JP4663039B2 - Position input device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a position input device that inputs a position on a two-dimensional surface such as a touch panel, an image recording device that can directly operate a screen using the position input device, and an image editing device, for example. The present invention relates to an image processing apparatus, such as an apparatus, that can perform a desired process on an image to be processed.
[0002]
[Prior art]
A mouse is widely used as a so-called pointing device for selecting an object displayed on the screen or designating a position of the screen for designating a part of the displayed image. In addition, trackballs, touch pads, and the like are also used in portable devices such as notebook personal computers. These pointing devices move a pointer displayed on the screen continuously by moving the pointing device, and select and specify a desired position on the screen.
[0003]
There is a touch panel as an apparatus that can directly indicate a position on the screen. If the touch panel is made of a transparent material and pasted on the screen, it can be selected by directly touching the object displayed on the screen with a finger, which greatly improves operability. . An operation panel using such a touch panel is widely used in a cash dispenser installed in a bank or the like.
[0004]
[Problems to be solved by the invention]
By the way, since such a touch panel is a pressure-sensitive input device, it cannot feel an operation feeling when it is pressed, such as a normal mechanical button, for example, a click feeling. Therefore, there is a problem that confirmation that the operation has been performed cannot be sufficiently performed and the operation feeling is poor. In some apparatuses, when an operation via a touch panel is accepted, a sound such as a “beep” is emitted so that the operator can know that the operation has been accepted. However, confirmation of the operation by such a sound is accompanied by a sufficiently long delay with respect to human senses, and is not a feeling that can be directly felt by a finger. For this reason, it may cause a sense of incongruity, which is not a sufficient measure.
[0005]
In addition, such a touch panel has a problem that a part of the screen is hidden by the operator's finger because the operator directly touches the screen. As long as a relatively large button-shaped object on the screen is selected, such as a cash dispenser, there is no particular problem even if a part of the screen is hidden by a finger. However, for example, when you want to specify a position to follow a specific object in the captured video, you need to move the specified position according to the movement of the object. If it is not possible, such movement cannot be performed properly. In such a case, the range hidden by the finger cannot be said to be small, and there arises a problem that the position cannot be specified appropriately.
[0006]
In addition, in an input device using a touch panel, the screen is directly touched with a finger, so that there is a problem in that dirt such as finger grease adheres, the display screen is soiled, and visibility is deteriorated.
[0007]
  Therefore, the object of the present invention is to directly indicate a two-dimensional position and to obtain an appropriate operational feeling when a pressing operation is performed.Position input deviceIs to provide.
  Another object of the present invention is to directly indicate the two-dimensional position on the screen without hiding the image displayed on the screen with a finger or the like and without making the display screen dirty.Position input deviceIs to provide.
[0008]
[Means for Solving the Problems]
  Therefore, the present inventionPosition input deviceIsA position input device that is provided on the main body of the device that uses the contact position as an operation input and detects the contact position of the operation surface by the operator and selects the function of the main body, and is supported so that it can be pulled out from the main body. A function list screen including a plurality of characters corresponding to the function is output to the display surface.A display device;InspectionA detection device, and the detection device comprises:When the space for operation by pulling out the display surface from the body portion is formed between the display surface and the body portion, the space is disposed on the body portion or the display surface side, and the space When the display surface is viewed from the opposite front side, the operation surface is configured to overlap the display surface, and the operation surface is contacted by an operator in a state where the function list screen is displayed on the display surface. Then, a position signal indicating the contact position is generated, and the contact coordinates in the function list screen are generated based on the position signal.DetectCoordinateDetection means;When the operation surface is pressed toward the main body or the display surface, an operational feeling is given to the operator by an elastic force in a direction opposite to the pressing direction, and the pressing is detected by a switch. Pressure signal generating means for generating
HaveThe displayapparatusIsThe selection state is displayed by inverting the color of the character closest to the input contact coordinates, and when the pressing signal is input during the selection state, the selection state is determined, and the selected selection is confirmed. Character display means and control means for generating an image having contents corresponding to the function of the main body corresponding to the character in the state.
[0009]
  Of this configurationPosition input deviceIn, by contacting the position detection region of the detection device with, for example, a finger, the contact position is detected in the detection device, and a signal indicating the contact position is output. The detection device is normally supported at a predetermined position by the support device. For example, when the detection device is pressed by the finger, the detection device moves in the pressed direction by the function of the support device. Then, this movement is detected by the push detection means to indicate that the push has occurred.PressingOutput a signal. When the force on the detection device is released by moving the finger away from the detection device or the like, the detection device is again supported at a predetermined position by the support device.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
In the present embodiment, it is a home-use camera-integrated video cassette tape recorder (VCR) that records video data on an 8 mm wide magnetic tape, generally referred to as 8 mm video, and has a small liquid crystal display. In addition, the video signal being shot and the playback signal of the recorded video data can be viewed, and further, the VCR can be used to input titles and perform operations on video signals using the flat pad according to the present invention. The present invention will be described with reference to examples.
[0016]
First, a schematic configuration of the VCR will be described with reference to FIG. 1 and FIG.
FIG. 1 is an external perspective view of the VCR 1.
The VCR 1 includes a main body unit 2 and a display unit 4 as main components observed from the appearance.
The main unit 2 includes a camera unit 5 which is an optical system for imaging, a microphone (not shown) for inputting sound, an operation unit 6 on which various buttons and a small liquid crystal panel for displaying a state are arranged, It has a flat pad 7 for performing various operations and position designation on the screen. In addition, a cassette tape for recording and reproducing a video signal is exchangeably accommodated therein, a video processing unit for processing a video signal obtained by the camera unit 5, and a video with respect to the accommodated cassette tape. It has a recording unit for recording and reproducing signals, an interface unit for the display unit 4 and the flat pad 7, and the like.
[0017]
The display unit 4 includes a small liquid crystal color display 41 (hereinafter referred to as a liquid crystal panel 41), and displays video data applied to the main unit 2 via the interface unit. On the liquid crystal panel 41 of the display unit 4, for example, video data currently being shot obtained by the camera unit 5, video data recorded on the cassette tape and reproduced by the recording unit of the main unit 2, and the like are displayed. Is done.
The size of the liquid crystal panel 41 is the same as the size of the flat pad 7.
The display unit 4 is supported by the support unit 3 and is provided so as to be substantially separated from the main body unit 2 of the VCR 1. When the VCR 1 is used, the display unit 4 is pulled out as shown, and when the VCR 1 is not used, the main unit unit is used. 2 is accommodated on the back surface 2 a of the main body 2.
[0018]
The state of the display unit 4 will be described in detail with reference to FIG.
FIG. 2 is a diagram illustrating a state of the display unit 4, (A) is a diagram illustrating a state in which the display unit 4 is housed in a position where the display unit 4 is integrated with the main body unit 2, and (B) is a main unit. It is a figure which shows the state withdraw | derived from the part 2. FIG.
As shown in FIG. 2A, when the VCR 1 is not used, the support portion 3 is folded, and the display portion 4 is substantially recessed by the constituent parts of the main body portion 2 on the back surface 2b of the main body portion 2. Is housed in a housing portion whose bottom surface is the surface on which the flat pad 7 formed is provided. When the display unit 4 is housed in this manner, the VCR 1 has a rectangular parallelepiped shape as a whole, which is convenient for carrying and housing.
[0019]
On the other hand, when the VCR 1 is used, the display unit 4 is pulled out of the state as shown in FIG. 2A, and as shown in FIG. 2 is instructed to be located at a predetermined distance from the back surface 2a. At this time, the display unit 4 is positioned so that the liquid crystal panel 41 is parallel to the back surface 2a and the field of view with respect to the liquid crystal panel 41 and the field of view with respect to the flat pad 7 are substantially the same, that is, overlap when viewed from the front of the liquid crystal panel 41. Supported to be placed.
In addition, the distance between the display unit 4 and the back surface 2a of the main body unit 2 at this time can be freely touched on the flat pad 7 provided on the back surface 2a by the operator of the VCR 1 pointing in between them. The interval is about.
[0020]
Next, the flat pad 7 according to the present invention provided in the VCR 1 having such a configuration will be described with reference to FIGS.
The flat pad 7 is provided on the back surface 2a of the main body 2 of the VCR 1 as shown in FIG. 1, and when the display 4 is pulled out, as shown in FIG. 2B, the flat pad 7 is placed between the display 4 and the VCR 1. It is operated by the operator's finger inserted into the. When the operator's finger is touched, the flat pad 7 detects the contact position and outputs a signal indicating the position. Further, when pressed in the internal direction of the main body 2, the pressing operation is detected and a signal indicating that the pressing has been performed is output. At this time, the flat pad 7 sinks by a predetermined stroke in the pressed direction as a whole with the pressed position as a center, and gives the operator an operational feeling for the pressing operation.
[0021]
FIG. 3 is a diagram showing a configuration of the flat pad 7, and FIG. 4 is a diagram showing components related to signal processing of the flat pad 7.
The flat pad 7 includes a position detection panel 71, a signal processing unit 72, and four micro switches 76._-1~ 76_-FourHave
[0022]
The position detection panel 71 is an electrostatic capacity type flat panel, and upper electrodes C1 to Cn and lower electrodes R1 to Rm as shown in FIG. 4 are formed on a multilayer printed board, and a certain electrostatic capacity is provided therebetween. It is the structure which hold | maintained. When a conductor such as a finger comes into contact with the surface, the capacitance changes, and two-dimensional coordinates are detected by detecting this capacitance.
In the position detection panel 71 of the present embodiment, the capacitance between the upper electrodes C1 to Cn and the lower electrodes R1 to Rm is normally about 15 pF, and the capacitance is increased by touching a finger or the like. Change about 2-3 pF.
[0023]
As shown in FIG. 4, the signal processing unit 72 includes an electrode selection unit 73, a capacitance balance measurement unit 74, and a coordinate detection unit 75.
In the signal processing unit 72 having such a configuration, the electrode selection unit 73 sequentially selects two consecutive upper electrodes Ci and Ci + 1 and one lower electrode Rj, and the capacitance balance measurement unit 74 selects the upper part. The capacitances between the electrode Ci and the lower electrode Rj and between the upper electrode Ci + 1 and the lower electrode Rj are compared. When the balance between these two capacitances is poor, the capacitance changes due to the influence of the finger that is in contact with either one of them. Therefore, by searching for such an unbalanced portion, the coordinate detection unit 75 finally detects the coordinate with which the finger is in contact.
[0024]
Micro switch 76_-1~ 76_-FourAre arranged at the four corners of the position detection panel 71, and the switch body is fixed to the body part 2 of the VCR 1 and the movable part is fixed to the position detection panel 71. This micro switch 76_-1~ 76_-FourThus, the position detection panel 71 is supported at a predetermined position with respect to the main body 2. Further, when a force is applied to the position detection panel 71 in the direction of the main body 2, the position detection panel 71 is moved in the direction of the main body 2 by a predetermined stroke according to the force. Thereby, the operator who pressed down the position detection panel 71 can obtain the click feeling similar to a normal switch. Further, the micro switch 76 generated by the movement of the position detection panel 71._-1~ 76_-FourA signal indicating that the position detection panel 71 has been pressed is generated based on the change in the switching state.
[0025]
Next, the configuration of the signal processing unit according to the present invention of the VCR 1 will be described with reference to FIGS.
The VCR 1 includes a camera unit 5, a video processing unit 11, a recording unit 12, a micro switch 76, a position detection panel 71, a microcomputer 13 (hereinafter referred to as a microcomputer), a character display unit 14, and a liquid crystal panel 41.
[0026]
When the VCR 1 is operating in the shooting mode, the camera unit 5 captures a desired image, converts it into an electrical signal, and outputs it to the video processing unit 11.
[0027]
When the VCR 1 is operating in the shooting mode, the video processing unit 11 converts the video signal input from the camera unit 5 into a recording signal and outputs it to the recording unit 12. At the same time, the video signal input from the camera unit 5 is converted into a signal that can be displayed on the liquid crystal panel 41 and output to the liquid crystal panel 41.
When the VCR 1 is operating in the playback mode, the video processing unit 11 performs predetermined processing on the playback signal input from the recording unit 12 and converts the playback signal into a signal that can be displayed on the liquid crystal panel 41. To the liquid crystal panel 41.
In any case, when image data to be superimposed is input from a character display unit 14 to be described later, the image data is superimposed on the output data and output based on a control signal from the microcomputer 13. To do.
Also, when some processing is instructed by the operator, the video processing unit 11 performs processing based on the instruction on the video signal being processed.
[0028]
The recording unit 12 records video data for recording input from the video processing unit 11 on a cassette tape accommodated in the VCR 1 when the VCR 1 is in the shooting mode. When the VCR 1 is in the playback mode, the video data recorded on the cassette tape is played back, and the video signal is output to the video processing unit 11.
[0029]
As described above, when the operator touches the surface with a finger or the like, the position detection panel 71 detects the contact coordinates and outputs it to the microcomputer 13.
The format of the output signal from the position detection panel 71 to the microcomputer 13 is shown in FIG.
FIG. 6A shows the format of the output signal, and FIG. 6B shows the content of the output data.
As shown in FIG. 6, from the position detection panel 71, the value of the detected contact coordinate is output as asynchronous serial data for each byte. Therefore, the microcomputer 13 detects the sequence of the transfer data while checking the bit B7, sequentially receives the transfer data based on this, reconstructs the byte data, and finally obtains the contact position coordinates. In FIG. 6B, X0 to X11 are each bit data of the X coordinate, and Y0 to Y11 are each bit data of the Y coordinate.
[0030]
As described above, when the operator depresses the position detection panel 71 in the direction of the main body 2, the micro switch 76 detects the depressing operation, generates a signal indicating that the depressing operation is performed, and sends it to the microcomputer 13. Output. In the present embodiment, the micro switch 76 includes four micro switches 76 as described above._-1~ 76_-FourConsists of. In this case, any one micro switch 76 is used._-1~ 76_-FourWhen the switching state is changed at, a signal to that effect is output as a result of pressing.
[0031]
The microcomputer 13 includes a position detection panel 71 and a micro switch 76._-1~ 76_-FourBased on the signal input as needed, the contact position information and the pressing information are acquired by the method as described above, and output to the character display unit 14 as necessary. Further, when information to be notified to the operator or image data to be displayed is generated via the liquid crystal panel 41 based on the operation information, information related to the image data to be superimposed is output to the character display unit 14. . Further, when it becomes necessary to control processing in the video processing unit 11 based on the operation information, a control signal is output to the video processing unit 11.
[0032]
The character display unit 14 generates image data to be actually displayed on the liquid crystal panel 41 based on data input from the microcomputer 13 and outputs the image data to the video processing unit 11 as superimposition data. When the contact position information is input from the microcomputer 13, the character display unit 14 generates image data that displays a mark indicating the indicated position at a corresponding position on the liquid crystal panel 41 and outputs the image data to the video processing unit 11. To do. When the microcomputer 13 newly generates image data to be superimposed, the image data is generated and output to the video processing unit 11 as superimposing data.
[0033]
The liquid crystal panel 41 is a screen on the display unit 4 as described above, and displays image data input from the video processing unit 11 and superimposed with desired image data as necessary.
[0034]
Next, the operation of the VCR 1 will be described together with an example of processing using the VCR 1 function.
First, as an example of the operation of the VCR 1, refer to FIG. 7 for a process of adding a mark in an image in order to draw attention to, for example, a noticed person or a noticed part in the screen while photographing in the photographing mode. To explain.
[0035]
First, the operator of the VCR 1 operates with the character as shown in FIG. 7A by operating the operation unit 6 of the VCR 1 or operating the operation buttons displayed on the liquid crystal panel 41. The displayed screen for selecting the function of VCR1 is displayed.
Next, a character having a function of adding a mark is selected from these characters. That is, the operator of the VCR 1 inserts a finger between the display unit 4 and the main unit 2 of the VCR 1 while viewing the function list image, and sets the position of the flat pad 7 where the line of sight with respect to the character indicating the function to be selected is extended. touch. In the example of FIG. 7, the character having the function of adding a mark is the upper left character.
[0036]
The position detection panel 71 of the flat pad 7 detects the position touched by the operator's finger and outputs it to the microcomputer 13.
The microcomputer 13 instructs the character display unit 14 to invert the color of the character displayed at the coordinate position on the liquid crystal panel 41 based on the detected coordinates of the contact position.
As a result, the character display unit 14 creates superimposition data in which the color of the character closest to the coordinate position is inverted and outputs it to the video processing unit 11.
[0037]
The video processing unit 11 then superimposes the newly input superimposition data on the background image and outputs it to the liquid crystal panel 41.
As a result, the color of the character closest to the position of the liquid crystal panel 41 visually recognized by the operator to be selected is reversed, and the operator can confirm the character actually selected by his / her selection operation.
If a character different from the character that the operator is trying to select is reversed, the finger on the flat pad 7 can be moved in the direction of the character to be selected from the character whose color is reversed. Since the character to be reversed changes, the finger on the flat pad 7 is moved in such a manner so that the desired character is reversed.
[0038]
When the color of the character to be selected is reversed and the selected state can be confirmed, the operator clicks the flat pad 7. That is, the button is pressed in the direction of the main body 2. This operation is performed by the micro switch 76._-1~ 76_-FourIs detected, and a signal to that effect is output to the microcomputer 13.
The microcomputer 13 instructs the character display unit 14 to erase the function list screen so far and display the mark to be added to the gaze point as described above, assuming that the character is determined by this signal. To do. Further, the video processing unit 11 is instructed to display the captured image on the liquid crystal panel 41.
In the present embodiment, the shape of this mark is the same as that of the character showing the mark providing function shown in the upper left of FIG.
Further, during these processes, the information on the contact position from the position detection panel 71 is appropriately output from the microcomputer 13 to the character display unit 14.
[0039]
Based on an instruction from the microcomputer 13, the character display unit 14 creates superimposition data such that the image of the mark to be applied is displayed at the contact position of the finger on the flat pad 7 and outputs it to the video processing unit 11. .
In the video processing unit 11, on the basis of an instruction from the microcomputer 13, superimposition data input from the character display unit 14 is superimposed on a video signal input from the camera unit 5 and output to the liquid crystal panel 41.
As a result, as shown in FIG. 7B, an image in which a mark is displayed on the video signal being shot is displayed on the liquid crystal panel 41. Since the position of this mark corresponds to the contact position of the finger on the flat pad 7, when the operator moves this finger, the mark also moves.
When the operator instructs to start recording while viewing such an image, the video data on which such a mark is superimposed is also output from the video processing unit 11 to the recording unit 12 and recorded on the cassette tape. .
[0040]
In addition, the VCR 1 has a function of clicking on the flat pad 7 during shooting to enlarge an image displayed on the display unit 4 around the mark.
That is, the micro switch 76 is used during shooting._-1~ 76_-FourWhen a signal indicating that the flat pad 7 has been further pressed is input to the microcomputer 13, the microcomputer 13 sends the position coordinate data and the image input from the position detection panel 71 to the video processing unit 11. A control signal for enlarging is output. As a result, the video processing unit 11 creates a signal such that the video is substantially zoomed up from the video signal input from the camera unit 5 and outputs the signal to the liquid crystal panel 41 and the recording unit 12. As a result, an enlarged image as shown in FIG. 7C is displayed on the liquid crystal panel 41.
[0041]
At this time, the video processing unit 11 outputs a zoomed-in signal only for the video data to be output to the liquid crystal panel 41 by performing separate settings, and the original video data before zooming up is recorded in the recording unit 12. You may make it output.
Further, when the recording data shot in this way is reproduced in the reproduction mode, video data including marks is reproduced as shown in FIG.
[0042]
Next, processing for inputting characters such as a title by character recognition will be described as another example of the operation of the VCR 1 with reference to FIG.
In the present embodiment, it is assumed that the microcomputer 13 performs character recognition based on a character recognition program recorded in a program ROM (not shown) or the like.
[0043]
As in the case of the process of assigning the mark described above, first, the operator of the VCR 1 touches the position detection panel 71 and displays a character indicating a character input function from the function list screen as shown in FIG. Then, the position detection panel 71 is pressed to confirm, and the character input function is activated.
In the case of the character input function, nothing is initially displayed on the display unit 4.
In this state, the operator traces the flat pad 7 with a finger and enters characters. The position traced with the finger on the flat pad 7 is sequentially detected by the position detection panel 71, in other words, the locus is detected, and the position information is output to the character display unit 14. The character display unit 14 generates superimposed image data in which dots are arranged on each detected position, that is, the locus, and outputs the generated superimposed image data to the video processing unit 11.
[0044]
The video processing unit 11 superimposes the superimposed image data on a predetermined background image and outputs it to the liquid crystal panel 41. As a result, on the liquid crystal panel 41, an image as shown by a dot traced with a finger as shown in FIG. 8B is displayed.
The operator of the VCR 1 traces the flat pad 7 while viewing the display on the liquid crystal panel 41 to complete one character.
After entering a line drawing of one character, the operator clicks the flat pad 7 to instruct recognition of the input line drawing. The microcomputer 13 detects that the click is detected by the micro switch 76._-1~ 76_-FourThe operator detected by the position detection panel 71 performs character recognition on the locus information traced on the flat pad 7 and outputs the character code of the recognition result to the character display unit 14.
[0045]
Based on the character code input from the microcomputer 13, the character display unit 14 reads the character shape data from a font ROM (not shown) or the like, generates superimposed data including the character, and outputs it to the video processing unit 11. .
The video processing unit 11 superimposes this superimposition data on the background image and outputs it to the liquid crystal panel 41.
As a result, the recognition result character is displayed in a typeface on the liquid crystal panel 41.
Note that the character display unit 14 deletes an image indicating the locus of the character traced by the operator from the superimposed data when displaying the recognition result for each character.
By sequentially performing such processing character by character, a word such as “HANDYCAM” is input as shown in FIG. 8C, for example.
[0046]
Characters, words, and the like input in this way can be used in an arbitrary manner by an arbitrary method.
For example, it may be recorded as a title character prior to video recording or superimposed on the first part of the video.
Similarly to the mark described above, the flat pad 7 can be touched with a finger to designate a position on the liquid crystal panel 41 and moved on the liquid crystal panel 41. Using this function, for example, as shown in FIG. 8D, the name of a person appearing in the video to be photographed is input in characters, and the character is made to follow the person's image for a certain period of time. It is also possible to display it.
[0047]
As described above, in the VCR 1 according to the present embodiment, display is performed on the liquid crystal panel 41 by using the flat pad 7 disposed on the back side of the liquid crystal panel 41 so as to fall within the same field of view as the liquid crystal panel 41. The desired position of the displayed screen can be designated directly while viewing the liquid crystal panel 41 without hiding the screen. Therefore, details of the screen can be specified with certainty, and the operability is greatly improved.
Further, since the liquid crystal panel 41 is not directly touched with a finger, the surface of the liquid crystal panel 41 can be prevented from being soiled.
Furthermore, since a click feeling is obtained when the flat pad 7 is pressed, the operator can immediately and intuitively know that his operation has been performed reliably, and there is no sense of incongruity in the operation. Operability can be realized.
[0048]
The present invention is not limited to the present embodiment, and various modifications can be made.
For example, in the VCR 1 of the present embodiment, the flat pad 7 is provided on the back side of the liquid crystal panel 41 in the same direction as the liquid crystal panel 41, and the operator can display the liquid crystal panel 41. The finger was put between the part 4 and the main body part 2 to operate the flat pad 7. However, the arrangement of the flat pad 7 is not limited to such an example. For example, as shown in FIG. 9, it may be arranged on the back surface of the liquid crystal panel 41 of the display unit 4. In such a configuration, as shown in FIG. 9B, the operator inserts a finger between the display unit 4 and the main body unit 2 with the palm toward the user, and the liquid crystal of the display unit 4 is displayed. The flat pad 7 provided on the back surface of the panel 41 is operated. Even in such a configuration, the operation range of the flat pad 7 is substantially the same as the field of view of the liquid crystal panel 41, and can be operated in exactly the same manner as the VCR 1 of the present embodiment, and exhibit exactly the same effects. Can do. Further, as shown in FIG. 9A, when the VCR is not used, the method for accommodating the display unit 4 in a predetermined position of the main body unit 2 and the VCR form when accommodated are exactly the same as the present embodiment. It is.
[0049]
Further, in the flat pad 7 of the present embodiment, the four micro switches 76 provided with the position detection panel 71 at each corner of the flat pad 7._-1~ 76_-FourThus, the stroke for the pushing operation with respect to the position detection panel 71 is secured, and the presence or absence of the pushing operation is detected based on the change of the switch switching state. However, the mechanism for supporting the position detection panel and the mechanism for detecting the movement of the position detection panel are not limited to the case of the present embodiment, and any mechanism may be used.
For example, even when microswitches are used, more than four microswitches may be used. Further, if a support mechanism is provided separately so that the force is appropriately transmitted regardless of which position of the position detection panel is pressed, the number of micro switches may be one.
[0050]
Further, the position detection panel may be supported by an elastic member such as a rubber, a spring, or an arbitrary cushion material so as to be movable by an applied force.
In such a case, for example, a mechanical switch that detects pressure separately, a piezoelectric switch, or the like is provided to such an elastic member on the main body side of the VCR and applied to the position detection panel. Force may be detected.
[0051]
Further, the position detection panel 71 of the present embodiment is a capacitance type flat panel, but a piezoelectric type flat panel is used in which the upper electrode and the lower electrode are brought into contact with each other by pressure and the contact position is detected. It may be.
[0052]
Further, the flat pad 7 according to the present invention is not applicable only to the VCR as in the present embodiment. For example, at present, the flat pad 7 of the present invention can be applied to a cash dispenser or the like in which a transparent touch panel is superimposed on a screen so that the screen can be directly operated.
In addition, for example, an image editing apparatus for performing desired processing on input video data may be used to specify a specific position of an image to be processed, or may be desired for an image to be processed. In order to designate a partial image, it can be applied as a device for designating a position on a video.
In such a case, when only position input is required, there may be no mechanism for sinking the position detection panel for giving the operator a click feeling at the time of operation.
[0053]
【The invention's effect】
As described above, according to the position input device of the present invention, it is possible to directly indicate a two-dimensional position, and an appropriate operational feeling can be obtained when a pressing operation is performed. In addition, it is possible to directly indicate a two-dimensional position on the screen without hiding the image displayed on the screen with a finger or the like and without making the display screen dirty.
In addition, according to the image recording apparatus of the present invention, it is possible to directly indicate a two-dimensional position on the screen, and to perform an operation with an appropriate operational feeling when a pressing operation is performed. In addition, it is possible to perform an operation of directly specifying a two-dimensional position on the screen without hiding the image displayed on the screen with a finger or the like and without making the display screen dirty.
In addition, according to the image processing apparatus of the present invention, the two-dimensional position on the screen is directly instructed without hiding the image displayed on the screen with a finger or the like and without making the display screen dirty. A desired process can be performed on a desired image.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a video cassette tape recorder (VCR) according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a state of a display unit of the VCR illustrated in FIG.
FIG. 3 is a diagram showing a configuration of a flat pad of the VCR shown in FIG. 1;
FIG. 4 is a diagram showing a configuration related to signal processing of the flat pad of the VCR shown in FIG. 1;
FIG. 5 is a block diagram showing a configuration of a signal processing unit of the VCR shown in FIG. 1;
FIG. 6 is a diagram for explaining an output signal from the position detection panel shown in FIG. 5;
FIG. 7 is a diagram for explaining a process of adding a mark in an image in the VCR shown in FIG. 1;
FIG. 8 is a diagram for explaining processing of inputting characters such as a title by character recognition in the VCR shown in FIG. 1;
FIG. 9 is a diagram showing another embodiment of the VCR of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... VCR, 2 ... Main-body part, 3 ... Support part, 4 ... Display part, 5 ... Camera part, 6 ... Operation part, 7 ... Flat pad, 11 ... Image processing part, 12 ... Recording part, 13 ... Microcomputer, 14 DESCRIPTION OF SYMBOLS ... Character display part, 41 ... Liquid crystal panel, 71 ... Position detection panel, 72 ... Signal processing part, 73 ... Electrode selection part, 74 ... Capacity balance measurement part, 75 ... Coordinate detection part, 76 ... Micro switch

Claims (4)

A position input device that is provided in a main body portion of an apparatus having a contact position as an operation input, detects a contact position of an operation surface by an operator, and selects a function of the main body portion,
A display device that includes a display surface supported so as to be able to be pulled out from the main body, and that outputs a function list screen including a plurality of characters corresponding to the function to the display surface;
A detection device;
Have
The detection device includes:
When the space for operation by pulling out the display surface from the body portion is formed between the display surface and the body portion, the space is disposed on the body portion or the display surface side, and the space The operation surface configured to overlap the display surface when the display surface is viewed from the opposite front side;
When the operator touches the operation surface while the function list screen is displayed on the display surface, a position signal indicating a contact position is generated, and contact coordinates in the function list screen are generated based on the position signal. Coordinate detection means for detecting
When the operation surface is pressed toward the main body or the display surface, an operational feeling is given to the operator by an elastic force in a direction opposite to the pressing direction, and the pressing is detected by a switch. Pressure signal generating means for generating
Have
The display device
The selection state is displayed by inverting the color of the character closest to the input contact coordinates, and when the pressing signal is input during the selection state, the selection state is determined, and the selected selection is confirmed. Including character display means and control means for generating an image of content corresponding to the function of the main body corresponding to the character in the state,
Position input device. The main body of the device having the contact position as an operation input has a substantially rectangular parallelepiped shape that can be carried,
The position input device according to claim 1, wherein the operation surface and the display surface are disposed on one surface side of the substantially rectangular parallelepiped main body . The character display means and the control means of the display device, when the input contact coordinates change from coordinates corresponding to the selected character to coordinates closer to other characters, The position input device according to claim 1, wherein the position input device is changed to a character. When the function of the main body is confirmed, the character display unit and the control unit of the display device terminate the display of the function list screen on the display surface, and perform the operation according to a change in the input contact coordinates. The position input device according to claim 3, wherein when the locus of the contact position of the operator with respect to the surface is detected, an image displaying the locus in dots is generated as an image corresponding to the determined function.

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