JP2004319326A - Operation device, and electronic device equipped with the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation device of which a selected function can be easily distinguished by the feeling of a finger, capable of being operated by blind operation, and having improved operability. <P>SOLUTION: The operation device 1 transmitting control signals to an electronic device body comprises a rotatable rotary operation member 10, a rotation amount detecting mechanism 11 detecting a rotation amount of the rotary operation member 10 and transmitting a first control signal in accordance with the detected rotary amount, a moving operation member 20 arranged outside of the rotary operation member 10, and movable in a direction crossing the rotation surface of the rotary operation member 10, a holding mechanism 30 holding the moving operation member at a prescribed position when the moving operation member 20 is moved, and a moving amount detection mechanism 40 transmitting a second control signal by detecting the moving amount of the moving operation member 20 when the moving operation member 20 is held by the holding mechanism 30. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an operation device and an electronic device that send a control signal to an electronic device such as an in-vehicle audio device.
[0002]
[Prior art]
2. Description of the Related Art As is well known, operability such that an intended function is easily and surely selected from various functions such as music selection and volume adjustment is demanded in an electronic device such as an in-vehicle audio device. In order to cope with these, operations using a touch panel using a GUI (Graphical User Interface) and operations using an operation device such as a multi-function switch in which various switches are combined in combination are known.
[0003]
As one of the multifunction switches described above, a rotary switch that can be pushed and pulled out is known (for example, see Patent Document 1).
This rotary switch is an operating device of an electronic device such as a vehicle-mounted navigation system, and includes a rotary knob that can be pushed in and pulled out based on a center position and that can rotate. The rotary knob is biased to a center position by a spring. Thus, for example, after the operator grips the rotary knob, pulls out and operates the rotary knob, the operator returns to the center position when the operator releases the hand.
The operator performs a complex operation such as rotating the rotary knob or pulling out and rotating the rotary knob to select a desired function, and selects and operates each function.
[0004]
[Patent Document 1]
JP-A-10-106404 (Paragraph Nos. 0019-0030; FIGS. 1 and 2)
[0005]
[Problems to be solved by the invention]
By the way, in the conventional touch panel using the GUI, since the operation is always performed while watching the screen, it is inconvenient to perform the blind operation. Further, in the operation device using the rotary switch described in Patent Document 1, since the operation with the sense of the hand such as performing the operation such as rotation by gripping the rotary knob is possible, it is possible to perform the blind operation. However, the switch position could not be easily judged with the sense of a finger. For example, when hierarchical menu selection is performed by pushing or pulling out a rotary knob, there is an inconvenience that it is difficult to know which layer is being operated during operation.
[0006]
The present invention has been made in view of such circumstances, and an object of the invention is to provide an operating device that can perform a blind operation, can easily determine a selected function with a sense of a finger, and has improved operability. An object of the present invention is to provide an electronic device provided with this.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides the following means.
The operating device of the present invention is an operating device for sending a control signal to an electronic device main body, comprising: a rotatable rotary operating member; a first control that detects a rotation amount of the rotary operating member and responds to the rotation amount. A rotation amount detection mechanism that sends a signal, a moving operation member disposed outside the rotation operation member and movable in a direction intersecting a rotation surface of the rotation operation member, and when the movement operation member is moved, A holding mechanism for holding the moving operation member at a predetermined position, and a movement amount detecting mechanism for detecting a moving amount of the moving operation member and sending a second control signal when the moving operation member is held by the holding mechanism. It is characterized by having.
[0008]
In the operating device according to the present invention, the holding mechanism can hold the moving operating member disposed outside the rotating operating member at a predetermined position moved in a direction intersecting the rotation surface of the rotating operating member. The amount of protrusion of the rotation operation member changes with respect to the movement operation member. Therefore, when the rotation operation member is gripped and rotated by the finger, the protrusion amount of the rotation operation member, that is, the position of the movement operation member can be easily and reliably determined by the feel of the finger. Therefore, the state of the moving operation member and the rotation operation member can be accurately recognized and operated only by the sense of the finger, so that the blind operation is possible and the first control signal and the second control signal are used for the purpose. It can be reliably sent to the electronic device body while properly used.
[0009]
The operating device of the present invention is an operating device for sending a control signal to an electronic device main body, comprising: a rotatable rotary operating member; a first control that detects a rotation amount of the rotary operating member and responds to the rotation amount. A rotation amount detection mechanism for transmitting a signal, a moving operation member provided outside the rotation operation member and movable in a direction along a rotation surface of the rotation operation member, and the movement operation member on the rotation surface of the rotation operation member. A holding mechanism that holds the moving operation member at a predetermined position along the same, and a movement amount detecting mechanism that detects a movement amount of the moving operation member and sends a second control signal when the moving operation member is held by the holding mechanism. It is characterized by the following.
[0010]
In the operating device according to the present invention, the holding mechanism causes the moving operating member provided outside the rotating operating member to move in the direction along the rotation surface of the rotating operating member, for example, in the radial direction when the rotating operating member is cylindrical. Can be held at a predetermined position that has been moved, so that when the rotation operation member is gripped and rotated by a finger, the position of the movement operation member can be easily and easily determined from the radial projection amount of the movement operation member by touch of the finger. It is possible to make a reliable determination. Therefore, since the state of the moving operation member can be accurately recognized and operated only with the sensation of a finger, the blind operation can be performed, and the first control signal and the second control signal can be selectively used according to the purpose. It can be reliably sent to the electronic device body.
[0011]
The operating device according to the present invention is characterized in that, in the operating device according to the present invention, the movement amount detection mechanism sends the different second control signals for each of a plurality of predetermined positions.
In the operating device according to the present invention, the moving amount detecting mechanism sends different second control signals to the electronic device main body when the moving operation member is held at the plurality of predetermined positions. In combination, the electronic device body can be more finely controlled.
[0012]
The operation device of the present invention is an operation device that sends a control signal to an electronic device main body, and is a rotatable and grippable rotation operation member, detects a rotation amount of the rotation operation member, and responds to the rotation amount. A rotation amount detection mechanism for transmitting the first control signal, and a second position corresponding to the grip position by detecting a grip position in a direction intersecting a rotation surface of the rotary operation member when gripping the rotary operation member. And a position detecting mechanism for transmitting the control signal.
The operating device according to the present invention includes a position detecting mechanism that detects a gripping position and sends a second control signal according to the gripping position when the rotary operating member is gripped. By simply changing the position of the finger to be gripped, it is possible to easily send the second control signal corresponding to the position of the finger to the electronic device body. Further, by rotating the rotary operation member at the gripping position, it is possible to send the first control signal together with the second control signal to the electronic device main body. Further, since the gripping position of the rotary operation member can be easily recognized with the sense of a finger, the desired first control signal and second control signal can be transmitted to the electronic device body by a blind operation only with the sense of the finger. Can be.
[0013]
The operating device of the present invention is the operating device of the present invention, wherein the position detection mechanism irradiates the rotation operation member with detection light, and irradiates the detection light with the rotation operation member. A light receiving unit for receiving light, and detecting the grip position based on a change in the amount of light received by the light receiving unit.
In the operation device according to the present invention, since the position detection mechanism includes the light irradiation unit and the light reception unit, when the rotation operation member is gripped, the amount of the detection light blocked according to the grip position of the finger. Changes. Thus, the amount of light received by the light receiving unit changes, so that it is possible to detect the position (gripping position) of the finger. Therefore, the position of the finger with respect to the rotary operation member can be accurately detected, and each control signal corresponding to the grip position can be more accurately sent to the electronic device main body, so that the reliability of the operation can be improved.
[0014]
In the operating device according to the present invention, in the operating device according to the present invention, the position detection mechanism can detect the plurality of gripping positions and sends the second control signal that is different for each of the plurality of positions. It is characterized by the following.
In the operating device according to the present invention, since the position detection mechanism can detect a plurality of gripping positions and sends different second control signals for each of the plurality of positions, the electronic device is combined with the first control signal. The body can be more finely controlled.
[0015]
The operating device according to the present invention, in the operating device according to any one of the above-described present invention, includes a rotation resistance adding mechanism that adds resistance to rotation of the rotary operation member and reduces resistance at a fixed rotation angle. It is a feature.
In the operating device according to the present invention, the resistance is reduced at a constant rotation angle when the rotation operation member is rotated by the rotation resistance adding mechanism, so that a so-called click feeling can be obtained at the position of the constant rotation angle. . That is, when the rotation operation member is rotated with the finger, the rotation resistance is increased or decreased, and the rotation operation can be performed while feeling a click feeling. Therefore, when sending the first control signal to the electronic device main body, a clear operational feeling can be obtained.
[0016]
According to another aspect of the invention, an electronic apparatus includes the operation device according to any one of the aspects of the invention.
Since the electronic device according to the present invention includes the operating device of the present invention having the above-described operational effects, the electronic device can perform a blind operation and can easily and reliably determine a selected function with the sense of a finger. Can be obtained.
[0017]
The electronic device according to the present invention, in the electronic device according to the present invention, further includes a control unit that controls a controlled object member in accordance with the first control signal and the second control signal, and the control unit includes , Wherein the control assigned to the first control signal is changed according to the second control signal.
In the electronic device according to the present invention, the control unit can change the control assigned to the first control signal in accordance with the second control signal. When the control signal is changed, the hierarchy of the menu is changed, and it becomes possible to control the member to be controlled, to which the item corresponding to the menu of the hierarchy is assigned to the first control signal.
[0018]
The electronic device of the present invention, in the electronic device of the present invention, further includes a display unit on which information is displayed, wherein the control unit has a function of displaying a relative image portion of the rotary operation member on the display unit; A function of hierarchically displaying a plurality of menu sections corresponding to the position of the moving operation section or the grip position on the side of the image section, and selecting the plurality of menu sections in accordance with the second control signal. The selected item of the menu section is selected according to the first control signal.
In the electronic device according to the present invention, it is possible to select a plurality of menus displayed hierarchically and items of each menu in accordance with the first control signal and the second control signal. Therefore, the hierarchical menu can be easily and accurately operated only by the blind operation with the fingertip, and the desired item can be reliably selected even if there are many items.
[0019]
In the electronic device according to the present invention, in the electronic device according to the present invention, the control unit may display the plurality of menu units horizontally on the display unit and display the items of each menu unit on the display unit. The items are displayed in a vertical arrangement order, and the respective items are selected in conjunction with the rotation direction of the rotation operation member.
In the electronic device according to the present invention, since each item can be selected in conjunction with the rotation direction of the rotation operation member, each item can be intuitively operated. Therefore, operability can be improved.
[0020]
In the electronic device of the present invention, in the electronic device of the present invention, the control unit may display an item of the selected device in a first menu portion of the plurality of menu portions, and display an item for each genre in a second menu portion. And displaying the content item in the third menu section.
In the electronic device according to the present invention, the item of the selected device, the item of each genre, and the item of the content can be selected according to the second control signal.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of an operation device of the present invention and an electronic apparatus including the same will be described with reference to FIGS.
The operating device 1 according to the present embodiment sends a control signal to an in-vehicle audio device (electronic device) 2 disposed on a center console A of an automobile as shown in FIGS. The in-vehicle audio device 2 includes a main body 3 having a not-shown hard disk (HDD) or the like storing thousands of music pieces, a not-shown speaker, and a display unit such as a liquid crystal display for displaying information such as an operation menu. And a control unit 5 for controlling the controlled object member in accordance with a signal input from the operation device 1 as an input device. That is, the control unit 5 controls the control of the main body 3 and the display switching of the display unit 4.
[0022]
In addition, the main body 3 includes, as necessary, components (controlled members) such as a CD changer, an MD changer, a car navigation system, and a television, which are not shown, in addition to the hard disk. That is, by operating the operation device 1, it is possible to use these other components and to display a television screen or the like on the display unit 3.
[0023]
As shown in FIGS. 3 and 4, the operation device 1 includes an encoder unit (rotation operation member) 10 that is rotatable around an axis B and a rotation amount of the encoder unit 10. A rotary encoder (rotation amount detection mechanism) 11 for transmitting a first control signal corresponding to the amount, and a rim portion arranged outside (close to the periphery) of the encoder portion 10 and movable in the axial direction of the rotation axis B (Moving operation member) 20, a holding mechanism 30 for holding the rim 20 at a predetermined position when the rim 20 is moved, and a holding mechanism 30 for holding the rim 20 by the holding mechanism 30. A detection switch (movement amount detection mechanism) 40 that detects the movement amount and sends a second control signal. Note that the axial direction of the rotation axis B is oriented in a direction crossing the rotation surface of the encoder unit 10.
[0024]
As shown in FIG. 4, the center console A has a recess A1 for mounting the operation device 1. The rotary encoder 11 is provided at the bottom of the recess A1. The encoder unit 10 formed in a cylindrical shape on the rotary encoder 11 is disposed so as to be rotatable around the rotation axis B. I have. At this time, the height of the encoder unit 10 is set to be substantially the same as the depth of the concave portion A1, so that the encoder unit 10 does not protrude significantly from above the center console A. The upper part of the encoder unit 10 has a rounded shape, and has a structure that allows easy rotation with a fingertip.
[0025]
The rotary encoder 11 is an existing rotary switch, and has a function of transmitting a first control signal corresponding to a rotation angle of the encoder unit 10 to the control unit 5. In addition, the rotary encoder 11 includes a contact (rotational resistance adding mechanism) 11a that adds resistance to the rotation of the encoder unit 10 and reduces the resistance at a fixed rotation angle. That is, the contact 11a is provided so as to be able to contact with a plurality of slits (not shown) formed on the bottom surface of the encoder 10 on the contact surface with the encoder 10 with elastic force. This makes it possible to add a resistance to the rotation of the encoder unit 10, and the rotation of the encoder unit 10 causes the contact 11 a to fit into the slit portion, which is generated between the encoder unit 10 and the rotary encoder 11. Resistance decreases. That is, when the rotation of the encoder unit 10 is performed with a finger, a click feeling is generated at every fixed angle.
[0026]
A spring 15 is disposed around the encoder 10, and the rim 20 is disposed on the spring 15. Further, the rim portion 20 is in contact with a not-shown locking portion of the concave portion A1 so as not to protrude from the surface of the center console A. The rim portion 20 is constantly urged by the spring 15 toward the opening of the recess A1.
The holding mechanism 30 holds the rim portion 20 at three predetermined positions different from the initial position when the rim portion 20 is moved in the axial direction of the rotation axis B toward the depth side of the concave portion A1. It is arranged on the inner side wall of the recess A1 so that it can be formed. That is, the first holding portion 31, the second holding portion 32, the third holding portion 33, and the fourth holding portion 34 are provided in this order from the opening of the concave portion A1. Each of the holding portions 31, 32, 33, and 34 is capable of holding the rim portion 20 by fitting into a locking portion 21 formed on a side surface of the rim portion 20. At this time, the holding force is set so as to oppose the elastic force of the spring 15. Further, for example, the rim portion 20 held by the second holding portion 32 is released again by pressing the rim portion 20 toward the back side of the concave portion A1 with a finger, and the rim portion 20 is released before being held by the third holding portion 33. When the finger is released and the pressing is released, the elastic force of the spring 15 returns to the initial position, that is, the state located on the opening side of the concave portion A1.
[0027]
The detection switch 40 is, for example, a micro switch, and sends a first switch 41, a second switch 42, a third switch 43, and a fourth switch 42 that send different second control signals to the control unit 5 at different positions. The switch 44 is provided. These switches 41, 42, 43, and 44 are provided in the holding portions 31, 32, 33, and 34, respectively, so that the rim portion 20 is in the initial position (the position held by the first holding portion 31), The position held by the second holding unit 32, the position held by the third holding unit 33, and the position held by the fourth holding unit 34 are detected.
[0028]
Further, the control unit 5 has a function of displaying the relative image unit 10a of the encoder unit 10 on the display unit 4, and a function of displaying a plurality of menu units corresponding to the position of the rim unit 20 on the side of the relative image unit 10a. have.
That is, as shown in FIG. 5, the control unit 5 can display the relative image unit 10a, the hierarchical menu, and the volume level 4a on the display unit 4. This hierarchical menu has three layers, that is, a first menu section 4b, a second menu section 4c, and a third menu section 4d, and is displayed on the display section 4 in the horizontal order. Each of the menu sections 4b, 4c, and 4d includes an option, which is a selectable item, and is displayed on the display section 4 in the vertical order. That is, the content corresponding to the option selected in the first menu portion 4b is displayed on the second menu portion 4c, and the content corresponding to the option selected in the second menu portion 4c is displayed on the third menu portion 4d. It has become so. In the present embodiment, the components of the main body 3 can be selected as options of the first menu section 4b. That is, the options of the first menu section 4b are a hard disk, a car navigation, a television, an MD changer, a CD changer, and the like.
[0029]
The display unit 5 performs the switching control of the display unit 4 based on a signal corresponding to the first control signal and the second control signal. That is, the control unit 5 switches the volume level 4a, the first menu unit 4b, the second menu unit 4c, and the third menu unit 4d according to the second control signal from each of the switches 41, 42, 43, and 44. Is controlled as follows. In other words, the control unit 5 selects the volume level 4a when the second control signal is input from the first switch 41, and switches the third menu unit 4d when the second control signal is input from the second switch 42. When a second control signal is input from the third switch 43, the second menu section 4c is selected, and when a second control signal is input from the fourth switch 44, the first menu section 4b is selected. .
In addition, the control unit 5 controls to change the volume level 4a and select an option in each of the menu units 4b, 4c, and 4d in accordance with the first control signal from the rotary encoder 11, and also controls the encoder unit. Control is performed such that each option is selected in conjunction with the ten rotation directions. That is, the control unit 5 changes the control assigned to the first control signal according to the second control signal.
[0030]
Control of the in-vehicle audio device 2 by the operation device 1 configured as described above will be described below.
As an initial state, for example, as shown in FIG. 5, the first menu section 4b selects the hard disk, the second menu section 4c selects the album D stored in the hard disk, and the third menu section 4d selects the album. The song 3 of D is in a selected state. At this time, each selected option is displayed on the display unit 4 so that the color of the corresponding mark or character can be easily recognized by changing the luminance, for example.
[0031]
As described above, when the driver wants to change the volume while listening to the song 3, after recognizing with the fingertip that the rim 20 is in the initial state as shown in FIG. The volume can be changed by rotating the encoder unit 10. That is, as shown in FIG. 4, the rim unit 20 is held by the first holding unit 31 and the second control signal is sent from the first switch 41 to the control unit 5. That is, the sound volume level 4a is selected. By rotating the encoder unit 10 in this state, the first control signal is sent from the rotary encoder 11 to the control unit 5, so that the volume can be changed.
At this time, when the driver touches the encoder unit 10 with his fingertip, the driver can recognize by touch that the rim unit 20 and the encoder unit 10 are substantially on the same surface. Can be operated by recognizing that the volume is changed. Therefore, the driver can perform the blind operation and perform an appropriate operation with the recognition that the volume is to be changed. In addition, since the rotation direction of the encoder unit 10 is linked to the volume level, when the encoder unit 10 is rotated clockwise, the volume level decreases.
[0032]
When it is desired to change the music 3, the music is changed by rotating the encoder 10 after pushing the rim 20 by one step and holding the second holding 42 as shown in FIG. 4 and FIG. 6B. be able to. That is, the second switch 42 detects the position of the rim section 20 and sends a second control signal to the control section 5. That is, the third menu section 4d is in a selected state. By rotating the encoder unit 10 in this state, the first control signal is sent from the rotary encoder 11 to the control unit 5, so that the music can be changed.
Also, at this time, when the driver touches the encoder unit 10 with the fingertip in the same manner as when the volume is changed, the driver can recognize from the feel of the fingertip that the encoder unit 10 is slightly protruding from the rim unit 20. Accordingly, the blind operation can be performed by recognizing that the rotation operation of the encoder unit 10 is a change in music. When the encoder unit 10 is rotated rightward, the music 4 can be selected.
[0033]
Further, when it is desired to change the album D, as shown in FIGS. 4 and 6C, the rim portion 20 is further pushed one step to be held by the third holding portion 43 and then the encoder portion 10 is rotated to change the album. can do. That is, the third switch 43 detects the position of the rim section 20 and sends a second control signal to the control section 5. That is, the second menu section 4c is selected. By rotating the encoder unit 10 in this state, the first control signal is sent from the rotary encoder 11 to the control unit 5, so that the album can be changed.
Also, at this time, when the driver touches the encoder unit 10 with the fingertip in the same manner as when the volume is changed, the driver can recognize from the touch of the fingertip that the encoder unit 10 is further protruding from the rim unit 20. Therefore, it is possible to recognize that the rotation operation of the encoder unit 10 is an album change and perform a blind operation. When the encoder unit 10 is rotated to the right, the album E can be selected.
[0034]
When the user wants to listen to music from a CD stored in the CD changer instead of the hard disk, the rim unit 20 is pushed one more step and held in the fourth holding unit 44 as shown in FIGS. 4 and 6D. By rotating the encoder unit 10 to the left, the hard disk can be changed to a CD changer. That is, the fourth switch 44 detects the position of the rim 20 and sends a second control signal to the controller 5. That is, the first menu section 4b is in a selected state. By rotating the encoder unit 10 in this state, the first control signal is sent from the rotary encoder 11 to the control unit 5, so that the components of the main body 3 can be changed.
Also, at this time, when the driver touches the encoder unit 10 with the fingertip in the same manner as when the volume is changed, the driver recognizes from the feel of the fingertip that the encoder unit 10 is in the state of protruding the maximum with respect to the rim unit 20. Since it is possible, the blind operation can be performed by recognizing that the rotation operation of the encoder unit 10 is a change of the constituent devices of the main body 3.
[0035]
When the first menu section 4b is changed to a CD changer, the display of the second menu section 4c and the third menu section 4d is changed according to the album or the music stored in the CD changer.
For example, when a television is selected as the first menu section 4b, a television channel or the like is displayed in the second menu section 4c and the third menu section 4d, and the selected program can be viewed on the display section 4. It becomes.
[0036]
In addition, the rim portion 20 is held by the second holding portion 32, the third holding portion 33, or the fourth holding portion 34, and after changing a song or an album, the rim portion 20 is pressed again to release the holding. , Can be returned to the initial state by the elastic force of the spring 15. Also at this time, it is possible to recognize that the rim portion 20 has returned by the touch of the fingertip.
Furthermore, when rotating the encoder section 10, the driver can perform the operation while feeling a click feeling with the contact 11a. Thus, when changing the volume or the music, the user can operate with a clear click feeling.
[0037]
As described above, according to the operating device 1, the rim 20 disposed on the outer periphery of the encoder 10 can be held at each holding position located in the axial direction of the rotation axis B by the holding mechanism 30. The protrusion amount of the encoder unit 10 changes with respect to the rim unit 20. Therefore, when rotating the encoder unit 10 with a finger, it is possible to easily and reliably determine the amount of protrusion of the encoder unit 10, that is, the position of the rim unit 20, based on the feel of the finger. Accordingly, the state of the rim unit 20 and the encoder unit 10 can be accurately recognized and operated only by the sense of the fingertip, so that the driver can perform the blind operation and transmit the first control signal and the second control signal. The desired hierarchical menu can be operated depending on the purpose.
Further, when the rim unit 20 is located at the initial position, the most frequently used volume change operation can be performed. Therefore, a deeper operation target is operated, such as a change in the configuration device to be operated. Therefore, since the level to be operated and the positional relationship of the rim unit 20 are synchronized, the operation level can be intuitively determined only by touching with a fingertip, and the operation can be facilitated. Further, since the rotation direction of the encoder unit 10 and the selection direction of the option are linked, the option can be selected intuitively, and the operability can be improved.
[0038]
Further, the rim unit 20 is held at a plurality of positions by the holding mechanism 30, and the detection switch 40 detects that the rim unit 20 is held at each position, and sends a second control signal corresponding to each holding position to the control unit 5. Since the transmission is performed, finer control than the operation of the hierarchical menu can be performed. In addition, when rotating the encoder unit 10 at each holding position, the encoder unit 10 can be operated while feeling a click feeling, so that the operation can be performed while obtaining a clear operation feeling.
Further, since the encoder unit 10 and the rim unit 20 do not protrude from the center console A, it is possible to prevent the encoder unit 10 and the rim unit 20 from being caught.
[0039]
Next, a second embodiment of the present invention will be described with reference to FIG. In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
The difference between the second embodiment and the first embodiment is that, in the first embodiment, the rim 20 is arranged on the outer periphery of the encoder 10 and is movable in the axial direction of the rotation axis B. In the operating device 50 according to the second embodiment, the protrusion (moving operation member) 51 is provided outside the encoder 52 (that is, is protruded from the outer peripheral wall of the rotary encoder 52), and the operation of the encoder 52 is controlled. This is a point that can be moved in the radial direction (the direction along the rotation surface).
[0040]
That is, as shown in FIG. 7, the operating device 50 includes three projections 51 at equal intervals outside the encoder 52. The projections 51 are synchronized with each other, so that even if one of the projections 51 is moved in the radial direction, the other two projections 51 are also moved in the radial direction. Each of the projections 51 is held at three positions by the holding mechanism 30 when moved in the center direction of the encoder 52. Each position of the protrusion 51 is detected by a detection switch 40 such as a microswitch. Further, when the protrusion 51 is held at each position, the detection switch 40 sends different second control signals to the controller 5.
The movement of the projection 51 and the rotation of the encoder 52 can be performed by gripping the outer peripheral portion with a finger.
[0041]
In the operating device 50, the holding mechanism 30 can hold the projection 51 provided on the outer periphery of the encoder 52 at each position moved in the radial direction of the encoder 52. When gripping and rotating, it is possible to easily and reliably determine the position of the protrusion 51 from the radial protrusion amount of the protrusion 51 by touch of the finger. Therefore, since the state of the projection 51 can be accurately recognized and operated only by the sense of the finger, the blind operation is possible, and similarly to the first embodiment, the first control signal and the second The control signal can be properly used according to the purpose to operate the desired hierarchical menu.
[0042]
Next, a third embodiment of the present invention will be described with reference to FIGS. In the third embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
The difference between the third embodiment and the first embodiment is that in the first embodiment, the rim portion 20 is moved and a second control signal according to the position is sent, whereas the third embodiment is different from the third embodiment. The operation device 80 of the first embodiment detects a grip position when the encoder unit 10 is gripped and sends a second control signal.
[0043]
That is, as shown in FIG. 8, when the operating device 80 grips the encoder unit 10, the operating device 80 detects a gripping position in the direction of the rotation axis B, which is a direction intersecting the rotation surface, and 2 is provided with a position detection mechanism 90 for transmitting the control signal of the second position.
The position detection mechanism 90 includes a first light irradiator 91, a second light irradiator 92, and a third light irradiator 93, which are light irradiators such as LEDs that irradiate the encoder 10 with the detection light L. It has a first light receiving unit 94, a second light receiving unit 95, and a third light receiving unit 96, which are light receiving units such as PDs that receive the detection light L reflected by the unit 10. The grip position is detected based on a change in the amount of received light by the units 94, 95, and 96.
[0044]
Also, in the present embodiment, when the second control signal is not input from each of the light receiving units 94, 95, and 96, the control unit 5 selects the volume level 4a, and selects the second sound level from the first light receiving unit 94. When the control signal is input, the third menu section 4d is selected. When the second control signal is input from the second light receiving section 95, the second menu section 4c is selected. When the second control signal is input, the first menu section 4b is set to be selected.
[0045]
In the operation device 80, when the encoder unit 10 is gripped, the detection light L emitted from each of the light irradiation units 91, 92, and 93 is blocked according to the gripping position. As a result, the amount of light received by each of the light receiving units 94, 95, and 96 changes. For example, as shown in FIG. 9, by gripping the vicinity of the center of the encoder unit 10, the fingertip blocks the detection light L irradiated by the first light irradiation unit 91 and the second light irradiation unit 92, so that the first light The light receiving amounts of the light receiving unit 94 and the second light receiving unit 95 change. As a result, the two light receiving units 94 and 95 detect the gripping position and send a second control signal to the control unit 5. Accordingly, since the control unit 5 selects the second menu unit 4c, the album can be changed by rotating the encoder unit 10 and sending the first control signal, for example, in the setting shown in FIG. .
Further, when the encoder unit 10 is rotated by a fingertip without gripping the side surface of the encoder unit 10, that is, without blocking the detection light L, the volume can be changed.
[0046]
In the operation device 80, the second control signal according to the position of the finger can be easily transmitted to the control unit 5 simply by changing the position of the finger holding the encoder unit 10 by the position detection mechanism 90. Further, since the gripping position can be easily determined by the sense of the fingertip, the desired first control signal and the second control signal are sent to the control unit 5 by the blind operation only with the sense of the fingertip, and the target hierarchical menu is displayed. Operations can be performed. In addition, since each of the light irradiation units 91, 92, and 93 and each of the light receiving units 94, 95, and 96 are provided, when the encoder unit 10 is held, an accurate holding position can be detected from a difference in the amount of received light. it can. Therefore, the reliability of the operation can be improved.
Furthermore, grasping the deep position of the encoder unit 10 means selecting a deeply operated menu that is less frequently used in the hierarchical menu, so that it is possible to intuitively recognize the menu hierarchy simply by grasping. .
[0047]
Note that when the encoder unit 10 is gripped and the detection light L is blocked, a different sound is generated each time the light receiving unit detects the light so that the driver can more clearly recognize which light receiving unit has detected the holding position. An informing means for performing the operation, a vibrating means for vibrating the encoder unit 10, and the like may be separately provided.
[0048]
Note that the technical field of the present invention is not limited to the above-described embodiment, and various changes can be made without departing from the spirit of the present invention.
[0049]
For example, in each of the above embodiments, the operating device of the present invention is applied to a device that sends a control signal to a control unit of a vehicle-mounted audio device, but may be applied to an operating device that sends a control signal to another electronic device. . For example, as an electronic device, the present invention may be applied to a car navigation system, an air conditioner for a vehicle, or the like.
When the in-vehicle air conditioning device is an electronic device, for example, the menu is switched in the order of temperature, wind direction, and operation mode by the second control signal, and the command assigned to each menu is selected by the first control signal. May be set as follows. For example, in the operating device of the first embodiment, the temperature can be changed by rotating the encoder unit when the rim unit is at the initial position, and the wind direction is changed by rotating the encoder unit by pushing the rim unit one step. It is possible to set such as.
In each of the above embodiments, a plurality of predetermined positions for sending different second control signals are set at three positions, but the present invention is not limited to this. In this case, it goes without saying that, for example, the hierarchical menu of the electronic device is set according to the number of the second control signals.
Further, the rotary operation member is formed in a cylindrical shape, but may be formed in a rotatable shape. For example, a polygon such as a triangle and a hexagon may be used.
[0050]
【The invention's effect】
As described above, according to the operating device of the present invention, it is possible to easily and surely determine the position of the moving operation member by touching the finger when rotating the rotating operation member with the finger. . Therefore, since it is possible to accurately recognize and operate the states of the moving operation member and the rotation operation member only with a sensation with a finger, it is possible to perform a blind operation and to use the first control signal and the second control signal for the purpose. It can be reliably sent to the electronic device body while properly used. Further, since various operations can be performed with the rotation operation member and the movement operation member, it is not necessary to provide a large number of switches, and the installation space can be minimized.
Further, according to the electronic device of the present invention, since the electronic device includes the operating device of the present invention, a blind operation is possible, and the selected function can be easily and reliably determined with a sense of a fingertip. The first control signal and the second control signal can be selectively used according to the purpose. Therefore, an electronic device having a hierarchical menu such as an in-vehicle audio device can be easily operated by a blind operation with a fingertip, and each device can be integrated and controlled.
[Brief description of the drawings]
FIG. 1 is a diagram showing a state in which an operating device and an electronic device according to a first embodiment of the present invention are attached to a center console of a vehicle.
FIG. 2 is a block diagram showing an overall configuration of the electronic device shown in FIG.
FIG. 3 is a top view of the operating device shown in FIG. 1;
FIG. 4 is a cross section of the operating device shown in FIG.
5 is a diagram showing a display example of a display unit of the electronic device shown in FIG.
6A and 6B are cross-sectional views of main parts sequentially shown for explaining the operation of the operating device shown in FIG. 1, wherein FIG. 6A is a diagram in which a rim portion is located in an initial state, and FIG. Is a diagram showing a state in which the rim portion is further pushed down by one step, (c) is a diagram showing a state in which the rim portion is pushed further by one stage, and (d) is a diagram showing a state in which the rim portion is pushed down to the lowest stage. It is.
FIGS. 7A and 7B are views showing an operating device according to a second embodiment of the present invention, wherein FIG. 7A is a top view and FIG. 7B is a side view.
FIG. 8 is a sectional view of an operating device according to a third embodiment of the present invention.
9 is a cross-sectional view illustrating a state where the operation device illustrated in FIG. 8 is gripped by a finger.
[Explanation of symbols]
L Detection light
1, 50, 80 operating device
2 Audio equipment for vehicles (electronic equipment)
4 Display
4b First menu section
4c Second menu section
4d 3rd menu part
5 control part
10, 52 Encoder unit (rotary operation member)
10a Relative image section
11 Rotary encoder (rotation amount detection mechanism)
11a contact (rotational resistance mechanism)
20 Rim section (moving operation member)
30 Holding mechanism
40 detection switch (movement amount detection mechanism)
51 Projection (moving operation member)
90 Position detection mechanism
91 1st light irradiation unit (light irradiation unit)
92 Second light irradiation unit (light irradiation unit)
93 Third light irradiation unit (light irradiation unit)
94 1st light receiving unit (light receiving unit)
95 Second light receiving unit (light receiving unit)
96 Third light receiving unit (light receiving unit)

Claims (12)

An operating device for sending a control signal to the electronic device body,
A rotatable rotation operation member,
A rotation amount detection mechanism that detects a rotation amount of the rotation operation member and sends a first control signal according to the rotation amount;
A moving operation member disposed outside the rotation operation member and movable in a direction intersecting a rotation surface of the rotation operation member;
A holding mechanism that holds the moving operation member at a predetermined position when the moving operation member is moved;
An operation device comprising: a movement amount detection mechanism that detects a movement amount of the movement operation member and sends a second control signal when the movement operation member is held by the holding mechanism. An operating device for sending a control signal to the electronic device body,
A rotatable rotation operation member,
A rotation amount detection mechanism that detects a rotation amount of the rotation operation member and sends a first control signal according to the rotation amount;
A movement operation member provided outside the rotation operation member and movable in a direction along a rotation surface of the rotation operation member;
A holding mechanism that holds the moving operation member at a predetermined position along a rotation surface of the rotation operation member,
An operation device comprising: a movement amount detection mechanism that detects a movement amount of the movement operation member and sends a second control signal when the movement operation member is held by the holding mechanism. The operating device according to claim 1 or 2,
The operating device, wherein the movement amount detection mechanism sends different second control signals for each of a plurality of predetermined positions. An operating device for sending a control signal to the electronic device body,
A rotating operation member that is rotatable and grippable,
A rotation amount detection mechanism that detects a rotation amount of the rotation operation member and sends a first control signal according to the rotation amount;
A position detecting mechanism for detecting a gripping position in a direction intersecting a rotation surface of the rotary operating member when the rotary operating member is gripped and transmitting a second control signal according to the gripping position; An operation device characterized by the above-mentioned. The operating device according to claim 4,
A light irradiation unit that irradiates the position detection mechanism with detection light toward the rotation operation member,
A light receiving unit that receives the detection light reflected by the rotation operation member,
An operation device for detecting the grip position based on a change in the amount of light received by the light receiving unit. The operating device according to claim 4 or 5,
The operating device, wherein the position detecting mechanism is capable of detecting a plurality of the gripping positions and transmitting the second control signals different for each of the plurality of positions. The operating device according to any one of claims 1 to 6,
An operation device comprising a rotation resistance adding mechanism for adding resistance to rotation of the rotation operation member and reducing resistance at a fixed rotation angle. An electronic apparatus comprising the operating device according to claim 1. The electronic device according to claim 8,
A control unit that controls a controlled object member according to the first control signal and the second control signal,
The electronic device, wherein the control unit changes control assigned to the first control signal according to the second control signal. The electronic device according to claim 9,
A display section on which information is displayed,
The control unit has a function of displaying a relative image portion of the rotary operation member on the display unit, and a plurality of menu units corresponding to the position of the moving operation unit or the grip position on a side of the relative image unit. Display function,
Causing the plurality of menu sections to be selected according to the second control signal;
An electronic device, wherein an item of the selected menu portion is selected according to the first control signal. The electronic device according to claim 10,
The control unit causes the plurality of menu units to be displayed on the display unit in a horizontal order, and displays the items of each menu unit on the display unit in a vertical order,
An electronic device, wherein each of the items is selected in conjunction with a rotation direction of the rotation operation member. The electronic device according to claim 11,
The control unit causes the first menu unit of the plurality of menu units to display items of the selected device, the second menu unit to display genre-specific items, and the third menu unit to display content items. Electronic equipment characterized by the following.

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