JP2004127072A - Instruction input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an instruction input device capable of successively outputting instruction position data indicating an instruction inputting position, detecting a depressing operation at a prescribed input operation position and selectively quickly performing display of reference information (14) and execution of a prescribed instruction with a simple operation for instruction input information (7). <P>SOLUTION: The instruction input device is constituted so that a display panel (3) capable of displaying optional pieces of instruction input information (7), a first touch panel (4) which detects depression and at least outputs depression detection data and a second touch panel (6) which detects instruction input to an input operation area (5A) in which a display area can visually be observed and outputs instruction position data indicating the instruction input position are laminated, when the instruction position data are in an instruction input area (8) with which display of the prescribed reference information (14) is associated, displays the reference information (14) by overlapping it on the display area, when the instruction position data are in the instruction input area (8) with which a prescribed instruction is associated and the depression detection data are outputted, executes the instruction. The display of the reference information (14) and the execution of the prescribed information can selectively be executed by an operation for transferring an instructing position or performing depression at the instructing position, in the input operation area (5A). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an instruction input device for displaying reference information or executing a predetermined instruction while watching instruction input information displayed on a display panel. The present invention relates to an instruction input device that displays detailed reference information or instructs execution of a predetermined instruction indicated by instruction input information.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an instruction input device in which a touch panel for detecting an indicated position is laminated on a display panel formed of a CRT or a liquid crystal display device has been known (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-B 8-33797 (page 1-2), FIG. 4)
[0004]
Various instruction input information is displayed on the display panel, and the operator presses the touch panel on the instruction input information while viewing these displays.
[0005]
The touch panel is formed of, for example, a pressure-sensitive resistance tablet, and the tablet detects a press on the touch panel and a pressed position. The touch panel detects a press and a pressed position, and when the pressed position is within a specific instruction input area of the display panel, executes a predetermined instruction associated with the instruction input information. The operator can execute a predetermined command by pressing a display portion of specific instruction input information while viewing the instruction input information displayed on the display panel.
[0006]
However, when the touch panel is pressed, the touch input data is always output together with the touch position data indicating the touch position, and the press detection data indicating the detection of the touch is pressed. Therefore, a predetermined command is executed each time the touch position is moved. It is possible to move only the cursor without executing a predetermined instruction on the display panel, or to display reference information at the display position of the instruction input information, and then execute another instruction such as switching the display screen. Did not.
[0007]
Therefore, there is known an instruction input device 100 that selectively outputs instruction position data indicating an instruction position and press detection data indicating a pressing operation by corresponding specific operations, respectively. As long as is output, the pressure detection data is not output, and the pointing position data does not change without moving the pointing input position for a predetermined time, so that the pressing detection that is output when the mouse switch is pressed is performed. Simulated output of data.
[0008]
Hereinafter, this conventional instruction input device 100 will be described with reference to FIGS. 4 and 5. The instruction input device 100 includes a liquid crystal display panel 102 and a transparent glass substrate 103 for protecting the surface of the liquid crystal display panel 102 from below. , An optical touch panel 104 is stacked.
[0009]
The liquid crystal display panel 102 displays a plurality of pieces of instruction input information 105 at predetermined positions in a display area of the liquid crystal display panel 102 by a liquid crystal driver (not shown) according to the purpose of inputting instructions. Around the instruction input information 105, an instruction input area 106 (displayed by a broken line in the figure) associated with display of predetermined reference information and / or a predetermined instruction is set as necessary.
[0010]
The optical touch panel 104 sequentially scans the light emitting elements 108 attached along two orthogonal sides of the rectangular frame 107, and arranges them corresponding to the opposing positions with the input operation area 107A in the rectangular frame 107 interposed therebetween. The received light is received by the light receiving element 109.
[0011]
When the operator places a pen or a finger at a predetermined instruction input position in the input operation area 107A, the scanning light path passing through the instruction input position is interrupted, and the light receiving elements 109 on the optical path form a pair of light emitting elements. By not receiving light at the light emission timing of the element 108, the coordinates of the designated input position are detected.
[0012]
Since the input operation area 107A surrounded by the rectangular frame 107 is on the display area of the liquid crystal display panel 102, the operator views the instruction input information 105 of the liquid crystal display panel 102 from above through the transparent glass substrate 103. The user can input an instruction.
[0013]
FIG. 5 shows an example in which this conventional instruction input device 100 is used for in-store guidance of a large commercial store. Before an instruction input operation on the instruction input device 100, an initial screen shown in FIG. 5A is displayed in a display area. Have been.
[0014]
As shown in (b), when the operator puts a finger into the input operation area 107A, a part of the operation light path is interrupted by the finger, and the instruction input device 100 sets the position of the finger as an instruction input position. The data is output, and an arrow cursor is displayed at a position corresponding to the instruction input position on the liquid crystal display panel 102 to indicate that the instruction input has been detected.
[0015]
In the figure, indications such as “first floor”, “second floor”, and “third floor” are instruction input information 105 that the operator refers to at the time of instruction input operation. Indicates the boundaries of the instruction input area 106 set at the display positions of the respective instruction input information 105.
[0016]
When the instruction input position is within the specific instruction input area 106, the instruction input device 100 superimposes the dialog box and displays the reference information, and as shown in FIG. Assuming that the operator moves his / her finger on the instruction input information 105 displayed as “fifth floor” and the instruction input position is within the instruction input area 106a, the products “stationery, toys, camera, precious metal” handled on “fifth floor” Is displayed in the dialog box 110. Similarly, when the finger is moved over another instruction input information 105 in which the instruction input area 106 is set, reference information on the instruction input information is displayed in the dialog box 110.
[0017]
Since the instruction input device 100 does not output the pressure detection data in such a normal operation, the instruction input device 100 generates and outputs the pressure detection data on the condition that the instruction input position does not change for a predetermined time, for example, about 10 seconds. . Therefore, when an operation such as switching of a display screen, execution of a specific displayed icon, or the like, which is normally performed by pressing the left switch of the mouse and performing an input operation, is requested, the instruction input information in which the instruction input area 106 is set is set. By pressing the finger on the button 105 for 10 seconds or more and keeping the instruction input position unchanged, the pressure detection data is output.
[0018]
For example, when the operator wants to switch the display screen in order to see the “fifth floor” in more detail, the finger on the instruction input information 105 of “fifth floor” is stopped for a predetermined time, and the pressing detection data is displayed. Output.
[0019]
The instruction input device 100 may execute the instruction associated with the instruction input area 106a, in this example, “switch the display screen, on the condition that the instruction input position is in the instruction input area 106a and the pressure detection data is output. The command “display the details of the fifth floor” is executed, and the display screen is switched to the display screen of FIG.
[0020]
On the display screen of (d), a plurality of instruction input information 105 indicating each store on the “fifth floor” is displayed, and an instruction input area 106 is set for each of them. To execute the associated instruction, the user stops the finger on the instruction input information 105 and executes the instruction.
[0021]
The switching of the display screen is performed such that, for example, if the operator removes the pen or the finger from the input operation area 107A of the optical touch panel 104, the display always returns to the initial screen of FIG. When switching to the previous screen or the next screen already displayed, a finger or the like is moved onto the instruction input information 105 displayed as “previous screen” or “next screen” displayed on the display screen (d). Move and stop for a predetermined time.
[0022]
[Problems to be solved by the invention]
In the above-described conventional instruction input device 100, by sequentially outputting different instruction position data, it is possible to control the movement of the cursor in accordance with the instruction input position, display a dialog box, and set the instruction input position for a predetermined time. It is possible to stop and output the pressure detection data to execute a predetermined command.
[0023]
However, since the predetermined command cannot be executed unless the instruction input is stopped for a predetermined time, the operation is time-consuming and cumbersome, and conversely, the instruction input position is stopped by checking the display in the dialog box 110 or the like. However, there is a problem that the press detection data is output erroneously, the display screen is switched, or a predetermined command is executed.
[0024]
For this reason, a push button switch for separately generating press detection data is provided, and an instruction input device for pressing the push button switch when outputting the press detection data and executing a predetermined command is also known. It is necessary to secure a separate mounting space, and furthermore, it is necessary to depress the push button switch while continuing the instruction input operation, so that there is a problem that the operation cannot be performed with one hand.
[0025]
Further, in the conventional instruction input device 100 having a gap between the display panel and the touch panel for obtaining the instruction position data, the parallax between the instruction input position recognized by the operator and the instruction input position detected by the touch panel is different. Therefore, there is a problem that a normal operation feeling cannot be obtained.
[0026]
For example, in FIG. 4, even though the operator intends to place his / her finger at the position of X1 on the instruction input area 106, the position at which the scanning optical path of the optical touch panel 104 is interrupted is the position of X2 which is off the instruction input area 106. In some cases, the display is not displayed even if an operation is performed to obtain reference information on the instruction input area 106.
[0027]
The present invention has been made in consideration of such a conventional problem, and sequentially outputs designated position data indicating a designated input position, can detect a pressing operation at a predetermined input operation position, and can perform a designated operation. It is an object of the present invention to provide an instruction input device capable of promptly and selectively executing display of reference information and execution of a predetermined command with simple operation.
[0028]
It is another object of the present invention to provide an instruction input device that can provide a normal operation feeling even if there is a gap between a display panel and a touch panel for obtaining instruction position data.
[0029]
[Means for Solving the Problems]
[0030]
The instruction input device according to claim 1 detects a pressing on a display panel capable of displaying arbitrary instruction input information in a display area, and a transparent touch panel sheet stacked on the display panel and arranged on the display area. A first touch panel that outputs at least pressure detection data, and an instruction position that is stacked on the first touch panel and that indicates an instruction input to an input operation area in which a display area is visible through a touch panel sheet, and indicates an instruction input position. A second touch panel for outputting data,
When the designated position data is in the designated input area set at the designated input information display position, and the designated designated input information is associated with the designated designated input area, the designated reference information is displayed over the display area. When the designated position data is in the designated input area set at the display position of the designated input information, a prescribed command is associated with the designated input area, and when the press detection data is output, the designated position data is output. It is characterized in that a predetermined command associated with the input area is executed.
[0031]
The display area of the display panel is visible from the input operation area of the second touch panel, and the operator can input an instruction by inserting a finger or the like into the input operation area while viewing the instruction input information. When an instruction is input by placing a finger or the like on the instruction input area associated with the display of the instruction input information, the reference information associated with the instruction input area is displayed in a superimposed manner on the display area. Therefore, the operator can see more detailed reference information by placing a finger or the like on the displayed specific instruction input information.
[0032]
Further, when the touch panel sheet of the first touch panel is pressed in the instruction input area set at the display position of the instruction input information, pressure detection data is output, and when a predetermined instruction is associated with the instruction input area, Executes the instruction.
[0033]
The first touch panel, which detects the pressing and outputs the pressing position data, is stacked on the display panel, so that the first touch panel also acts as a substrate for protecting the surface of the display panel from external force, and a transparent glass conventionally attached for protection. Since the device can be mounted instead of the substrate, the device does not increase in size.
[0034]
According to a second aspect of the present invention, there is provided an instruction input device configured to detect a pressing on a display panel capable of displaying arbitrary instruction input information in a display area and a transparent touch panel sheet stacked on the display panel and arranged on the display area. A first touch panel that outputs pressing position data indicating a pressing position and pressing detection data indicating detection of pressing, and an input operation area that is stacked on the first touch panel and whose display area can be viewed through a touch panel sheet. A second touch panel that detects an instruction input and outputs instruction position data indicating the instruction input position;
When the designated position data is in the designated input area set at the designated input information display position, and the designated designated input information is associated with the designated designated input area, the designated reference information is displayed over the display area. When the pressed position data is in the instruction input area set at the display position of the instruction input information, a predetermined instruction is associated with the instruction input area, and when the pressure detection data is output, the instruction is issued. It is characterized in that a predetermined command associated with the input area is executed.
[0035]
The display area of the display panel is visible from the input operation area of the second touch panel, and the operator can input an instruction by inserting a finger or the like into the input operation area while viewing the instruction input information. When an instruction is input by placing a finger or the like on the instruction input area associated with the display of the reference information, the reference information associated with the instruction input area is displayed over the display area. Therefore, the operator can see the detailed reference information only by placing a finger or the like on the displayed specific instruction input information.
[0036]
When the user touches the touch panel sheet on the instruction input area set at the display position of the instruction input information, the first touch panel outputs pressure detection data and the pressed position data in the instruction input area, and the instruction input is performed. When a predetermined command is associated with an area, the command is executed.
[0037]
Since an error due to parallax does not occur between the pressed position recognized by the operator and the pressed position data detected by the first touch panel, the predetermined command can be executed with a normal operation feeling.
[0038]
Since the first touch panel that outputs the pressure detection data and the pressure position data is stacked on the display panel, the first touch panel also functions as a substrate that protects the surface of the display panel from external force, and a transparent glass that is conventionally attached for protection. Since the device can be mounted instead of the substrate, the device does not increase in size.
[0039]
According to a third aspect of the present invention, in the instruction input device, the second touch panel includes a plurality of light-emitting scanning units and a plurality of light-receiving units arranged along a rectangular frame so that each pair of the light-emitting scanning units and the light-receiving units face each other. In addition, the optical touch panel is characterized by being an optical touch panel having an input operation area within a rectangular frame.
[0040]
In the input operation area, the display area of the display panel can be visually observed inside the area surrounded by the rectangular frame without using a transparent material.
[0041]
Further, since no pressing force is required for inputting an instruction on the second touch panel, the first touch panel is not erroneously pressed by the instruction input operation on the second touch panel, and the pressing detection data is not output.
[0042]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the instruction input device 1 according to the present invention will be described with reference to FIGS. The instruction input device 1 according to the present embodiment is used for a guide device for introducing a store in a facility of a large commercial facility, and is attached along the surface of a housing of the guide device (not shown).
[0043]
FIG. 1 is an exploded perspective view of the instruction input device 1. The instruction input device 1 includes a liquid crystal display panel 3 and a pressure-sensitive resistance touch panel 4 arranged in a case 2 made of synthetic resin and a rectangular frame 5. Is mounted on the case 2 to form an optical touch panel 6 disposed on the touch panel 4.
[0044]
The case 2 is formed in a square shape that opens outward (upward in FIG. 1), and cables connecting the liquid crystal display panel 3 and the pressure-sensitive resistive touch panel 4 housed in the square shape to these drive circuits, respectively, It is drawn out from an opening (not shown) formed around the square shape.
[0045]
The pressure-sensitive resistive touch panel 4 is stuck and adhered along the surface of the liquid crystal display panel 3, and water droplets, dust, and the like do not enter the pressure-sensitive resistive touch panel 4 and the liquid crystal display panel 3. The periphery of the pressure-sensitive resistive touch panel 4 and the inner wall surface of the case 2 are fixed in a sealed state with an adhesive.
[0046]
The liquid crystal display panel 4 can display arbitrary instruction input information 7 for inputting an instruction at an arbitrary position in a display area, and these display controls are performed by a liquid crystal driver (not shown).
[0047]
Here, since the instruction input device 1 is used as a guide device for introducing a store in a facility of a large commercial facility, as shown in FIG. 3, each floor of the commercial facility, a product handled on each floor, a store name on each floor, and the like. The instruction input information 7 is variably displayed according to the operation of the operator.
[0048]
In the instruction input information 7, an instruction input area 8 (indicated by a broken line in the drawing) in which a predetermined reference information 14 is displayed and / or a predetermined instruction is associated is virtually set as necessary. The instruction input area 8 is defined by a rectangular boundary surrounding the instruction input information 7 on the display area, and the boundary is represented by position coordinates in the X and Y directions corresponding to the position of the display area.
[0049]
In addition, on the back of the liquid crystal display panel 3, a reflective film is attached to the back, and a backlight panel (not shown) that scatters light from a backlight light source and illuminates from the back side of the liquid crystal display panel 3 is arranged. The input information 7 is easy to see.
[0050]
As shown in FIG. 2, the pressure-sensitive resistive touch panel 4 includes a movable plate 4A and a fixed plate 4B that are stacked at a small interval by a dot-like spacer formed on the opposing surface. A transparent conductor layer made of ITO (indium tin oxide) or the like is adhered to the opposing surfaces of the movable plate 4A and the fixed plate 4B at a uniform film pressure, and the film thickness is made uniform. The resistance value per unit length at each position of the conductor layer is made equal.
[0051]
On both sides of each of the conductive layers of the movable plate 4A and the fixed plate 4B, a pair of band-shaped electrodes (not shown) made of silver are printed, respectively, and the opposing direction (X direction) of the pair of band-shaped electrodes on the movable plate 4A side. And the opposite direction (Y direction) of the pair of strip electrodes on the fixed plate 4B side is a direction orthogonal to each other.
[0052]
The detection of pressure by the pressure-sensitive resistive touch panel 4 is performed by applying a predetermined voltage to one of the conductive layer of the movable plate 4A and the conductive layer of the fixed plate 4B (hereinafter, simply referred to as the movable plate 4A and the fixed plate 4B for explanation). Is applied, the movable plate 4A and the fixed plate 4B come into contact by pressing, and the other potential to which no voltage is applied exceeds the threshold value, so that pressing is detected.
[0053]
The threshold value set here is set so that the detected potential is exceeded only when the movable plate 4A is pressed with a force equal to or greater than a predetermined pressing force and the contact resistance with the fixed plate 4B decreases to a predetermined value. By setting the threshold value in this way, the pressing is not detected unless the operator intentionally presses the movable plate 4A.
[0054]
The detection of the pressed position is performed by applying a detection voltage to one of the strip electrodes of the movable plate 4A, forming an equal potential gradient in the X direction on the conductive layer, reading the potential at the pressed position from the fixed plate 4B, The X coordinate of the pressed position is detected.
[0055]
Subsequently, similarly, a detection voltage is applied to one of the strip electrodes of the fixed plate 4B to form an equal potential gradient in the Y direction in the conductive layer, and the potential at the pressed position is read from the movable plate 4A, and the potential at the pressed position is read. Detect the Y coordinate.
[0056]
The detection of the pressed position is repeatedly performed by alternately forming a potential gradient on the movable plate 4A and the fixed plate 4B as long as the pressed position is detected. When the pressed position moves, the pressed position that changes each time is detected. Then, the pressed position data including the X coordinate and the Y coordinate is output.
[0057]
The optical touch panel 6 includes a frame 5 placed on the case 2, a large number of light emitting elements 9 and light receiving elements 10 arranged along the frame 5, and an area surrounded by the frame 5 is The input operation area 5A allows the user to input an instruction input position using the touch panel 6. As shown in FIG. 1, the light emitting elements 9 are arranged at equal intervals inward along two sides of the frame body 5 in the X and Y directions perpendicular to each other, and the light receiving elements 10 forming a pair are arranged in the input operation area 5A. Are disposed in the frame 5 facing the individual light emitting elements 9 with the.
[0058]
When the light emitting elements 9 arranged as described above are sequentially scanned for light emission, a mesh-like scanning optical path indicated by a broken line in FIG. 3 is formed in the input operation area 5A. Therefore, when the operator places the pen or finger 11 at a predetermined instruction input position in the input operation area 5A, the scanning optical paths in the X and Y directions passing through the instruction input position are cut off, and the light receiving element 10 on the optical path is blocked. However, since the light of the light emitting element 9 is not received at the light emission timing of the light emitting element 9 forming a pair, the X and Y coordinates of the designated input position are detected.
[0059]
The input operation area 5 </ b> A surrounded by the frame 5 is on the display area of the liquid crystal display panel 3, and the operator inputs the instruction input information 7 displayed on the liquid crystal display panel 3 through the transparent pressure-sensitive resistive touch panel 4. An instruction can be input while looking from above.
[0060]
Hereinafter, the operation of the instruction input device 1 will be described with reference to FIG. 3 in comparison with FIG. 5 showing a conventional example.
[0061]
When the instruction input device 1 is in a standby state, that is, before the operator inserts the finger 11 into the input operation area 5 </ b> A in the frame 5, the light emitted from each light emitting element 9 of the optical touch panel 6 emits a predetermined light. The light is received by the light receiving elements 10 forming a pair at the scanning timing, and no instruction input is detected. In this standby state, an initial screen shown in FIG. 3A is displayed in the display area of the liquid crystal display panel 3.
[0062]
On the initial screen, each instruction input information 7 for guiding each floor of the department store is displayed on a liquid crystal, and the instruction input areas indicated by broken lines in the figure are respectively displayed at the display positions of the characters "1st floor" to "9th floor". 8 is set.
[0063]
As shown in FIG. 3B, when the operator puts the finger 11 into the input operation area 5A, a part of the mesh-shaped scanning optical path is interrupted by the finger 11, and the scanning optical path extends on the extension of the optical path in the X and Y directions. Each of the arranged light receiving elements 10 does not receive the light from the light emitting element 9 forming a pair at a predetermined scanning timing, so that the instruction input to the input operation area 5A is detected, and the instruction input position of the finger 11 is input. The designated position data as the position is output.
[0064]
When an instruction input to the input operation area 5A is detected, an arrow cursor 13 is displayed at a position on the display area of the liquid crystal display panel 3 corresponding to the detected instruction position data, and the instruction input position detected by the optical touch panel 6 is displayed. Shown to the operator. However, since the display by the cursor 13 is hidden by the operator's finger 11, it is not always necessary to display the display.
[0065]
In the instruction input device 1, the detected instruction position data is located in a specific instruction input area 8, that is, the detected instruction position data is located within the boundary of the position coordinates in the X and Y directions indicating the area of the instruction input area 8. When the display of the predetermined reference information 14 is associated with the instruction input area 8, the dialog box 12 is displayed in an overlapping manner, and the reference information 14 is displayed in the dialog box 12.
[0066]
As shown in FIG. 4C, the operator moves the finger 11 on the instruction input information 7 indicating "5th floor", and sets the instruction input position of the instruction input area 8a for "5th floor". If it is within the area, the reference information 14 of the product “stationery, toy, camera, precious metal” handled on the “fifth floor” is displayed in the dialog box 12. Similarly, if the finger 11 is moved using the displayed instruction input information 7 as a guide in another area of the instruction input area 8 to which the display of the reference information 14 is associated, the reference information relating to the instruction input information 7 is obtained. 14 is displayed in the dialog box 12.
[0067]
In the operation of moving the instruction input position, the finger 11 is moved within the input operation area 5A, and the movable plate 4A of the pressure-sensitive resistive touch panel 4 disposed below the input operation area 5A is touched and the fixed plate 4B is moved. Contact may occur, but unless the movable plate 4A is pressed with a predetermined pressing force, the pressure does not exceed the threshold and is not recognized as pressing, so that no pressing detection data is output. Therefore, the operator can move the instruction input position on the optical touch panel 6 while lightly tracing the movable plate 4A on the display area.
[0068]
On the other hand, when the operator consciously presses the movable plate 4A with a predetermined pressing force, the pressure-sensitive resistive touch panel 4 outputs the pressing detection data and displays the pressing position data indicating the pressing position by the X and Y coordinates. Output. The press detection data is equivalent to data output when the left switch of the mouse is normally pressed, and an operation of moving the finger 11 in the input operation area 5A while watching the display on the display panel 3 is an input operation. When the mouse is used as the device, the operation of moving the mouse and controlling the movement of the cursor 13 on the display panel 3 corresponds to the operation of pressing the movable plate 4A of the pressure-sensitive resistive touch panel 4, and the operation of pressing the left switch of the mouse. Corresponds to the operation.
[0069]
When an instruction input position in the input operation area 5A is within a specific instruction input area 8, and the instruction input area 8 is associated with a predetermined instruction, the instruction is executed.
[0070]
For one instruction input area 8, the display of the predetermined reference information 14 and each of the predetermined instructions may be associated with each other in an overlapping manner. For example, the display of the reference information 14 of "stationery, toys, camera, precious metal" The instruction to display the screen shown in FIG. 3D on the liquid crystal display panel 3 is associated with the instruction input area 8a associated with.
[0071]
Therefore, in order to see the “fifth floor” on which the reference information 14 is displayed in more detail, when the operator attempts to switch the display screen, the movable plate 4A is moved with the finger 11 on the “fifth floor” display. Press to output the pressed position data.
[0072]
The instruction input device 1 displays the instruction “corresponding to the instruction input area 8a by switching the display screen to display the details of the fifth floor because the pressed position data is in the instruction input area 8a and the pressure detection data is output. Is executed, and the display screen is switched to the display screen of FIG.
[0073]
On the display screen of (d), a plurality of new instruction input information 7 indicating each store on the “fifth floor” are displayed, and a predetermined instruction (for example, the position of the store, the product handled by the store) is displayed. Is displayed, the instruction input area 8 is set. The movable plate 4A on the instruction input information 7 is similarly pressed with the finger 11 when the detailed display of the store is desired.
[0074]
If the finger 11 is removed from the input operation area 5A during a series of operations on the instruction input device 1, the instruction position data is not output, and the cursor and the reference information 14 displayed in the display area are not displayed. Since the display screen itself does not execute the switching command, the display screen is maintained here. That is, after the display screen is switched from FIG. 3 (c) to FIG. 3 (d), even if the finger 11 that has been temporarily inputting the instruction is removed from the input operation area 5A and rests, the display is displayed on the initial screen or the like. The screen does not return.
[0075]
For switching the display screen, for example, as shown in the display screen of (d), instruction input information 7 such as “previous screen”, “next screen”, “initial screen” is displayed, and a display screen switching instruction is issued for each. Since the associated instruction input area 8 is set, the movable screen 4A is pressed on the desired instruction input information 7 to switch the display screen.
[0076]
In the present embodiment, when a predetermined command is executed, the pressing position data indicating the pressing of the pressure-sensitive resistive touch panel 4 stuck and adhered along the surface of the liquid crystal display panel 3 is compared with the instruction input area. Therefore, there is no displacement of the position sense due to parallax between the pressed position conscious of the operator and the instruction input area, and a normal operation interval can be obtained.
[0077]
However, if a slight shift in the sense of position can be ignored, the instruction input data output from the optical touch panel 6 is compared with the instruction input area, and a predetermined instruction is executed on condition that the pressure detection data is output. Alternatively, in this case, the touch panel stacked on the display panel may be a switch panel having only a function of simply detecting pressure and outputting pressure detection data.
[0078]
In the above-described embodiment, the instruction input information 7 in which the display of the reference information 14 or the instruction input area 8 associated with the predetermined instruction is set is distinguished from the instruction input information 7 intended only for other display. In order to do so, it may be displayed in a specific color and color-coded. Further, the instruction input information 7 is not limited to a specific character, but may be a graphic display such as an icon.
[0079]
Further, in the above-described embodiment, the optical touch panel 6 and the pressure-sensitive resistive touch panel 4 are used. As long as the touch panel is not affected, various types of tablets such as a magnetic coupling type, a capacitive coupling type, a contact type, and a sound / vibration coupling type can be used as these touch panels. Further, the display panel is also a liquid crystal display panel, but may be any display panel such as a cathode ray tube or a plasma display, as long as it can display various kinds of instruction input information at arbitrary positions on a plane.
[0080]
In addition, the instruction input has been described with an example in which the operation is performed with a finger, but another instrument dedicated to instruction input such as a pen may be used.
[0081]
【The invention's effect】
As described above, according to the present invention, it is possible to sequentially output the designated position data indicating the designated input position, and output the pressed detection data by pressing the first touch panel at a predetermined input operation position. The display of the reference information 14 and the execution of the predetermined command can be selectively controlled in a series of operations.
[0082]
Further, since the first touch panel can be mounted in its mounting space instead of the transparent protective substrate for protecting the display area of the display panel, the provision of the first touch panel does not increase the size of the instruction input device.
[0083]
According to the invention of claim 2, further, the pressed position data output by pressing the first touch panel disposed on the display area is compared with the instruction input area set at the display position of the instruction input information. In addition, there is no error due to parallax between the pressed position at which a predetermined command is pressed to execute the command and the display position of the instruction input information indicating the command, and a normal operation feeling can be obtained.
[0084]
Further, according to the third aspect of the present invention, the second touch panel detects the instruction input position without performing the pressing operation. Therefore, in the operation on the second touch panel, the first touch panel is erroneously pressed and the pressing detection data is generated. There is no output.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an instruction input device 1 according to the present invention.
FIG. 2 is a longitudinal sectional view of the instruction input device 1.
FIG. 3 shows an operation on the instruction input device 1 and a display on a display panel 3;
(A) shows a standby state in which the initial screen is displayed before the instruction input operation,
(B) shows a moving operation state in which the finger 11 is moved within the input operation area 5A and the cursor 13 is displayed at an instruction input position by the finger 11;
(C) moves the finger 11 over the specific instruction input information 7, and displays the instruction input state in which the reference information 14 related to the instruction input information 7 is displayed in the dialog box 12.
(D) shows a pressing operation state in which the user presses on the specific instruction input information 7 and the display screen is switched and displayed by an instruction related to the instruction input information 7.
It is explanatory drawing shown respectively.
FIG. 4 is a longitudinal sectional view of a conventional instruction input device 100.
FIG. 5 shows an operation on the instruction input device 100 and a display on the display panel 102;
(A) shows a standby state in which the initial screen is displayed before the instruction input operation,
(B) shows a moving operation state in which a finger is put in the input operation area 107A and a cursor is displayed at an instruction input position by the finger;
(C) moves the finger over the specific instruction input information 105, and displays the instruction input state in which the reference information 14 relating to the instruction input information 105 is displayed in the dialog box 110;
(D) shows the pressing operation state in which the finger on the specific instruction input information 105 is stopped for a predetermined time, and the display screen is switched and displayed by a command related to the instruction input information 105;
It is explanatory drawing shown respectively.
[Explanation of symbols]
1 Instruction input device
3 display panel (liquid crystal display panel)
4 First touch panel (pressure-sensitive resistive touch panel)
4A Touch panel sheet (movable plate)
5 rectangular frame
5A input operation area
6 Second touch panel (optical touch panel)
7 Instruction input information
8 Instruction input area
9 Emission scanning unit (light emitting element)
10 Light-receiving part (light-receiving element)
14 Reference information

Claims (3)

A display panel (3) capable of displaying arbitrary instruction input information (7) in a display area;
A first touch panel (4) that detects a press on a transparent touch panel sheet (4A) that is stacked on the display panel (3) and disposed on the display area, and outputs at least press detection data;
An instruction input to an input operation area (5A) which is stacked on the first touch panel (4) and whose display area is visible via the touch panel sheet (4A) is detected, and instruction position data indicating an instruction input position is output. A second touch panel (6),
The designated position data is in the designated input area (8) set at the display position of the designated input information (7), and the designated input information (8) is associated with the display of the predetermined reference information (14). Is displayed, the reference information (14) is displayed over the display area,
The designated position data is in the designated input area (8) set at the display position of the designated input information (7), a prescribed command is associated with the designated input area (8), and the pressing detection data is output. An instruction input device for executing a predetermined instruction associated with the instruction input area (8) when the instruction is input. A display panel (3) capable of displaying arbitrary instruction input information (7) in a display area;
A press on a transparent touch panel sheet (4A) stacked on the display panel (3) and arranged on the display area is detected, and press position data indicating the press position and press detection data indicating the detection of the press are output. A first touch panel (4);
An instruction input to an input operation area (5A) which is stacked on the first touch panel (4) and whose display area is visible via the touch panel sheet (4A) is detected, and instruction position data indicating an instruction input position is output. A second touch panel (6),
The designated position data is in the designated input area (8) set at the display position of the designated input information (7), and the designated input information (8) is associated with the display of the predetermined reference information (14). Is displayed, the reference information (14) is displayed over the display area,
The pressing position data is in an instruction input area (8) set at the display position of the instruction input information (7), a predetermined instruction is associated with the instruction input area (8), and the pressing detection data is output. An instruction input device for executing a predetermined instruction associated with the instruction input area (8) when the instruction is input. The second touch panel includes a plurality of light emitting scanning units (9) and a plurality of light receiving units (10) in a rectangular frame (5) such that each pair of the light emitting scanning units (9) and the light receiving units (10) face each other. 2. The instruction input device according to claim 1, wherein the instruction input device is an optical touch panel (6) that is disposed along the rectangular frame (5) and has an input operation area (5 </ b> A).

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