JP2011159067A - Input device for electronic equipment, input control method, and electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To eliminate a risk of an erroneous input in an input device for electronic equipment including a flat input operation surface. <P>SOLUTION: The input device includes an operation part having a flat input operation surface and a touch panel of a capacitive sensing method which detects an occurrence position of input operation to the input operation surface, and an input control part which outputs output information corresponding to coordinate information to the electronic equipment only when the coordinate information of the position of the occurrence of input operation is inputted from the touch panel, and the authenticity of the input operation is discriminated and determined as truth. When the coordinate information equivalent to a special position A1 defined beforehand is inputted, the input control part prepares an invalid area A100 according to the special position A1 in an input operation surface 6 while the coordinate information is inputted, and determines the input operation to a position A3 included in the invalid area A100 as false. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an input device for an electronic device, an input control method for the input device, and an electronic device using the input device, and more particularly to an input device having a flat input operation surface and an input control method thereof.

2. Description of the Related Art Conventionally, as an input device for an electronic device having a display device such as an LCD (liquid crystal display device) or a CRT, characters, numbers and other symbols (graphics) arranged on the screen of the display device and displayed on the screen , Including pictograms called icons made up of images, etc., including a single symbol made up of a plurality of symbols) from the surface side while seeing through the desired characters, numbers and other symbols ( Hereinafter, a device that touches the position of a symbol with a finger or the like and generates and outputs information corresponding to the symbol position (hereinafter, such an input device is also referred to as a touch panel) is widely used. (For example, refer to Patent Document 1).
For example, in electronic devices such as automated teller machines such as banks and car navigators, touch panel displays have been widely used for a long time, and are also actively used in small electronic devices such as portable information terminals and electronic dictionaries. It has become.

  On the other hand, various proposals have been made to realize an input device that does not necessarily include a display device such as an LCD or CRT using a touch panel. For example, the applicant does not require a function as a display device. There has been proposed a keyboard device that has a flat input operation surface located on the uppermost surface as in a touch panel display (see Patent Document 2).

JP 2005-317041 A Japanese Patent Application No. 2009-253938

Now, in the input device such as the keyboard device described in Patent Document 2, since the input operation surface located on the uppermost surface is a flat surface, it is easy to clean and dirt is difficult to adhere, and the appearance is improved. In addition, it can maintain a clean state, and has a high degree of functionality and aesthetics. And, to realize a flat input operation surface, a capacitive touch panel can be used, so that a touch panel with excellent translucency can be easily configured, and highly sensitive input detection is possible. It is possible.
However, the high sensitivity also contributes to a unique problem that is not found in conventional input devices having a plurality of key switches. That is, in such an input device, if the user's finger or the like approaches or touches the touch panel other than when the user intentionally executes the input operation, the input operation may be mistaken for the input operation. .

  This is a problem particularly in the case of an input device in which a large number of symbol positions are distributed on a relatively wide input operation surface, such as a keyboard device for a personal computer. Unlike an input device such as a portable electronic device that is often operated with one specific finger (such as a thumb), a keyboard device for a personal computer can be used for input operation at that time on an input operation surface. It is normal that there are fingers that are not used directly, and ergonomically, even when the input operation is not being performed, the finger is usually lightly touched on the input operation surface Is the default state. In a capacitive touch panel, for example, it may be difficult to properly distinguish between such a default state and a state in which a user intentionally performs input.

  The present invention has been made in view of the above problems, and an object of the present invention is to eliminate the possibility of erroneous input and improve the operability in an input device for an electronic apparatus having a flat input operation surface. There is.

(Aspect of the Invention)
The following aspects of the present invention exemplify the configuration of the present invention, and will be described separately for easy understanding of various configurations of the present invention. Each section does not limit the technical scope of the present invention, and some of the components of each section are replaced, deleted, or further while referring to the best mode for carrying out the invention. Those to which the above components are added can also be included in the technical scope of the present invention.

Here, in the following description, the “true” input operation means an input operation intentionally performed by the user of the input device, and the “false” input operation means that the user operates on the input operation surface. When the coordinate information of the specific position is input from the touch panel to the input control unit even though the input operation of “true” is not performed for the specific position, the input operation corresponding to the coordinate information Say.
Note that the main cause of the “false” input operation is that the user's finger or the like approaches or touches the touch panel regardless of the user ’s input intention, and the proximity or contact is detected by the touch panel. Although conceivable, the present invention is not limited by the cause of the occurrence of a “false” input operation.
In the following description, the directions “up” and “down” mean the up and down directions when the input device according to the present invention is laid flat and the input operation surface is positioned horizontally.

(1) An input device for an electronic device, the operation unit including a flat input operation surface and a capacitive touch panel that detects an input operation generation position on the input operation surface; An input control unit that outputs the output information corresponding to the coordinate information to the electronic device only when the coordinate information of the occurrence position of the input operation is input and the input operation is determined to be true and true And
When the coordinate information corresponding to one or a plurality of combinations of predefined special positions is input, the input control unit includes the special input within the input operation surface while the coordinate information is being input. An input device characterized in that an invalid area corresponding to each of one or more combinations of positions is provided, and an input operation for a position included in the invalid area is determined to be false.

  In the input device according to this section, the coordinate information input to the input control unit includes one or a plurality of predefined special positions (hereinafter, one special position or a combination of a plurality of special positions). In the case of exclusive mention of one of them, it is clearly stated, and in the case of simply “special position”, both of them are included), while the coordinate information is being input (ie, Normally, while the user's finger or the like continues to touch a special position on the input operation surface, an invalid area is provided in the input operation surface according to the special position, and the position corresponding to the coordinate information input during that time Is included in the invalid area, the input operation for the position is determined to be false, and the output of the output information corresponding to the coordinate information is stopped.

Generally, when the input operation for the first position in the input operation surface is executed in combination with the input operation for the second position between the input device and the electronic device, the input operation for the first position is executed alone. There is a case where a function (a so-called bind function) for assigning a meaning different from the case is defined. Further, the second position (generally a plurality of positions) for which such a binding function is set includes only a specific position in the input operation surface as a first position in which a binding function is defined in combination with the second position. There may be a corresponding one.
Therefore, such a second position is defined as a special position in the input device in this section, and the invalid position corresponding to the special position is included so that only the position where the binding function by the combination with the special position is not defined is included. By providing an area, it is possible to reliably prevent a false input operation occurring in an invalid area without causing an obstacle to an input operation on the electronic device, and to prevent malfunction of the electronic device related to the bind function. it can.

(2) In the input device according to the above (1), the input device further includes a load sensor that detects a load applied to the operation unit and outputs load information to the input control unit. An input device that determines whether the input operation is true or false based at least in part on a time variation pattern of load information (claim 2).

  According to the input device described in this section, among the input operations detected by the touch panel, a true input operation intentionally performed by the user and a false input operation detected regardless of the user's input intention are performed. , Load information (the load value detected by the load sensor as a response to the load applied to the operation unit) can be determined based on the difference in the time variation pattern (also referred to as a load response curve). While making use of highly sensitive input detection on the touch panel, false input operations can be effectively eliminated. This eliminates the possibility of erroneous input to the electronic device and improves the operability of the input device.

(3) In the input device according to (2), the reference value for determining the input operation as true based on the time variation pattern of the load information is a first threshold value in the time variation pattern of the load information. And a time from the time when the first threshold value is exceeded to the time when the second threshold value is lowered is less than or equal to a predetermined reference time. 3).

According to the input device described in this section, it is possible to reliably determine a load response curve having a sharp peak. In general, it is considered that such a sharp peak does not appear in a load response curve in a false input operation such as a default state, so that the false input operation can be surely eliminated.
In the input device described in this section, in order to discriminate a load response curve having a sufficiently large peak value and a sharp peak having a sufficiently steep fall, the first threshold value is true. It is preferable that the value is close to the peak value of the load response curve assumed in the case of the input operation, and the second threshold value is smaller than the first threshold value.
In addition, specific setting values of the first threshold value, the second threshold value, and the reference time are appropriately set according to the specifications of the input device.

(4) In the input device according to (2) or (3), the load sensor detects a load applied to the operation unit at at least three points, and the input control unit detects a load from the at least three points. Based on the information, specify a load area including a load center of a load applied to the operation unit in the input operation surface, and whether the position indicated by the coordinate information input from the touch panel is included in the load area An input device that determines whether the input operation is true or false based at least in part on whether or not.

  The input device described in this section is based on the position of at least three points where the load is detected by the load sensor and the load information (detected load value) of each point. Whether the position is the load center can be specified at least for each approximate area. Here, when the load applied to the operation unit is a concentrated load, the load center is the point of action of the concentrated load. In the case of a true input operation, the position of the load center is the user's finger or the like in the input operation. It is considered that it substantially coincides with the contact position. Therefore, when determining whether the input operation is true or false, by considering whether or not the position indicated by the coordinate information input from the touch panel is included in the specified load area, the fake input operation is Further, it can be surely and effectively eliminated.

Note that when determining the authenticity of the input operation, the combination of the time variation pattern of the load information and the consistency between the coordinate information and the load area is appropriately determined according to the specifications of the input device. Can be set. For example, when the position indicated by the coordinate information input from the touch panel is not included in the specified load area, the input operation is determined to be false, and the load information for the input operation that is not determined to be false by this determination Further, authenticity may be determined based on the time variation pattern.
In order to specify the load area including the load center of the load applied to the operation unit, it is necessary to measure the load at at least three points. However, the number of measurement points should be considered in consideration of the width of the input operation surface. And may have four or more measurement points.

(5) In the input device according to any one of (2) to (4), a floating case that connects the lower case separate from the operation unit, and the operation unit and the lower case at least at three points The floating mechanism includes a leaf spring member for connecting the operation portion and the lower case with a gap in the vertical direction, and the plate for constituting the load sensor. An input device comprising a strain gauge fixed to the spring member (claim 5).

In the input device described in this section, the operation unit is floatingly supported at three or more points by the floating mechanism with respect to the lower case, so that the lower case has a predetermined degree of freedom (that is, displacement is allowed). In a stable state). Since the displacement of the operation unit with respect to the lower case is allowed, the load applied to the operation unit is transmitted to the load sensor together with the displacement of the operation unit with respect to the lower case, and the load applied to the operation unit can be detected. . In order to stably maintain the attitude of the operation unit with respect to the lower case, it is necessary to connect both at least three points by the floating mechanism. The number of connection points is appropriately determined in consideration of the size of the input device and the like. Is to be selected.
The load applied to the operation unit that is floatingly supported with respect to the lower case is detected by deformation of the leaf spring member by a load sensor including a strain gauge fixed to the leaf spring member. The plate spring member may be another elastic member as long as the strain gauge can be fixed and the deformation can be transmitted to the strain gauge.

(6) The input device according to any one of (1) to (5), wherein the input device is a keyboard device for a personal computer (claim 6).

In the input device of this section, preferably, a position in the input operation surface corresponding to a so-called special key (for example, a Ctrl key or an Fn key) provided in a personal computer keyboard device is defined as a special position. .
In general, in the specifications between a keyboard device for a personal computer and a personal computer, if a malfunction occurs in the bind function by such a combination with a special key, for example, the user can delete a file or shut down the personal computer. Since this may cause a fatal phenomenon for the work, the ability to prevent such a malfunction of the binding function in the input device described in this section greatly improves the workability on the user's personal computer. It is something to be made.

  Furthermore, when the input device according to the present invention includes a load sensor, the input device according to the present invention is applied to an input device having a relatively wide input operation surface such as a keyboard device for a personal computer. In spite of the user's input intention or preparation for the input operation, even if the user's finger is close to or in contact with the touch panel, false input operation by such proximity or contact, It can be distinguished from a true input operation, and information that is not related to the user's input intention can be prevented from being output to the personal computer. As a result, in a keyboard device using a capacitive touch panel and having a flat input operation surface, it is as reliable as a normal keyboard device configured using a key switch having a predetermined stroke and pressing reaction force. Input is possible.

  Furthermore, the input device according to the present invention may constitute, for example, an electronic device controller such as a remote controller of an AV device or an input portion of an electronic device such as a desktop electronic computer.

(7) And this invention also provides the electronic device (Claim 7) characterized by using the input device of any one of said (1)-(6).

(8) Moreover, this invention is the input control method of the input device for electronic devices provided with the operation part provided with the flat input operation surface and the capacitive touch panel in the one aspect | mode, Comprising: A step of detecting an input operation occurrence position on the input operation surface with a capacitive touch panel, and whether the input operation occurrence position corresponds to one or a combination of one or more predefined special positions. And when the occurrence position of the input operation corresponds to one or a combination of predefined special positions, one of the special positions is included in the input operation surface. Or providing an invalid area corresponding to each of a plurality of combinations, and determining that an input operation corresponding to a position included in the invalid area is false. That the input control method there is provided a (claim 8), thereby, the same effects as the input device of the above (1) term.

  Since the present invention is configured as described above, in an input device for an electronic apparatus having a flat input operation surface, it is possible to eliminate the possibility of erroneous input and improve operability.

It is a functional block diagram which shows the principal part of the input device which concerns on one Embodiment of this invention. It is a top view which shows typically a part of input device which concerns on one Embodiment of this invention. It is a figure which shows an example of the time fluctuation pattern of the load information corresponding to true input operation in the input device which concerns on one Embodiment of this invention. It is a flowchart which shows the part based on the time variation pattern of load information in the input control method of the input device which concerns on one Embodiment of this invention. In the input device which concerns on one Embodiment of this invention, it is a figure which shows typically the state when an ordinary state of an input operation surface and a special key are detected. It is a flowchart which shows the part based on discrimination | determination of a load area and the setting of an invalid area in the input control method of the input device which concerns on one Embodiment of this invention. It is a figure which shows the structure of the input device which concerns on one Embodiment of this invention, (a) is a top view, (b) is a front view, (c) is a right view. It is the exploded view which showed typically the component of the input device shown in FIG. FIG. 8 is a perspective view schematically showing a floating mechanism of the input device shown in FIG. 7. It is a top view which shows the electrostatic interruption | blocking means of a touchscreen of the input device shown in FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. As shown in FIG. 1, the input device in the present embodiment constitutes a keyboard device for a personal computer 28, and includes an electrostatic capacity panel 2, a load sensor 22, and an input control unit 12, and an input device. The control unit 12 includes a key code conversion unit 12A and a load response monitoring unit 12B.

  The capacitive panel 2 is a translucent capacitive touch panel, and constitutes a component of the operation unit of the input device. In the present embodiment, it is assumed that the capacitance panel 2 can detect the occurrence positions of a plurality of input operations occurring simultaneously. As will be described later with reference to FIGS. 6 to 8, the operation unit includes a flat input operation surface provided on the upper surface side of the capacitance panel 2, and the user operates the input operation surface corresponding to each key. An input operation is executed by touching a specific position with a finger or the like. At this time, the capacitance panel 2 detects a position where the input operation is generated based on a change in capacitance caused by the input operation, and the coordinate information is input to the key code conversion unit 12A of the input control unit 12. .

  Note that the present invention is not limited to a specific mode of the multiple position detection method in the capacitance panel 2, and based on the change in capacitance caused by the input operation, a plurality of inputs that are generated simultaneously. Any appropriate capacitive touch panel can be used as long as the operation occurrence position can be detected and the coordinate information can be output to the key code conversion unit 12A. Further, the input control unit 12 includes an appropriate capacitance panel drive unit (not shown) according to the mode of the capacitance panel 2, and hardware for this, and software if necessary Can be configured by applying a known technique.

In the present embodiment, as schematically shown in FIG. 2, the load sensors 22 are respectively provided at positions corresponding to the four corners on the lower side of the capacitance panel 2 and detect the load at these four points. Is. Each load value detected by each load sensor 22A, 22B, 22C, 22D is input as load information to the load response monitoring unit 12B of the input control unit 12 as a response to the load applied to the operation unit. This load value is continuously or intermittently input during the operation of the input device (or at least while the input operation is detected by the capacitance panel 2). The load response monitoring unit 12B The load values F _{A to} F _D and the time variation patterns (load response curves) for the load sensors 22A to 22D are monitored.

  In this embodiment, the input control unit 12 is configured as a general microcomputer system by a microcomputer, a ROM for storing software and various data, a RAM used for work, and necessary peripheral circuits. . At least main parts of the key code conversion unit 12A and the load response monitoring unit 12B are implemented as a microcomputer software routine, and include hardware such as an input / output interface circuit, if necessary. However, the input control unit 12 according to the present invention is not limited by its implementation, and is configured by any appropriate hardware or software, or a combination thereof as long as the input control operation described later is executed. It may be a thing.

  Next, a basic input control operation in the input device according to the present embodiment will be described with reference to the functional block diagram of FIG. As described above, the load response monitoring unit 12B monitors the load response curve obtained from the load sensor 22, and the shape of the curve is a predetermined value for determining a true input operation intentionally performed by the user. When the above criteria are satisfied, a keystroke valid signal is sent to the key code conversion unit 12A. Then, the key code conversion unit 12A receives the key code (output) defined for the key corresponding to the coordinate information input from the capacitance panel 2 only when the key response valid signal is received from the load response monitoring unit 12B. Information) is generated and output to the personal computer 28.

  Here, with reference to FIG. 3 and FIG. 4, the authenticity determination of the input operation based on the load response curve will be described. In the present embodiment, as shown in FIG. 3, two threshold values, a first threshold value A and a second threshold value B, are provided for the load value of the load response curve, and the first threshold value A is the peak value C. The second threshold value B is set to a value smaller than the first threshold value A (the time from when the load value exceeds the first threshold value A to when the load value falls below the second threshold value B is keyed. Called width W). In the present embodiment, the input operation is true when the load response curve includes a time point exceeding the first threshold A and the keystroke width W measured from that time point is within a predetermined reference time. The input operation is determined.

A preferred example of this input control operation will be described as follows. As shown in FIG. 4, the load response monitoring unit 12B monitors whether the load value exceeds the first threshold value A (S200). If the load value exceeds the first threshold value A (Yes), the keystroke width W from that point in time is monitored. This measurement is continued while the load value does not exceed the first threshold (No) (S210). During the measurement of the keystroke width W, the load response monitoring unit 12B monitors whether the load value falls below the second threshold value B. If the load value falls below the second threshold value B, the keystroke width W is measured at that time. The process ends (S220), and the process proceeds to the next step 230 (Yes). This measurement and monitoring is continued while the load value does not fall below the second threshold B (No). Then, in step S230, the load response monitoring unit 12B determines whether or not the measured keystroke width W is equal to or smaller than a predetermined true keystroke width (predetermined reference time). Yes), the input operation is regarded as true, and the process proceeds to the next step S240. If the keystroke width exceeds the true keystroke width (No), the process returns to step S200 and monitoring is continued. In step 240, the load response monitoring unit 12B validates the keystroke and sends a keystroke valid signal to the key code conversion unit 12A.
This makes it possible to effectively eliminate false input operations while utilizing the highly sensitive input detection of the capacitive touch panel, eliminate the possibility of erroneous input to the personal computer 28, and improve the operability of the input device. Can be improved.

In the present embodiment, the specific values of the first threshold value A and the second threshold value B can be appropriately set according to the specifications of the input device or through experiments or the like. Further, although the proper keystroke width is usually about 5 msec, it is similarly set appropriately according to the specifications of the input device or through experiments or the like.
Further, as shown in FIG. 3, the load response curve corresponding to the true input operation has a relatively steep peak initially having a peak value C, and gradually rises again after the fall of the curve. May appear, and the load value (valley value) D at the boundary may be used as the second threshold value B.

In addition, the input control operation described above with reference to FIGS. 1, 3, and 4 can be performed if the input device according to the present invention includes at least one load sensor 22. However, the load sensor 22 in the present embodiment, as shown in FIG. 2, includes a separate load sensor 22A~22D for detecting a load at four points, the load response monitor unit 12B, each load value F _A ~ since F _D is input, to determine the authenticity of the input operation, the load response curve of a plurality of load values F _a to F _D by individually or in combination may be used. In this case, the load response curve shown in FIG. 3 is, for example, selected one load curve or a plurality of load curves by an operation such as averaging in accordance with the usage method of the plurality of load values F _{A to} F _D. A typical load curve representing a load applied to the operation unit, such as a load curve after combination, is shown.

Furthermore, in the input device according to the present embodiment, the load area including the position of the load center of the load applied to the operation unit is specified using the load values F _{A to} F _D detected by the load sensors 22A to 22D. Can do. Although the present invention is not limited by the method for specifying (or calculating) the load area, for example, as a method for simply specifying the approximate load area, the load value detected by the two load sensors. , It can be used that the load sensor closer to the position of the load center detects a larger load value than the load sensor on the far side. Specifically, as in the present embodiment, when the load sensors 22A to 22D are arranged at the four corners of the input operation surface, four load areas (A) that divide the input operation surface with vertical bisectors on each side. To (D), it is possible to determine which of the areas (A) to (D) includes at least the position of the load center. For example, in FIG. 2, F _A > F _B , If F _A > F _D is established, it can be seen that the position of the load center is included in the load area (A).
Note that the load value used for specifying the load area is an average over a predetermined time width even if the load value at a predetermined point in the load response curve of each of the load values F _{A to} F _D is used. A value or the like may be used.

In the case of a true input operation intentionally performed by the user, the position of the load center is considered to substantially coincide with the contact position of the user's finger or the like in the input operation. Whether the position indicated by the coordinate information input to the input control unit 12 is included in the load area specified by the load values F _{A to} F _D from the load sensors 22A to 22D or not is true or false. Can be used as one of the criteria for discriminating.

Further, in the input device according to the present embodiment, special positions (for example, positions corresponding to the Ctrl key and the Fn key) for setting the bind function are generally defined at a plurality of locations. For example, the input control unit 12 Data defining a special position is stored in a storage means such as a ROM. For example, as shown in FIG. 5, when coordinate information corresponding to one of the special positions A1 (for example, a position corresponding to the Ctrl key) is input to the input control unit 12, the coordinate information is While an input is being performed, an invalid area A100 (shaded portion in the figure) corresponding to the special position A1 is provided in the input operation surface 6, and an input operation corresponding to a position included in the invalid area A100 is assumed to be false. It is to be determined. FIG. 5 shows an example in which the bind function in combination with the special position A1 is defined only for the key corresponding to the position A2 (hereinafter, such a key is referred to as a candidate key) for the sake of simplicity. In this case, the invalid area A100 corresponds to the entire area excluding the effective area consisting of the position A2 from the input operation surface 6.
Thus, for example, even when coordinate information corresponding to a position included in the invalid area A100, such as the position A3, is input to the input control unit 12, the input operation corresponding to the position A3 is determined to be false. The output of the output information to the personal computer 28 is stopped.
FIG. 5 illustrates the case where the bind function is set by an input operation on one special position A1, but the input device according to the present invention has a combination of two or more special positions (for example, Ctrl key + Alt). This includes the case where a bind function having an invalid area corresponding to the combination is set by the key).

Here, with reference to FIG. 6, a preferable example of the input control operation by the input control unit 12 of the input device in the present embodiment will be described in relation to the specification of the load area and the setting of the invalid area according to the special position. For example:
First, while monitoring the load response curves of the load sensors 22A to 22D, the load area is specified based on the load values F _{A to} F _D (S100), and then the coordinate information from the electrostatic panel 2 is supported. Next, in step S120, the number of keys specified in step S110 is determined, and when there is one or more keys (Yes), the control shifts to step S130 ( If there are a plurality of keys, the determination in step S130 is repeated a plurality of times). If there is no key at step S120 (No), the control shifts to step S160 and is set at this point (specifically, storage means such as a RAM provided in the input control unit 12). All the invalid areas (stored in (1)) are set as valid areas (S160).
In step S130, it is determined whether or not the key is a key corresponding to a special position (special key). If it is determined that the key is a special key (Yes), it is included in the load area specified in step S100. (S140), and if it is determined that it is included (Yes), an invalid area that invalidates other than the special key candidate keys is stored in the storage means to set (S145).
If it is determined in step S140 that the special key is not included in the load area (No), the input operation is regarded as false and the invalid area is not set.
If it is determined in step S130 that the key is not a special key (No), whether the key is not included in the currently set invalid area (that is, whether the position corresponding to the key is in the valid area). ), And if it is determined that the area is within the effective area (Yes) (after determining that this key is included in the load area, if necessary), refer to FIGS. The basic input operation described above is performed (S155). In step S130, when it is necessary to perform a combination operation associated with a combination with a special key, such as a change in output information (key code), the combination operation is performed.
In the routine consisting of steps after step S130, after the processing of one key (or the last one of a plurality of keys) is completed, this control returns to step S100, and the processing of step S160. The same applies to the rest.

  Thus, it is possible to reliably prevent an erroneous operation of the input operation for executing the binding function in combination with the input operation for the special position, and thus a malfunction of the personal computer 28 that may occur as a result. Further, by specifying the load area, it is possible to more surely and effectively eliminate false input operations, and as a result, a keyboard device using a capacitive touch panel and having a flat input operation surface. In this case, a reliable input equivalent to that of a normal keyboard device configured by using a key switch having a predetermined stroke and a pressing reaction force is possible.

  Note that the present invention is not limited to the implementation mode of the input control operation in the input control unit 12, but in terms of the functional block shown in FIG. 1, for example, specification of a key corresponding to coordinate information ( S110) is executed by the key code conversion unit 12A, the load area specification (S100) is executed by the load response monitoring unit 12B, and whether or not the specific key is included in the load area is determined by the load (S140). For example, the response monitoring unit 12B may receive and execute information on the key specified from the key code conversion unit 12B, and other steps are executed by the key code conversion unit 12A, for example. It may be a thing.

Next, a preferable configuration example of the input device according to the embodiment of the present invention will be described in detail with reference to FIGS. The input device shown in FIG. 7 is a keyboard device for a personal computer, and includes a shallow square dish-shaped lower case 1 having a horizontally long rectangular shape in plan view and a substantially inverted trapezoidal cross section. The lower case 1 is manufactured by synthetic resin molding, for example, ABS resin molding, and includes a leg portion 1a on the bottom surface. The lower case 1 houses a main part of a keyboard device that performs an input operation of information, specifically, a symbol by a touch described later.
Specifically, as shown in FIG. 8, the keyboard device includes a lower case 1 and a keyboard operation unit 10 that are formed separately and are connected to each other by a floating mechanism 14. It exhibits the appearance shown.

  The keyboard operation unit (operation unit) 10 includes a translucent capacitive panel 2, a symbol print film 3 on which an arbitrary symbol 3a (see FIG. 7) is printed, and a surface on which the symbol print film 3 is illuminated. The laminated body 5 with the backlight device 4 which is a light emitting layer is accommodated. In this case, the touch panel 2 is disposed on the upper surface side of the symbol printing film 3, in the illustrated example, and the backlight device 4 is disposed on the lower surface side of the symbol printing film 3, in the illustrated example. In the keyboard device according to the present embodiment, the input operation surface 6 located on the uppermost surface of the device is a flat surface without unevenness.

Furthermore, a translucent cover panel 7 is laminated on the upper surface side of the capacitance panel 2, in this embodiment, on the upper surface of the capacitance panel 2.
The cover panel 7 forms an outer shell of the keyboard operation unit 10 together with the tray 16, and is located at the uppermost part of the apparatus in a completed state. That is, the upper surface of the cover panel 7 forms the input operation surface 6 and is a flat surface without unevenness. The tray 16 is produced by synthetic resin molding, for example, ABS resin molding, similarly to the lower case 1, and has a depth that can accommodate a laminated structure inside the keyboard operation unit 10 described later, and overlaps the lower case 1. Thus, any device may be used as long as it has the form of a keyboard device for a personal computer as shown in FIG. Further, the cover panel 7 and the tray 16 are fixed by an appropriate method such as adhesion or fitting.

The cover panel 7 is formed by stacking a half mirror, a smoke panel, or a translucent plate or sheet (collectively referred to as a translucent panel) and a half mirror. In the present embodiment, as shown in FIG. 8, the translucent panel 8 and the half mirror 9 are laminated, and the half mirror 9 is disposed toward the capacitance panel 2 side.
In this embodiment, the translucent panel 8 consists of a transparent acrylic board or a transparent polycarbonate board. The half mirror 9 is made of, for example, a film-like or film-like half mirror, and is attached to the translucent panel 8 to constitute the cover panel 7.

The half mirror 9 is disposed toward the touch panel 2 side, that is, the translucent panel 8 is disposed toward the apparatus upper surface side for the following reason.
That is, when the translucent panel 8 is disposed toward the upper surface side of the apparatus, the uppermost surface of the apparatus, that is, the input operation surface 6 is the upper surface of the translucent panel 8. The acrylic plate and the polycarbonate plate forming the translucent panel 8 are all excellent in durability, impact resistance, insulation, and the like, and the keyboard device constituent members disposed on the lower surface side thereof, that is, the half mirror 9 and the touch panel 2, because the symbol printing film 3 and the backlight device 4 can be mechanically and electrically protected, particularly the half mirror 9 and the touch panel 2 located near the input operation surface 6.
In addition, the acrylic plate and the polycarbonate plate are excellent in translucency in addition to the above-mentioned durability, impact resistance, insulation, etc., and on the symbol printing film 3 through the half mirror 9 and the touch panel 2 on the lower surface side. The printed symbol 3a is excellent in visibility, and a flat surface without unevenness can be easily obtained. Further, the light-transmitting panel 8 (the upper surface forming member of the cover panel 7) is a material that can easily remove dirt and dirt such as human body oil and fat adhering to the surface and forms the input operation surface 6 on the uppermost surface of the keyboard device. It is because it becomes optimal.

  Since the cover panel 7 and the touch panel 2 have translucency as described above, the symbol 3a printed on the symbol printing film 3 on the lower surface of the capacitance panel 2 can be seen through on the uppermost surface of the apparatus (input operation surface 6). . When the cover panel 7 is composed of the translucent panel 8 and the half mirror 9, when the backlight device 4 is turned on, the symbol 3a printed on the symbol printing film 3 is replaced with the input operation surface 6 that forms the uppermost surface of the apparatus. You can see through clearly. In addition, when the backlight device 4 is turned off, the uppermost surface of the apparatus forming the input operation surface 6 is in a mirror state, and the effect as a mirror is exhibited.

The capacitance panel 2 touches the position of the desired symbol 3a with a finger or the like while seeing through the symbol group 11 printed on the symbol printing film 3 from the surface side, and information according to the position of the symbol 3a. This is a device for generating (symbol information) and outputting it. The touch panel 2 realizes a function as a keyboard device (a function of outputting information according to the symbol 3a instructed by touch) in cooperation with a touch panel drive circuit described later.
The capacitance panel 2 has an advantage that a touch panel excellent in translucency can be easily configured as compared with, for example, a resistive film type touch panel.

  Further, in the present embodiment, the half mirror 9 is a half mirror (dielectric half mirror) made of a dielectric multilayer film. This is to make it possible to use a film-like half mirror in the capacitance panel 2. In addition, according to the dielectric half mirror 9, when the keyboard device according to the present embodiment is not operated as a symbol input device (the capacitance panel 2 is in a non-operating state), only the backlight device 4 is in an operating state. In addition, a mirror surface colored according to the characteristics of the dielectric multilayer film can be obtained on the uppermost surface of the apparatus constituting the input operation surface 6.

The symbol printing film 3 is a positive state (positive image) or a negative state (negative image) at a predetermined position on a predetermined number of symbols 3a (symbol group 11) on the surface of the translucent substrate film. It refers to a printed film, i.e. a positive symbol printing film or a negative symbol printing film.
In the present embodiment, printing is performed in a pattern in which light is transmitted through the symbol 3a portion and only the symbol 3a appears with high brightness. For example, only the outline of the symbol 3a is printed, and black or the like is printed on the ground (background) portion. A negative symbol printing film that performs uniform printing in a dark color is used as the symbol printing film 3. The main reason for this is that only the outer frame portion of the printing area of the symbol 3a (symbol group 11) and the symbol group 11 appearing on the surface of the symbol printing film appears on the negative symbol printing, and the visibility and appearance are improved. It is.

A silk printing method is suitable as a printing method of the symbol 3a. In order to prevent malfunction of the capacitance panel 2, the symbol 3a is printed using ink that does not contain a metallic substance.
Printing on the symbol printing film 3 may be performed on the front surface (capacitance panel 2 side) or the back surface (backlight device 4 side) of the base film, or on both the front and back surfaces. Thus, it is possible to further enhance the effect that characters appear from the input operation surface 6. In addition, the cost can be reduced if it is applied to either the front or back side.
It has already been mentioned that symbols refer to letters, numbers, and other symbols, but in a keyboard device for a personal computer, various symbols related to a predetermined key arrangement, such as alphanumeric characters, function key symbols, and other special symbols. Point to. The symbols are arranged according to a predetermined key arrangement.

  As the backlight device 4, a sidelight type backlight device including an LED and a light guide plate is used in the present embodiment. In this case, the shape of the light guide plate (pattern) of the backlight device 4 so as to emit light only at the position corresponding to the symbol 3a that is actually illuminated so as to ensure the brightness of the symbol position and reduce the number of LEDs. Is formed. Instead of the sidelight type backlight device composed of the LED and the light guide plate, a backlight device composed of an inorganic EL light emitting element may be used. According to this, the keyboard device can be made thinner.

Further, in the present embodiment, the reflection plate 18 is provided so as to cover the lower surface of the backlight device 4. The reflection plate 18 is made of a reflective material such as a white resin or a silver-plated plate, and reflects light emitted to the outside from the lower surface of the backlight device 4 so as to re-enter the backlight device 4. Therefore, the reflecting function may be provided on the bottom surface of the tray 16 without providing the reflecting plate 18 independently.
Further, an input control unit 12 that performs an input control operation of the keyboard device is disposed on the lower surface of the tray 16 as a circuit board. The input control unit 12 includes other necessary circuits such as a capacitance panel driving circuit and a backlight device lighting / lighting circuit. The circuit board is fixed to the tray 16 by using an appropriate fixing means such as a tapping screw.

Moreover, between the touch panel 2 and the half mirror 9, the electrostatic shielding means 26 of the touch panel shown in FIG. 10 is provided. The antistatic means 26 is, for example, one in which an electrostatic shielding sheet divided into a key arrangement area 26 </ b> A and an electrostatic shielding area 26 </ b> B is arranged on the upper surface of the touch panel 2. And especially when a user operates the keyboard device for personal computers, the width | variety of the electrostatic shielding area | region 26B of the range located in this side is comprised so that it may become wide. In addition, it is essential that the electrostatic shielding region 26B is disposed on the near side, and other areas are provided as appropriate. In FIG. 7, the boundary line 26C between the two regions is indicated by a dotted line.
The antistatic means 26 may be a transparent resin sheet coated with an electrostatic shielding material, or may be coated directly on the touch panel 2 or the half mirror 9.

Here, with reference to FIG. 9, a specific structural example of the periphery of the floating mechanism 14 will be described. As shown in FIG. 9, the floating mechanism 14 includes a leaf spring member 20 made of an elastically deformable metal material such as stainless steel, and the keyboard operation unit 10 includes the leaf spring member 20 at one end thereof. The bottom case 1 is fixed and the other end is fixed to the keyboard operation unit 10, and the four cases are connected to each other, so that the lower case 1 stably holds the unit. For example, the leaf spring member 20 has an opening 20 formed at one end and the other end thereof, and a screw or the like is inserted into the opening 20 to form a boss formed on the tray 16 of the lower case 1 and the keyboard operation unit 10. It is screwed against. Further, the load sensor 22 is constituted by a strain gauge (similarly denoted by reference numeral 22) fixed to one surface of the leaf spring member 20, and is provided with a silicon coating.
When a load is applied to the keyboard operation unit 10, the bending of the leaf spring member 20 is induced. By detecting the bending of the leaf spring member 20 with this strain gauge 22, the load received by the floating mechanism 14 at each of the four points is reduced. The detection can be grasped. In addition, due to the elasticity of the leaf spring member 20, a vertical gap is always secured between the keyboard operation unit 10 and the lower case 1.
An edge wall (not shown) is formed on the tray 16 of the keyboard operation unit 10 so as to surround the lower case 1 so that the keyboard operation unit 10 can be smoothly displaced in the vertical direction with respect to the lower case 1. An appropriate clearance may be provided between the edge wall and the peripheral end portion of the lower case 1.

As described above, the embodiment of the present invention has been described using an application example to a keyboard device for a personal computer. However, the present invention is not limited to a keyboard device for other electronic devices, for example, an electronic device controller such as a remote controller for AV devices. It will be understood that the present invention can be similarly applied to an electronic desk calculator.
In the above-described embodiment, the input device includes the load sensor, and the configuration and the control method suitable for that case have been described. However, in the input device and the input control method according to the present invention, the input device is invalid according to the special position. The feature of providing an area and discriminating an input operation for a position included in the invalid area as false can be implemented regardless of the presence or absence of a load sensor.

  1: Lower case, 2: Capacitance panel, 3: Symbol printing film, 3a: Symbol, 4: Backlight device, 5: Laminate, 6: Input operation surface (upper surface of device), 7: Cover panel, 8 : Translucent panel, 9: Half mirror, 10: Keyboard operation unit, 11: Symbol group, 12: Input control unit, 12A: Key code conversion unit, 12B: Load response monitoring unit, 14: Floating mechanism, 16: Tray , 18: reflector, 20: leaf spring member, 22 (22A to 22D): load sensor (strain gauge), 26: electrostatic touch-off means for touch panel, 28: personal computer, A: first threshold, B: second Threshold value, C: Peak value, D: Valley value, W: Keystroke width, A1: Special position, A2: Candidate position, A3: Position (determined as false input), A100: Invalid area

Claims (8)

An input device for an electronic device, an operation unit including a flat input operation surface, and a capacitive touch panel that detects a position where the input operation is generated on the input operation surface, and the input operation from the touch panel An input control unit that outputs the output information corresponding to the coordinate information to the electronic device only when the coordinate information of the generation position is input and the true / false of the input operation is determined and determined to be true ,
When the coordinate information corresponding to one or a plurality of combinations of predefined special positions is input, the input control unit includes the special input within the input operation surface while the coordinate information is being input. An input device comprising an invalid area corresponding to each of one or a plurality of combinations of positions, and determining that an input operation for a position included in the invalid area is false.   A load sensor that detects a load applied to the operation unit and outputs load information to the input control unit is further provided, and the input control unit is configured to input the input based at least in part on a time variation pattern of the load information. The input device according to claim 1, wherein authenticity of the operation is determined.   The criterion for determining that the input operation is true based on the time variation pattern of the load information is that a time point exceeding the first threshold exists in the time variation pattern of the load information, and the first threshold is The input device according to claim 2, wherein the time from the time when the time is exceeded to the time when the time falls below the second threshold is less than or equal to a predetermined reference time.   The load sensor detects a load applied to the operation unit at at least three points, and the input control unit applies a load applied to the operation unit within the input operation surface based on load information from the at least three points. The load area including the load center is identified, and the authenticity of the input operation is determined based at least in part on whether the position indicated by the coordinate information input from the touch panel is included in the load area. The input device according to claim 2, wherein the input device is an input device.   A lower case separate from the operation unit; and a floating mechanism that connects the operation unit and the lower case at at least three points. The floating mechanism is arranged vertically on the operation unit and the lower case. 5. A leaf spring member for connecting the two in a state in which a gap in the direction is secured, and a strain gauge fixed to the leaf spring member for constituting the load sensor. The input device according to claim 1   6. The input device according to claim 1, wherein the input device is a keyboard device for a personal computer.   An electronic apparatus using the input device according to claim 1. An input control method for an input device for an electronic device, including an operation unit including a flat input operation surface and a capacitive touch panel,
Detecting an occurrence position of an input operation on the input operation surface with the capacitive touch panel;
Determining whether the occurrence position of the input operation corresponds to one or a combination of predefined special positions;
When the occurrence position of the input operation corresponds to one or more combinations of predefined special positions, each of the one or more combinations of the special positions is included in the input operation surface. A step of providing a corresponding invalid area,
Determining an input operation corresponding to a position included in the invalid area as false;
An input control method comprising: