width direction of the inner bottom wall 150, and a holding piece 158 is erected from the bottom like the notch 174. ing. Further, between these guide walls 224, a support 228 constituting the main body support mechanism 160 shown in FIG. 10 is provided.
[0096]
The support 228 has a base 230. The base 230 is generally formed in a substantially rectangular plate shape or a block shape elongated in the width direction of the inner bottom wall 150. The width of the base 230 in the width direction is slightly smaller than the distance between the pair of guide walls 224. When the base 230 is disposed between the pair of guide walls 224, the width of the guide wall is small. Although the guide wall 224 interferes with the base 230 in the direction opposite to the base 224 and regulates the displacement of the base 230, the displacement of the base 230 in the width direction of the inner bottom wall 150 is possible.
[0097]
Further, holding claws 156 formed in the notches 226 are fitted to both ends in the width direction of the base 230, thereby preventing the base 230 from coming off from between the guide walls 224.
[0098]
As shown in FIG. 11, the support 228 is formed with a bottomed circular hole 186 opened at the bottom surface, and accommodates the moderation pin 168 and the compression coil spring 172 similarly to the support 162. . A moderation wall 172 is also provided between the guide walls 224 in parallel with the moderation pins 168 of the support 228 in parallel with the guide walls 224.
[0099]
On the other hand, as shown in FIG. 10, a substantially columnar support shaft 232 stands from the upper end of the base 230. The support shaft 232 penetrates a rectangular hole 234 formed in the inner bottom wall 126 and protrudes above the inner bottom wall 126. As shown in FIGS. 9 and 11, a shaft housing portion 236 is formed on the rear side of the holder 142 corresponding to the support shaft 232.
[0100]
The shaft housing portion 236 is constituted by a pair of vertical walls 238 formed on the back surface of the case 38 at the rear side of the holder 142. The pair of vertical walls 238 oppose each other along the width direction of the case 38, and the opposing interval is set to be slightly larger than the outer diameter of the support shaft 232. Of the support shaft 232 enters the support shaft 232.
[0101]
On the other hand, as shown in FIG. 11, a cam piece 240 is formed on the back surface of the base 230. The cam piece 240 has basically the same configuration as the cam piece 184, but is different from the cam piece 184 in that it is elongated along the width direction of the base 230.
[0102]
As shown in FIG. 12, a pair of circular holes 242 are formed in the inner bottom wall 150 below the two inclined portions of the cam piece 240, and a substantially cylindrical pressing pin 244 extends through the circular hole 242. It is slidably housed (that is, vertically). Further, a switch 246 constituting the main body detection mechanism 192 is provided on the substrate 190 corresponding to the pressing pins 244. The switch 246 has basically the same configuration as the switch 194, but its longitudinal direction is orthogonal to the switch 194, and has a substantially rectangular shape elongated along the longitudinal direction of the cam piece 240.
[0103]
<Operation and effect of the present embodiment>
Next, the operation and effect of the present embodiment will be described through the description of the operation of the controller 34.
[0104]
(6) Operation of touch panel 62 and push switch 54
In the car navigation system 10 to which the present controller 34 is applied, the scan circuit 76 constituting the controller 34 is controlled by the CPU 18, and the scan circuit 76 causes the line electrodes 70 to be connected to the power supply 78 in a predetermined fixed cycle and in order. It is made conductive. The scan circuit 80 is also controlled by the CPU 18, and the scan circuit 80 detects whether a current is flowing through each of the line electrodes 68 in a predetermined cycle and in order.
[0105]
Here, if a finger or the like touches the touch panel 62 (the sheet 66) and any of the line electrodes 68 and any of the line electrodes 70 are in contact with each other and are in conduction, the line circuit 70 is scanned by the scan circuit 76. By being connected to the power supply 78, a current flows through the line electrode 68 in contact with the line electrode 70 and is detected by the scan circuit 80.
[0106]
As a result, which line electrode 68 is in contact with which line electrode 70, that is, at which position on the touch panel 62 the finger is touching the touch panel 62 is detected. This detection result is output from the controller 34 as a touch signal as an operation tool detection signal, and is input to the CPU 18 of the computer 24.
[0107]
On the other hand, when the finger touching the touch panel 62 presses the movable portion 58 of the push switch 54 via the touch panel 62 and the support plate 44 against the urging force of the compression coil spring 50, the movable portion 58 Is in contact with a fixed contact provided on the main body 56 of the push switch 54 to conduct electricity. When the push switch 54 conducts and a current flows in this way, a click signal is output from a circuit on the substrate 46, and the click signal is input to the CPU 18 of the computer 24.
[0108]
Therefore, for example, when a finger touches the touch panel 62 in a state in which a plurality of icons are displayed on the screen 14, the icon corresponding to the position of the finger on the touch panel 62 is in a selected state such as reverse display. Further, in this state, if the finger moves on the touch panel 62 while the finger is in contact with the touch panel 62, the selection state of the icon is switched in accordance with the position of the finger, whereby the desired icon can be selected.
[0109]
Further, in a selected state of the desired icon, when the touch panel 62 is pressed to make the movable contact and the fixed contact of the push switch 54 conductive to output a click signal, the icon in the selected state is determined. The program corresponding to the processing content displayed in is started.
[0110]
(7) Characteristic operation and effect of the controller 34
By the way, in the present embodiment, when a pressing force is applied to the controller main body 36 substantially toward the front side of the vehicle, the lateral wall located behind the support shaft 176 among the pair of lateral walls 146 configuring the shaft housing portion 180. The pressing force applied to the controller main body 36 via 146 is transmitted to the support shaft 176. If the magnitude of the pressing force transmitted to the support shaft 176 is sufficient to allow the moderation pin 168 to come out of the notch 174 formed in the moderation wall 172 against the urging force of the compression coil spring 172, the support 162 Slides substantially together with the controller body 36 toward the front of the vehicle.
[0111]
When the support 162 slides in this manner, the pressing pin 188 facing the inclined portion of the cam piece 184 in the sliding direction interferes with the inclined portion of the cam piece 184, and the pressing pin 188 is pushed down. When the pressing pin 188 is pressed down, the movable portion 198 of the switch 194 facing the lowered pressing pin 188 is lowered, and the fixed contact of the main body 196 and the movable contact of the lowered movable portion 198 are conducted.
[0112]
The continuity between the fixed contact of the main body 196 and the movable contact of the movable portion 198 that has been lowered is detected by the CPU 18 via the wiring of the board 190, whereby it is detected that the controller main body 36 has slid substantially toward the front of the vehicle. You.
[0113]
On the other hand, when a substantially rearward pressing force is applied to the controller main body 36, of the pair of horizontal walls 146 forming the shaft housing portion 180, the horizontal wall 146 located forward of the support shaft 176 is interposed. Thus, the pressing force applied to the controller main body 36 is transmitted to the support shaft 176.
[0114]
If the magnitude of the pressing force transmitted to the support shaft 176 is sufficient to allow the moderation pin 168 to escape from the notch 174 formed in the moderation wall 172 against the urging force of the compression coil spring 172, the support 162 Slides substantially together with the controller body 36 toward the rear of the vehicle.
[0115]
Accordingly, the pressing pin 188 facing the inclined portion of the cam piece 184 on the slide direction is interfered by the inclined portion of the cam piece 184, and the pressing pin 188 is pushed down. Therefore, the movable contact of the movable portion 198 of the switch 194 facing the lowered pressing pin 188 and the fixed contact of the main body 196 conduct. As a result, it is detected that the controller body 36 has slid substantially toward the rear of the vehicle.
[0116]
On the other hand, when a pressing force substantially toward the left side of the vehicle is applied to the portion of the controller main body 36 that is on the front side with respect to the longitudinal center portion, the support shaft 208 of the pair of vertical walls 214 forming the shaft housing portion 212 is formed. The pressing force applied to the controller main body 36 is transmitted to the support shaft 208 via the vertical wall 214 located on the right side of FIG.
[0117]
If the magnitude of the pressing force transmitted to the support shaft 208 is sufficient to allow the moderating pin 168 to come out of the notch 174 formed in the moderating wall 172 against the urging force of the compression coil spring 172, the controller body 36 Pivots counterclockwise about the support shaft 232 of the support 228, and the support 204 slides substantially to the left of the vehicle while being guided by the guide wall 200.
[0118]
When the support 204 slides in this manner, the pressing pin 220 facing the inclined portion of the cam piece 216 in the sliding direction interferes with the inclined portion of the cam piece 216, and the pressing pin 220 is pushed down. When the pressing pin 220 is pressed down, the movable portion 198 of the switch 222 facing the lowered pressing pin 220 is lowered, and the fixed contact of the main body 196 and the movable contact of the lowered movable portion 198 are conducted.
[0119]
The continuity between the fixed contact of the main body 196 and the movable contact of the movable portion 198 which has been lowered is detected by the CPU 18 via the wiring of the board 190, whereby the controller main body 36 has turned substantially to the left of the vehicle. Is detected.
[0120]
On the other hand, when a pressing force to the substantially right side of the vehicle is applied to the controller main body 36, the vertical wall 214 of the pair of vertical walls 214 forming the shaft housing portion 212 is located to the left of the support shaft 208. The pressing force applied to the controller main body 36 via the wall 214 is transmitted to the support shaft 208.
[0121]
If the magnitude of the pressing force transmitted to the support shaft 208 is sufficient to allow the moderating pin 168 to come out of the notch 174 formed in the moderating wall 172 against the urging force of the compression coil spring 172, the controller body 36 Pivots clockwise about the support shaft 232 of the support 228, and the support 204 slides substantially to the right of the vehicle.
[0122]
Accordingly, the pressing pin 220 facing the inclined portion of the cam piece 216 on the sliding direction is interfered by the inclined portion of the cam piece 216, and the pressing pin 220 is pushed down. Therefore, the movable contact of the movable portion 198 of the switch 222 facing the lowered pressing pin 220 and the fixed contact of the main body 196 become conductive. As a result, it is detected that the controller body 36 has slid substantially to the right of the vehicle.
[0123]
As described above, in the controller 34, the controller main body 36 can be slid back and forth, and the support shaft 232 can be turned left and right about the axis. In addition, the front and rear slide of the controller main body 36 can be detected by the switch 194, and the left and right turning about the support shaft 232 can be detected by the switch 222.
[0124]
Therefore, for example, when the controller body 36 is slid forward or backward as described above while the map is displayed on the screen 14, the image of the map displayed on the screen 14 is scrolled upward or downward. It is possible to make a configuration.
[0125]
In addition, in the controller 34, when the finger is moved on the touch panel 62 with the finger kept touching the touch panel 62, the map image displayed on the screen 14 according to the moving direction of the finger is displayed. You can also scroll.
[0126]
Therefore, for example, if the scroll speed of the map image when the controller body 36 is slid is set sufficiently faster than the scroll speed of the map image accompanying the movement of the finger on the touch panel 62, the currently displayed map image is displayed. When a map of a place sufficiently far from the map is desired to be displayed, first, the controller body 36 is scrolled at a high speed to a position near a desired place, and then a desired finger is moved while moving a finger on the touch panel 62. If the scroll adjustment is made to the place, the desired place and the map around it can be displayed on the screen 14 very quickly.
[0127]
Further, in the present controller main body 34, when a pressing force substantially to the left of the vehicle is applied to the controller main body 36 with respect to a portion behind the central portion in the longitudinal direction, a pair of vertical walls 238 forming the shaft housing portion 236 is provided. Among them, the pressing force applied to the controller main body 38 is transmitted to the support shaft 232 via the vertical wall 238 located on the right side of the support shaft 232.
[0128]
If the magnitude of the pressing force transmitted to the support shaft 232 is sufficient to allow the moderating pin 168 to escape from the notch 174 formed in the moderating wall 172 against the urging force of the compression coil spring 172, the controller body 36 Pivots counterclockwise around the support shaft 208 of the support 204, and the support 228 slides substantially to the left of the vehicle while being guided by the guide wall 224.
[0129]
When the support 228 slides in this manner, the pressing pin 244 facing the inclined portion of the cam piece 240 in the sliding direction interferes with the inclined portion of the cam piece 240, and the pressing pin 244 is pushed down. When the pressing pin 244 is pressed down, the movable portion 198 of the switch 246 facing the lowered pressing pin 244 is lowered, and the fixed contact of the main body 196 and the movable contact of the lowered movable portion 198 are conducted.
[0130]
The continuity between the fixed contact of the main body 196 and the movable contact of the movable portion 198 which has been lowered is detected by the CPU 18 via the wiring of the board 190, whereby the controller main body 36 has turned substantially to the left of the vehicle. Is detected.
[0131]
On the other hand, when a pressing force substantially to the right of the vehicle is applied to the controller main body 36, the vertical wall located on the left side of the support shaft 232 among the pair of vertical walls 238 forming the shaft housing portion 236. The pressing force applied to the controller main body 38 via the wall 238 is transmitted to the support shaft 232.
[0132]
If the magnitude of the pressing force transmitted to the support shaft 232 is sufficient to allow the moderating pin 168 to escape from the notch 174 formed in the moderating wall 172 against the urging force of the compression coil spring 172, the controller body 36 Pivots clockwise about the support shaft 208 of the support 204, whereby the support 228 slides substantially to the right of the vehicle.
[0133]
Thus, the pressing pin 244 facing the inclined portion of the cam piece 240 on the sliding direction is interfered by the inclined portion of the cam piece 240, and the pressing pin 244 is pushed down. Therefore, the movable contact of the movable portion 198 of the switch 246 facing the lowered pressing pin 244 and the fixed contact of the main body 196 are electrically connected. As a result, it is detected that the controller body 36 has slid substantially to the right of the vehicle.
[0134]
As described above, in the controller 34, the switches to be detected are different depending on whether the controller main body 36 is turned left and right around the support shaft 232 and when the controller main body 36 is turned left and right around the support shaft 208. .
[0135]
Therefore, for example, as described above, when the controller main body 36 is turned left and right around the support shaft 232, even if the map image displayed on the screen 14 is set to perform high-speed scrolling, When the controller body 36 is turned left and right around the shaft 208, settings other than the high-speed scrolling, such as returning to the menu screen and changing the scale of the map, can be made. Therefore, the number of buttons and switches provided on the upper wall 40 of the controller main body 36 can be reduced.
[0136]
In the present controller 34, the movement of the controller main body 36 in the left-right direction is not a linear sliding movement, but a turning about the support shaft 208 or the support shaft 232. In the case of such a turning structure, the case 38 (that is, the controller main body 36) can be turned only by turning the hand around the wrist as a fulcrum so as to wave the hand holding the case 38.
[0137]
For this reason, when moving the controller main body 36, it is not necessary to move the elbow and the arm left and right, and the operation can be easily performed.
[0138]
Moreover, compared to a structure in which the case 38 is slid in a substantially left-right direction of the vehicle, in the case of such a turning structure, when a force is applied to a position separated from the support shaft 208 or the support shaft 232 serving as a fulcrum, even a relatively weak force is applied. Since the controller body 36 can be turned, the operation can be easily performed in this sense.
[0139]
In addition, the controller 34 basically causes the support shafts 176, 208, and 232 to escape from the shaft housing portions 180, 212, and 236, respectively, and causes the columns 132 and 134 to escape from the respective column housing portions 148. The case 38 (that is, the controller main body 36) can be removed from the base 120. Therefore, even if a failure occurs in the touch panel 62, the controller body 36 can be easily repaired or replaced by removing the controller body 36 from the base 120.
[0140]
Further, the control unit converts a touch signal when a finger touches the touch panel 62 or a click signal when a push switch is pressed through the touch panel 62 as a wireless signal that does not use a signal line (code or cable) such as infrared rays or radio waves. In the case of a configuration for outputting to the 16, a car navigation device, a car audio device, or the like can be performed with the controller body 36 removed from the base 120. Therefore, for example, the occupant in the rear seat of the vehicle can easily operate the car navigation device, the car audio device, and the like by the controller main body 36.
[0141]
In the present embodiment, two types of rotation of the controller main body 36, ie, left and right rotation, about the support shaft 232, and rotation about the support shaft 208 are adopted. Alternatively, only turning around one of the axes may be adopted.
[0142]
【The invention's effect】
As described above, in the controller according to the present invention, the operational feeling when operating the case to which the operating means is attached can be reduced, and the operability can be significantly improved.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state in which a controller according to an embodiment of the present invention is mounted on a vehicle.
FIG. 2 is a block diagram schematically illustrating a system of a car navigation device to which a controller according to an embodiment of the present invention is applied.
FIG. 3 is an enlarged sectional view of a case.
FIG. 4 is a development view of a sheet constituting the operation means.
FIG. 5 is an exploded perspective view in a state where a case is removed from a base.
FIG. 6 is an exploded perspective view of a case and operation means.
FIG. 7 is an exploded perspective view of the inside of the case as viewed from the back side.
FIG. 8 is a rear view of the inside of the case as viewed from the rear side.
FIG. 9 is a perspective view of the external appearance of the case as viewed from the back side.
FIG. 10 is an exploded perspective view of a base.
FIG. 11 is a sectional view in a state where the case is assembled to the base.
FIG. 12 is a plan view showing the structure inside the base.
FIG. 13 is a perspective view showing a structure of a main part inside a base.
FIG. 14 is a perspective view of the support means as viewed from above.
FIG. 15 is a perspective view of the support means as viewed from below.
[Explanation of symbols]
34 Controller
38 cases
54 push switch (operation means)
62 Touch panel (operation means)
120 base
160 Main body support mechanism (support means)
192 Body detection mechanism (case detection means)

Claims (5)

A base provided at a predetermined position of the vehicle,
A case provided on the base,
Operating means provided on the case so that a predetermined operation can be performed on the case, and outputting an operation signal corresponding to the predetermined operation,
Supporting means for supporting the case so as to be pivotable at a predetermined angle with respect to the base around an axis whose axial direction is the facing direction of the case and the base,
Case detection means for detecting turning of the case and outputting a case detection signal different from the operation signal;
Controller. A flat or curved surface is provided so as to be exposed from the case, and the operating means includes a touch panel that outputs a position detection signal corresponding to a position of the object touching the surface on the surface,
The controller according to claim 1, wherein: The support means,
Around the predetermined position on the rear side of the center in the front-rear direction of the case as a fulcrum, the case is pivotably supported in at least one of the left and right directions of the vehicle,
The case is pivotally supported in at least one of the left and right directions of the vehicle with a predetermined position on the front side of the center in the front-rear direction of the case as a fulcrum,
The controller according to claim 1 or 2, wherein: The supporting means supports the case with respect to the base so as to be slidable in at least one of the longitudinal direction of the vehicle, and the case detecting means detects the sliding of at least one of the cases in the longitudinal direction of the vehicle. Detect and output case detection signal,
The controller according to claim 3, wherein: The case was provided detachably with respect to the base,
The controller according to any one of claims 1 to 4, wherein:

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