JP2008027159A - Input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an input device which uses switch parts of different operating forces to make it possible to specify each switch part even if the number of signal lines is made smaller than the number of switch parts. <P>SOLUTION: Eight first switch parts 7 and four second switch parts 8, for example, are provided. The first switch parts 7 enable inputs with a lighter operating force than with the second switch parts 8. The second switch parts 8 are positioned in proximity to the different first switch parts 7. The first switch parts 7 are all connected to individual first signal lines 30-37, while the second switch parts 8 are connected to a common second signal line 38. If any of the second switch parts 8 is pressed, a second switch specifying part 46 specifies the pressed second switch part 8 on the basis of a switch signal of the first switch part 7 which was pressed before with a light operating force. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention provides an input device that can easily realize a structure capable of specifying each switch portion even if the number of signal lines is reduced from the number of switch portions by providing two types of switch portions having different operating forces. About.

In the operating device shown in Patent Document 1 below, a plurality of switch units are arranged in a line. As shown in FIG. 4 and the like of Patent Document 1, a resistor is provided between the switch units, and the pressed switch unit is specified based on the output voltage value. For example, when signal lines are connected to each switch unit, signal lines are required as many as the number of switch units, and an increase in the number of switch units is not preferable because it leads to an increase in size of connectors and the like. Since there is no need to provide a signal line for each switch portion, the number of signal lines can be reduced.
JP-A-2005-93128 JP 2005-338898 A

  However, in the method of Patent Document 1, since a simple on / off signal cannot be obtained, post-signal processing becomes troublesome, such as the necessity of AD conversion, and it is necessary to provide a resistor between each switch unit. Therefore, downsizing of the apparatus could not be promoted, and there were disadvantages in both software and hardware.

  Further, in Patent Document 2, since it is necessary to use a capacitance sensor as the primary input means, this also does not obtain a simple on / off signal, and the signal processing is troublesome, making it easier. I want an input device that consists only of a switch. In addition, when a capacitance sensor is used, the position of the coordinate data is likely to be displaced and malfunction is likely to occur. Furthermore, in Patent Document 2, since an electrostatic capacitance sensor is used, the operation surface is suitable for a rectangular shape so that appropriate position detection can be performed. For example, the operation surface is not suitable for an input device having a ring shape.

  Accordingly, the present invention has been made to solve the above-described problems. In particular, the structure in which each switch unit can be specified even when the number of signal lines is reduced from the number of switch units has different operating forces. An object of the present invention is to provide an input device that can be easily realized by providing two types of switch sections.

The input device in the present invention is
A surface member whose surface is an operation surface, and a plurality of first switch portions and a plurality of second switch portions disposed under the surface member,
The first switch part can be input with lighter operation than the second switch part, and each first switch part is connected to an individual first signal line,
Each second switch unit is connected to a common second signal line, and is disposed in proximity to another first switch unit,
After the first switch unit is pressed to enter the input state, the second switch unit disposed close to the first switch unit is pressed to enter the input state, and a second switch signal is transmitted from the second signal line. Is detected, the pressed second switch unit is identified based on the first switch signal from the first signal line.

  Thus, the present invention is a simple input device in which a switch unit is simply provided under the surface member as an input unit. According to the present invention, the number of signal lines is reduced rather than the number of switch units. I can do it. Moreover, since all the output signals are simple on / off signals, signal processing such as AD conversion is not required, and the burden on software and hardware can be suppressed.

  In the present invention, the operating force (the pressing force necessary to turn on) of the first switch portion and the second switch portion is different. The first switch portion can be input with light operation. Further, each of the second switch sections is disposed in proximity to another first switch section. Therefore, in the present invention, before the second switch unit is input, the first switch unit arranged in proximity is first input.

  As described above, in the present invention, when a certain second switch portion is pressed, the first switch portion disposed in proximity to the second switch portion is in an input state before the first switch signal is transmitted from the first signal line. Is output. When the second switch signal is detected, the first switch signal is used as a position signal, so that even if the second switch signal is output from a common second signal line, each of the second switch signals is based on the first switch signal. This makes it possible to specify the second switch part.

In the present invention, there are a first operation state in which only the first switch portion is in an input state, and a second operation state in which the second switch portion is in an input state together with the first switch portion. A predetermined operation signal is generated based on the first switch signal output individually from the first signal line,
In the second operation state, the first switch signal output individually from the first signal line is used as a position signal for specifying the second switch unit, and is used as the second switch signal of the specified second switch unit. It is preferable that a predetermined operation signal is generated based on this. As described above, in the present invention, not only in the second operation state but also in the first operation state, a predetermined operation signal can be generated based on the input of the first switch unit, and various operations can be performed.

  In the present invention, the operation surface is formed in an encircling shape having an opening in the center, and the first switch unit is arranged along an enclosing direction. In the first operation state, the operation surface is separated from the first signal line. It is preferable that multidirectional input is possible based on the first switch signal. In the present invention, in order to configure the input device by simply disposing a simple switch part under the surface member, even if the operation surface is formed in a surrounding shape, the first switch part and the first switch part can be easily formed. Two switch parts can be arranged, and further, the first switch part can be arranged along the enclosing direction so that multidirectional input can be performed in the first operation state.

  In the present invention, by sliding the operating body on the operation surface, an operation signal that causes a continuous change can be generated based on the first switch signal from the first signal line that is continuously switched. It is preferred that For example, a scroll operation signal.

  In the present invention, a central surface member separate from the surface member is provided in the opening, the surface of the central surface member is an operation surface, and a central switch portion is provided below the central surface member. The central switch unit is connected to a central signal line different from the first signal line and the second signal line, and in a third operation state different from the first operation state and the second operation state, A predetermined operation signal is preferably generated based on a central switch signal output from the central signal line.

  According to the present invention, the second switch is configured as a tact switch. When the second switch is input by pressing the operation surface with a finger, the second switch is intuitively pressed. It can be recognized, for example, by sliding on the operation surface with a finger, the first operation state in which only the first switch portion is in the input state can be differentiated, and the operability can be improved.

  In the present invention, it is possible to generate different operation signals based on the specified second switch section, and to perform various operations.

  The present invention is a simple input device in which a switch unit is simply provided under the surface member as an input unit. According to the present invention, the number of signal lines can be reduced rather than the number of the switch units. Moreover, since all the output signals are simple on / off signals, signal processing such as AD conversion is not required, and the burden on software and hardware can be suppressed.

  Below, the input device of this embodiment is demonstrated based on drawing. FIG. 1 is an exploded perspective view of the input device according to the present embodiment, FIG. 2 is a plan view of the operation member, and FIG. 3 is a schematic diagram for explaining the operation of the multidirectional input device according to the present embodiment (assembled input). It is the fragmentary sectional view which cut | disconnected the apparatus in the height direction along the AA line shown in FIG. 2, and was seen from the arrow direction.

  Here, a first switch section 7 to be described later is a multi-directional switch that can input in eight directions, and the eight directions are indicated by arrows in FIGS.

  As shown in FIG. 1, the input device 1 includes a fixed portion 2, a membrane switch 3, an operation member 9, a central key top 15, and a ring-shaped key top (surface member) 16. The

  A circular membrane mounting portion 2a is formed on the surface of the fixing plate 2 and protrudes outward from the membrane mounting portion 2a in four directions (upper, right, lower and left directions). A portion 2b is formed, and the attachment arm portion 2b is attached to an external electronic device (not shown) or the like.

  As shown in FIG. 3, the membrane switch 3 has a substantially circular upper sheet 4a and lower sheet that can be placed on the membrane placement part 2a by folding a sheet member 4 made of a resin film up and down as shown in FIG. 4b is formed, and a terminal portion 4d is pulled out from the lower sheet 4b and can be connected to an external electronic device or the like (not shown). Further, the sheet member 4 in the folded state has a positioning arm hole 4e that can be placed on the mounting arm part 2b of the fixing plate 2 and a positioning hole 2d that can be fitted to the positioning protrusion 2d formed on the fixing plate 2. 4f is formed.

  As shown in FIGS. 1 and 3, a spacer 5 having a predetermined thickness is sandwiched between the upper sheet 4a and the lower sheet 4b, and the outer shape of the spacer 5 is a sheet as shown in FIG. The upper sheet 4a and the lower sheet 4b of the member 4 are formed in substantially the same shape, and mounting arm portions 5a and positioning holes 5b are formed at positions in four directions.

  A central hole 5c having a predetermined diameter is formed through the central portion of the spacer 5, and at a position equidistant from the central hole 5c, the central hole 5c and the four directions (upward, right, lower, leftward). Four second holes 5d are formed through the line connecting the formed positioning holes 5b. The second hole 5d is formed in a gourd shape by shifting two holes having the same size as the central hole 5c.

  Further, four first holes 5e having the same dimensions as the central hole 5c are formed between the adjacent second holes 5d and 5d. The second and first holes 5d and 5e are formed at equal intervals in eight radial positions with the central hole as the center.

  The four first holes 5e are formed on the circumference of the hole (first hole) inside the second hole 5d with the central hole 5c as the center.

  As shown in FIG. 3, the membrane switch 3 includes a central switch composed of an upper electrode and a lower electrode in a central hole 5c located at the center of the spacer 5 sandwiched between the upper and lower sheets 4a and 4b. The part 6 is formed by printing or the like.

  Further, the membrane switch 3 is formed with a first switch portion 7 inside the gourd-shaped second hole 5d and a second switch portion 8 outside. The second switch sections 8 are arranged at equal intervals. The second switch unit 8 is disposed at an interval of 90 degrees with the central switch unit 6 as a center. Although the illustration of the first switch portion 7 on the inner peripheral side is omitted, it is also formed in each of the four first holes 5e, and is equally spaced at eight positions centered on the central switch portion 6. (45-degree intervals around the central switch portion 6).

  That is, the membrane switch 3 includes, for example, one central switch portion 6 in the central hole 5c, eight first switch portions 7 in the second hole 5d, and eight in the first hole 5e. Four switch portions 8 are formed outside the second hole 5d, respectively, and a total of 13 switch portions are formed.

  Further, on the membrane switch 3, an operation member 9 having a substantially the same size as the upper sheet 4a of the membrane switch 3 and formed in a substantially circular shape is disposed. The operation member 9 is made of a metal plate having elasticity, and is punched by pressing or the like. As shown in FIGS. 1 and 2, a circular outer peripheral edge 9a having an outer shape substantially the same as the membrane switch 3 is formed. Is formed.

  From the outer peripheral edge portion 9a, an attachment arm portion 9b extending in four directions (upper, right, lower, leftward) is formed, and a positioning projection 2d formed on the fixing plate 2 on the attachment arm portion 9b. A positioning hole 9c into which can be fitted is formed.

  Further, the operation member 9 is formed with a central operation portion 10 having a central portion bulging in a dome shape at a position facing the central switch portion 6 located at the center of the membrane switch 3.

  A pressing portion 10b that protrudes downward is formed on the dome-shaped top of the central operating portion 10, and the central operating portion 10 is operated by pressing the central key top 15 with an operating force of a predetermined pressure. Is reversed, and the pressing portion 10b presses the central switch portion 6 to enable input operation. At the same time that the central operation unit 10 is reversed, a feeling of clicking occurs, and the operator can intuitively recognize that the switch has been pressed. In this way, the central switch unit 6 is configured as a tact switch including the central operation unit 10.

  Further, the operation member 9 has a diameter dimension at the center at four positions facing the four gourd-shaped second holes 5d formed at positions at intervals of 90 degrees (upper, right, lower, left). Four cross-shaped operation parts 11 having a dome shape substantially the same as the operation part 10 are formed.

  As shown in FIG. 2, each of the four cross direction operation units 11 is extended from the outer periphery of the dome by a predetermined dimension in the direction of the central operation unit 10 at the center, and the first switch unit 7 (4 A first switch operation portion 11a capable of performing input operation, and a second switch operation portion 11c capable of performing input operation of the second switch portion 8 by projecting downward from the dome-shaped top of the cross direction operation portion 11. Has been. The first switch unit 7 can be input with an operating force smaller than that of the second switch unit 8 (an operating force necessary to turn on). Even if the first switch unit 7 is input, no particular clicking sensation occurs, but the second switch unit 8 is pressed by the second switch operation unit 11c when the dome-shaped cross direction operation unit 11 is reversed. When the input is performed, a feeling of clicking is generated at the same time as the cross direction operation unit 11 is reversed, and the operator can intuitively recognize that the switch has been pressed. As described above, the second switch unit 8 includes the cross direction operation unit 11 and is configured as a tact switch.

  Further, the operation member 9 includes domes having substantially the same shape as the cross direction operation unit 11 at four positions between the cross direction operation units 11 and 11 adjacent to each other, at positions facing the first hole 5e of the membrane switch 3. A slanting direction operation section 12 is formed. The diagonal direction operation unit 12 is formed with a first switch operation unit 12a that allows input operation of the first switch unit 7 in the portion (four places) where the first switch operation unit 11a of the cross direction operation unit 11 is not operated. ing. The oblique direction operation unit 12 has a first switch operation unit 12a that has the same shape as the first switch operation unit 11a of the cross direction operation unit 11 and extends in the direction of the central operation unit 10, and has a circular outer shape. A part is notched and the notch 12b is formed, and the dome-like outer shape is substantially D-cut.

  For this reason, the oblique direction operation unit 12 is reversed with a force smaller than the cross direction operation unit 11 to generate a click feeling weaker than the central operation unit 10 and the cross direction operation unit 11.

  As shown in FIG. 2, the central operation unit 10, the cross direction operation unit 11, and the diagonal direction operation unit 12 are each connected to a plurality of connection units 13 formed in a narrow width. Since the connecting portion 13 is curved between the cross direction operation portion 11 and the oblique direction operation portion 12 and the central operation portion 10, the cross direction operation portion 11 and the oblique direction operation portion 12 to the central operation portion 10 are formed. Thus, even if the central operation unit 10 is elastically deformed, the influence on the cross direction operation unit 11 and the oblique direction operation unit 12 can be reduced.

  The operation member 9 has a plurality of connecting portions 13 connected to the outer peripheral edge portion 9a, and the central operating portion 10, the cross direction operating portion 11 and the oblique direction operating portion 12 are integrated.

  Further, as shown in FIG. 3, the plurality of connecting portions 13 are formed so as to bulge upward in the drawing by pressing or the like so as to reach a predetermined height from the mounting arm portion 9b. Therefore, the operation member 9 is configured such that each of the central operation unit 10, the cross direction operation unit 11, and the oblique direction operation unit 12 is lifted from the membrane switch 3 when the mounting arm portion 9 b is placed on the membrane switch 3. .

  Alternatively, by attaching the mounting protrusions 16e of the ring-shaped key top 16 disposed on the upper side and the mounting holes 14 formed in the connecting portion 13, eight pieces arranged uniformly around the central operation unit 10 The dome-shaped apex portions of the operation portions 11 and 12 and the convex portion 16 formed on the ring-shaped key top 16 come into contact with each other. It stabilizes in the state of floating from the switch 3.

  At this time, the cross direction operation unit 11 and the oblique direction operation unit 12 are provided with the first switch operation unit 11a and the first switch operation unit 12a on the inner peripheral side from the membrane switch 3 rather than the outer peripheral side near the outer peripheral edge 9a. It is in a state of being largely separated.

  In addition, a fixing portion including an attachment hole 14 having a predetermined diameter is formed through the connection portion 13 located between the cross direction operation portion 11 and the oblique direction operation portion 12 in four directions. That is, the connecting portion 13 in the vicinity of the cross direction operation portion 11 is formed with a fixing portion (attachment hole 14) for fixing to the ring-shaped key top 16.

  Then, the operation member 9 and the membrane switch 3 are placed on the membrane placement portion 2a of the fixed plate 2 in a state where the mounting arm portions 9b and 4e are aligned, and the positioning holes 4f and 9c are placed. Are positioned on the positioning projection 2d. When the claw-shaped crimping portion 2c is crimped so as to be folded inward, the movement of the membrane switch 3 and the operation member 9 is restricted.

  A central key top 15 having a substantially circular outer shape as shown in FIG. 1 is disposed on the central operation unit 10. The central key top 15 is made of a mold resin material and has a substantially trapezoidal pressing surface (operation surface) 15a and a flange portion 15b that protrudes outward from a trapezoidal skirt portion of the operation surface 15a. . Further, the central key top 15 is formed with a protruding portion 15c having a predetermined height that abuts against the dome-shaped top of the central operation unit 10 on the lower surface. Such a central key top 15 is supported by being prevented from being detached from the fitting hole 16a of the ring-shaped key top 16 by the flange portion 15b, so that the operation surface 15a can be pressed in the direction of arrow C (FIG. 3). reference).

  Further, on the cross direction operation unit 11 and the oblique direction operation unit 12 of the operation member 9, the outer shape is larger than the central key top 15 as shown in FIG. A ring-shaped key top 16 having a circular fitting hole (opening) 16a that can be stopped is disposed.

  The ring-shaped key top 16 is made of a mold resin material, and a ring-shaped operation surface 16b is formed around the fitting hole 16a. A flange portion 16c is formed on the outer peripheral side of the operation surface 16b. It is supported by a housing such as an electronic device (not shown) and is regulated so that the ring-shaped key top 16 does not rise above a predetermined height. The operation surface 16b can be pressed in the direction of the arrow (see FIG. 3).

  Further, as shown in FIG. 3, a predetermined diameter dimension is provided on the lower surface side of the ring-shaped key top 16 in eight directions (upper, upper right, right, lower right, lower, lower left, left, upper left) at intervals of 45 degrees. The eight convex portions 16d that come into contact with the cross direction operation portion 11 and the oblique direction operation portion 12 are formed so as to protrude. Further, on the lower surface side of the ring-shaped key top 16, four attachment projections 16e that fit into the four attachment holes 14 of the operation member 9 are formed inside the plurality of convex portions 16d. The operation member 9 has a dome-shaped top portion of the cross direction operation portion 11 and the oblique direction operation portion 12 by fixing the connecting portion 13 of the portion where the attachment hole 14 is formed to the attachment protrusion 16e of the ring key top 16. The ring-shaped key top 16 is elastically in contact with the convex portions 16d formed at eight locations.

  In the present embodiment, the first switch section 7 is provided on the lower side of the ring-shaped key top 16 one by one in eight directions (upper, upper right, right, lower right, lower, lower left, left, upper left). It has been. The second switch unit 8 is disposed adjacent to each side of the first switch unit 7 provided in the upward direction, the right direction, the downward direction, and the left direction. That is, the second switch unit 8 and the first switch unit 7 are provided in the horizontal direction, and the second switch unit 8 (for example, the second switch unit 8 in the right direction) and the first switch unit arranged in proximity to each other. 7 (the first switch unit 7 in the right direction) is separated from the second switch unit 8 (the second switch unit 8 in the right direction) and the other first switch unit 7 (the first switch unit other than the right direction). 7) It is narrower than the interval.

  The first switch unit 7 can be input with a smaller operating force (a pressing force necessary to turn on) than the second switch unit 8. On the other hand, the operating force with respect to the second switch unit 8 and the central switch unit 6 is larger than that of the first switch unit 7, and the input of the second switch unit 8 is disposed close to the second switch unit 8. The input of the first switch unit 7 is assumed.

  4 and 5 are circuit configuration diagrams of the input device 1 of the present embodiment. In order to distinguish the eight first switch sections 7, each first switch section 7 is set to “upper SW”, “upper right SW”, “right SW”, “lower right SW”, “lower SW”, “lower left SW”, “left SW”. "The upper left SW" defined the location. The arrangement of each switch unit 7 coincides with the arrow direction shown in FIG. Similarly, in order to distinguish the four second switch sections 8, each second switch section 8 is defined as “upper TSW”, “right TSW”, “lower TSW”, and “left TSW”. “TSW” indicates that the second switch unit 8 is a tact switch. Expressions such as upper SW, upper TSW, and the like are used as necessary.

As shown in FIGS. 4 and 5, each first switch section 7 is connected to an individual first signal line 30 to 37.
On the other hand, each second switch unit 8 is connected to one common second signal line 38.

  In addition, the central switch unit 6 is connected to a separate central signal line 39 from the first switch unit 7 and the second switch unit 8, and a ground line 40 is further provided. Therefore, there are 11 signal lines in total.

  As shown in FIGS. 4 and 5, the first signal lines 30 to 37 are connected to the first switch signal detection unit 42 of the control unit 41. On the other hand, only one second signal line 38 is connected to the second switch signal detector 45.

  As described above, the characteristic part of the input device 1 of the present embodiment is that the second switch unit 8 that requires a large operating force is arranged in the vicinity of the first switch unit 7 that can be input with a small operating force. Even if all of the four signal lines 38 of the second switch unit 8 are common, the second switch that is pressed based on the switch signal of the first switch unit 7 that is pressed together with the second switch unit 8. The point is that the part 8 can be specified.

  Assume that the operator presses the right TSW of the second switch unit 8 with a finger (operation body) from the state where all the switch units in FIG.

  Then, first, the right SW of the first switch unit 7 arranged close to the right TSW is input with a light operation and is switched on (see FIG. 5). Then, an ON signal is input to the first switch signal detection unit 42 from the first signal line 32 connected to the right SW. Since the first switch unit 7 is connected to the individual first signal lines 30 to 37, respectively, the first switch signal detection unit 42 is based on the first signal lines 30 to 37 that output ON signals. Which first switch portion 7 is pressed can be determined.

  Thereafter, when the operation surface 16b of the ring-shaped key top 16 is further pressed downward, the dome-shaped cross-direction operation unit 11 is inverted to obtain a click feeling, and the second switch pressing unit 11c is The second switch unit 8 is pressed, and the right TSW of the second switch unit 8 is in the input state. When the right TSW is switched on, an on signal is input from the second signal line 38 to the second switch signal detector 45.

  The second switch signal detection unit 45 can only determine that any of the second switch units 8 has been pressed. That is, since the second signal line 38 is a common line, it cannot be determined only by the ON output from the second signal line 38 which second switch unit 8 is pressed.

  However, in the present embodiment, as described above, since the first switch signal detection unit 42 already knows that the right SW of the first switch unit 7 is pressed, the first switch signal is It can be used as a position signal for specifying the second switch unit 8.

  In the second switch specifying unit 46 shown in FIG. 5, when the signal is output from the second switch signal detecting unit 45, the second switch specifying unit 46 is pressed based on the first switch signal from the first switch signal detecting unit 42. The second switch unit 8 is specified.

That is, in the above example, since the signal information that the right SW of the first switch unit 7 is pressed is input from the first switch signal detection unit 42 to the second switch specifying unit 46, the right switch is determined based on the information. It can be determined that the right TSW of the second switch unit 8 arranged at the position closest to the SW is a pressed switch.
The determination of the other second switch unit 8 is performed in the same manner as described above.

  According to the present embodiment, the input unit can be configured with only the simple switch units 7 and 8, which is advantageous in terms of cost, and does not consume power during standby (off), so that low power consumption is achieved. The input device 1 of the present embodiment can be suitably used for various portable information devices such as required mobile devices and AV devices.

  In this embodiment, two types of switch portions 7 and 8 having different operating forces are provided, and it is not necessary to provide individual signal lines for each of the second switch portions 8 that require a large operating force. The total number can be reduced. Further, since the switch unit is not specified based on the change in output voltage as described in Patent Document 1 above, only a simple on / off signal is extracted, so that troublesome circuit processing such as AD conversion is not required, and software / The burden on hardware can be suppressed.

  In the first switch unit 7 that is a multidirectional switch as in this embodiment, for example, when a plurality of switch units 7 are pressed at the same time, switch position correcting means (algorithm) for specifying the pressed switch is provided. Although it is essential, if such an algorithm is provided only on the detection unit side of the first switch unit 7, it is not particularly necessary to provide it on the detection unit side of the second switch unit 8, and the circuit design is simple. That is, in the present embodiment, if the second switch signal detection unit 45 can determine whether or not the second switch unit 8 is pressed, the second switch unit 8 is identified from the first switch signal detection unit 42. Therefore, it is not necessary to provide the algorithm on the detection unit side of the second switch unit 8.

  Further, when more second switch portions 8 are provided than in this embodiment, two or more second switch portions 8 may be in the input state simultaneously when pressed, but even in such a case, the first If the pressed first switch unit 7 is first identified by the algorithm in the switch unit 7 and the second switch unit 8 is identified based on the signal information, the detection unit of the second switch unit 8 in particular. There is no need to provide the algorithm on the side.

  As a specific example of the algorithm, for example, if it is detected that an odd number of first switch portions 7 are pressed, the first switch portion 7 in the middle is pressed. For example, when there is a signal output from three switches of the upper SW, the upper right SW, and the right SW, it is determined that the upper right SW is pressed.

  For example, when there is a signal output from two switches, the upper SW and the upper right SW, if there is a signal output from the second switch signal detection unit 45, the pressed switch is regarded as the upper SW, and the second switch signal detection unit If there is no signal output from 45, the pressed switch is regarded as the upper right SW.

Alternatively, the pressed first switch unit 7 is determined by predicting a switch to be pressed next based on the past output information of the first switch unit 7.
The algorithm is not limited to the above.

  In the present embodiment, two types of first and second switch portions 7 and 8 having different operating forces are arranged under the same ring-shaped key top 16 so that only the first switch portion 7 is in an input state with a light operating force. And the second operation state in which both the first switch unit 7 and the second switch unit 8 are in the input state by further pressing.

  In the first operation state, there is no signal output from the second switch signal detection unit 45. In this case, the operation signal generation unit 43 generates a predetermined operation signal based on the first switch signal. That is, the first switch signal is not used as a position signal for specifying the second switch unit 8.

  In the present embodiment, eight first switch portions 7 arranged in a ring shape are arranged under the operation surface 16b of the ring-shaped key top 16, and such a configuration is shown in FIG. As described above, the finger F can be easily and appropriately slid on the operation surface 16b with a light operating force, can be continuously input in eight directions, and an operation signal that causes a continuous change can be generated. Specific examples of the operation signal in the first operation state are shown below.

  When the finger F is slid in a ring shape on the operation surface 16b as shown in FIG. 6, the first switch signal that is continuously switched from the first signal lines 30 to 37 is sent to the first switch signal detection unit 42. Is entered. Based on such a continuously changing first switch signal, the operation signal generation unit 43 generates a scroll operation signal and displays the screen of the display screen 51 of the electronic device 50 as shown in FIG. 6A. Scroll. Alternatively, the operation signal generator 43 displays a cursor movement operation signal for moving the cursor 52 displayed on the display screen 51 as shown in FIG. 6B, and a display on the display screen 51 as shown in FIG. 6C. An operation signal for continuously switching the selection of the displayed icon, folder, or the like, an operation signal for enlarging or reducing the display displayed on the display screen 51 as shown in FIG.

  Next, as shown in FIG. 7, the operator places the finger F of the second switch unit 8 on the operation surface 16 b where the upper TSW is present in a stronger downward direction than the first operation state. The upper TSW is pressed to enter the input state (second operation state).

  In the second operation state, before the upper TSW is input, the upper SW of the first switch unit 7 is in the input state. Therefore, the second switch specifying unit 46 includes the first switch signal detection unit. Based on the first switch signal from 42 (that is, the signal of the upper SW), the pressed second switch section 8 is identified as the upper TSW.

  As shown in FIGS. 4 and 5, the second switch signal specified by the second switch specifying unit 46 is sent to the operation signal generating unit 44, where a predetermined operation signal is based on the second switch signal. Is generated.

  As shown in FIG. 7, for example, a display unit 53 indicating that the second switch unit 8 is provided is provided on the operation surface 16 b by printing or the like. Now, when the operator presses the upper TSW of the second switch unit 8 with the finger F, the operation signal generation unit 44 provided in the control unit 41 plays and pauses music, for example, as shown in FIG. For example, the music selected in the first operation state is reproduced or paused.

  Alternatively, the operation signal generation unit 44 selects a screen (such as a phone book screen or a mail screen as shown in FIG. 7B) displayed on the display screen 51 as shown in FIG. 7B, or An operation signal for switching, or an operation for continuously switching selection of an icon, a folder, or the like displayed on the display screen 51 shown in FIG. 7C by continuously pressing the upper TSW or continuously pressing the upper TSW. A signal can be generated, an operation signal for determining the display state displayed on the display screen 51 shown in FIG. 7D, and the like can be generated.

  In the present embodiment, it is preferable that different operation signals are output when the second switch unit 8 other than the upper TSW, that is, the right TSW, the lower TSW, and the left TSW are pressed. In particular, in the present embodiment, each pressed second switch unit 8 can be specified by the second switch specifying unit 46 by the first switch signal, and therefore generated when each second switch unit 8 is pressed. Different operation signals can be used. For example, in the music mode of FIG. 7A, when the upper TSW is pressed, the operation signal for playing and pausing music as described above, and when the right TSW is pressed, the operation signal for selecting the subsequent song. When the lower TSW is pressed, various signals such as an operation signal for stopping the music, and when the left TSW is pressed, an operation signal for selecting the previous music can be generated.

  Further, it may be set so that different operation signals are generated depending on the length of time for which the second switch portion 8 is pressed.

  Further, when the central switch portion 6 is input by pressing the operation surface 15a of the central key top 15 (third operation state), for example, an operation signal for determining the display state currently displayed on the screen or the like. Is output. Since the central key top 15 can be moved up and down independently of the ring-shaped key top 16, the signal line 39 connected to the central switch unit 6 is also provided separately from the second signal line 38 and directly. The operation signal generation unit 44 is connected to the operation signal generation unit 44 so that the operation signal generation unit 44 can generate an operation signal upon receiving a switch signal from the signal line 39.

  4 and 5, the operation signal generation units 43 and 44 are provided in the control unit 41 having the first switch signal detection unit 42, the second switch signal detection unit 45, and the second switch specifying unit 46. However, the operation signal generation units 43 and 44 are provided in another control unit, and the control unit 41 receives the first switch signal and the second switch specifying unit 46 respectively. A two-switch signal may be output.

  As described above, in this embodiment, all inputs can be configured by the switch unit, and the configuration can be simplified. In addition, the first switch portion 7 that is in the input state with a light operating force is simply arranged in a ring under the ring-shaped key top 16, and the finger F is placed on the operation surface 16b of the ring-shaped key top 16. When sliding with a light operating force, the switch signals output from the first signal lines 30 to 37 can be switched continuously, resulting in a continuous change like the scroll described in FIG. Operation signals can be generated easily. And when the 2nd switch part 8 arrange | positioned adjacently is pressed, it can be used as a position signal which specifies the position of the pressed 2nd switch part 8. FIG. In the present embodiment, since all signals output in the first operation state and the second operation state are on / off signals, a stable operation can be performed with a simple circuit configuration.

  The operation surface 16b of the key top 16 is not limited to a ring shape. For example, it may be a surrounding shape such as a rectangular frame shape having an opening in the center. However, when the operator performs a sliding operation on the operation surface, the ring shape is preferable because it can be easily and appropriately operated and does not cause discomfort to the operator.

  In addition, as in the present embodiment, the ring-shaped key top 16 has a simple structure and a touch pad simply by arranging a large number of first switch portions 7 that are in an input state with a light operating force below the ring-shaped key top 16. This makes it possible to perform intuitive analog operations by humans and is easy to use.

  Further, the number and arrangement of the first switch section 7 and the second switch section 8 are not limited to the above-described number and arrangement, but the second switch section 8 is at least equal to or less than the first switch section 7. The first switch unit 7 is arranged in proximity to each other.

  4 and 5, the configuration in which only one second signal line 38 is provided is most preferable. However, for example, due to the arrangement of the signal lines, a plurality of common second signal lines are used. Do not exclude form. For example, the upper TSW and the right TSW are connected to the common second signal line, and the lower TSW and the left TSW are connected to the common second signal line.

  The input device 1 of this embodiment is optimally used for small electronic devices such as a mobile phone, a portable music player, and an electronic notebook.

An exploded perspective view of the input device of the present embodiment, A plan view of an operation member constituting the input device, It is a schematic diagram explaining the operation of the input device, the assembled input device is cut in the height direction along the line AA shown in FIG. Circuit diagram of the input device (all switches are off), Circuit diagram of input device (first switch unit and second switch turned on one by one), A specific example for explaining the first operation state; A specific example for explaining the second operation state;

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Input device 2 Fixing plate 2a Membrane mounting part 3 Membrane switch 4 Sheet member 4a Upper sheet 4b Lower sheet 5 Spacer 6 Center switch part 7 First switch part 8 Second switch part 9 Operation member 9a Outer peripheral edge part 10 Central operation part DESCRIPTION OF SYMBOLS 11 Cross direction operation part 12 Diagonal direction operation part 13 Connection part 15 Central key top 15a Operation surface 15c Convex part 16 Ring-shaped key top 16b Operation surface 16d Convex part 30-37 1st signal line 38 2nd signal line 39 Central signal line 40 ground line 41 control unit 42 first switch signal detection unit 43, 44 operation signal generation unit 45 second switch signal detection unit 46 second switch identification unit 50 electronic device 51 display screen 53 display unit

Claims (7)

A surface member whose surface is an operation surface, and a plurality of first switch portions and a plurality of second switch portions disposed under the surface member,
The first switch part can be input with lighter operation than the second switch part, and each first switch part is connected to an individual first signal line,
Each second switch unit is connected to a common second signal line, and is disposed in proximity to another first switch unit,
After the first switch unit is pressed to enter the input state, the second switch unit disposed close to the first switch unit is pressed to enter the input state, and a second switch signal is transmitted from the second signal line. When the signal is detected, the pressed second switch unit is identified based on the first switch signal from the first signal line. There is a first operation state in which only the first switch unit is in an input state, and a second operation state in which the second switch unit is in an input state together with the first switch unit. In the first operation state, a first signal Based on the first switch signal output individually from the line, a predetermined operation signal is generated,
In the second operation state, the first switch signal output individually from the first signal line is used as a position signal for specifying the second switch unit, and is used as the second switch signal of the specified second switch unit. The input device according to claim 1, wherein a predetermined operation signal is generated based on the input signal.   The operation surface is formed in a surrounding shape having an opening in the center, and the first switch portions are arranged along a surrounding direction. In the first operation state, the first switch signal from the first signal line is formed. The input device according to claim 2, wherein multi-directional input is possible based on the above.   The operation signal that causes a continuous change can be generated based on the first switch signal from the first signal line that is continuously switched by sliding the operating body on the operation surface. 3. The input device according to 3.   A central surface member separate from the surface member is provided in the opening, the surface of the central surface member is an operation surface, and a central switch portion is provided below the central surface member, and the central switch Is connected to a central signal line separate from the first signal line and the second signal line, and the central signal line is in a third operation state different from the first operation state and the second operation state. 5. The input device according to claim 3, wherein a predetermined operation signal is generated based on a central switch signal output from.   The input device according to claim 1, wherein the second switch unit is configured as a tact switch.   The input device according to claim 1, wherein different operation signals can be generated based on the identified second switch signal of the second switch unit.

Images