JP2003005913A - Touch operating position detecting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a touch operating position detecting device capable of eliminating or reducing any deviation between the central position on the sensation of the operating finger at the time of performing a screen operation on the panel face of a touch panel and the detected central position of the contact range of the operating finger. SOLUTION: A touch device position detecting device 10 is provided with a first light emitting element 18, a second light emitting element 20, a first light receiving element 22, and a second light receiving element 24 in the surrounding of a touch panel 12. Also, a camera 26 for photographing the side shape of the operating finger is arranged at the side part of the second light receiving element 24. The central position of the contact range of the operating finger is calculated based on information from the first and second light receiving elements 22 and 24, and corrected based on the photographic information from the camera 26 so that the central position on the sensation of the operating finger can be accurately calculated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch operation position detecting device for detecting the center position of a contact area of an operation finger operating a screen on a panel surface of a touch panel.

[0002]

2. Description of the Related Art A technique for performing a predetermined process by operating a screen on a panel surface of a touch panel with a finger has been introduced in various technical fields. In this type of technology, it is extremely important to accurately detect the center position of the contact area of the operating finger of the user.

Here, conventionally, as an example, a touch operation position detecting device of the type that detects the center position of the contact area of the operating finger by using infrared rays has been used. Briefly, the light emitting element and the light receiving element are arranged at a predetermined interval along the panel surface of the touch panel, and the infrared ray projected from the light emitting element is received by the light receiving element when not operated. There is. When the user operates the screen, the infrared light projected from the light emitting element is blocked by the operating finger, and the light receiving element does not receive the infrared light. Thereby, the contact range of the operating finger is detected, and the centroid of the connection range is set as the center position.

[0004]

However, there are individual differences in the fingertip sensation and the shape of the fingertip of the user's operating finger. For example, in the case of a woman with long nails, the belly of the finger actually pressing the touch panel is used. In addition, since infrared rays are also blocked by the tip of the nail, there is a gap between the sensory center position of the person's operating finger and the center position of the operating range of the operating finger detected by the touch operation position detection device. (Shift) occurs. This also applies to a person who has a habit of operating the touch panel with his / her fingers lying down and a person who has a habit of operating the touch panel with two fingers aligned.

In summary, in the conventional infrared-operated touch operation position detecting device, a deviation occurs between the sensory center position of the operating finger and the center position of the contact range of the operating finger detected by the touch operation position detecting device. It was easy and it was desired to be improved in this respect.

The present invention has been made in view of the above background, and the sensory center position of the operating finger in the screen operation on the panel surface of the touch panel and the center position of the detected contact area of the operating finger. It is an object of the present invention to obtain a touch operation position detection device that can eliminate or reduce the deviation of the touch operation position.

[0007]

A touch operation position detecting device according to the present invention according to claim 1 is provided in the periphery of a panel surface of a touch panel, and an operating finger for operating a screen on the panel surface due to a change in physical quantity. Contact range detection means for detecting the contact range of the touch panel, a photographing means arranged laterally on the panel surface of the touch panel, for photographing the operating finger from the side, and connected with the contact range detection means and the photographing means for detecting the contact range. The center position of the contact range of the operating finger is obtained based on the detection information from the means, and the center position of the contact range of the operating finger is corrected based on the imaging information by the imaging means to determine the sensory center position of the operating finger. Center position determining means for determining.

According to a second aspect of the present invention, there is provided a touch operation position detecting device according to the first aspect of the invention, wherein the center position determining means is connected to the photographing means and a processing section for inputting photographing information. , Is connected to the contact range detecting means to input detection information, and is also connected to the processing unit to determine the sensory center position of the operating finger in consideration of the photographing information sent from the processing unit. A determination unit is included, and the processing unit binarizes the imaging information and sends the imaging information to the determination unit.

According to the first aspect of the present invention, when the user operates the screen on the panel surface of the touch panel with a finger, the contact range of the operating finger is detected by the contact range detecting means provided around the panel surface. Is detected from the change in physical quantity.
This detection information is sent to the center position determining means, and the center position determining means determines the center position of the contact area of the operating finger.

Here, in the present invention, in addition to the detection by the contact range detecting means, the side surface shape of the operating finger is photographed by the photographing means arranged on the side of the panel surface of the touch panel, and the photographed information determines the center position. Sent to the means. Then, the center position of the contact area of the operating finger previously obtained by the center position determining means is corrected based on the shooting information from the shooting means. As a result, the sensory center position of the operating finger is determined.

According to the second aspect of the present invention, the photographing information detected by the photographing means is sent to the processing section provided in the center position determining means. Further, the detection information detected by the contact range detecting means is sent to the judging section included in the center position determining means. The determination unit determines the sensuous center position of the operating finger by adding the shooting information to the detection information.

Here, in the present invention, when the photographing information is sent from the processing section to the judging section, the photographing information is binarized and sent. Therefore, conversely, the photographing information can be binarized and sent. Any means can be used, so that an inexpensive camera such as retina recognition can be used without using an expensive CCD camera or the like.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION A touch operation position detecting device 10 according to an embodiment of the present invention will be described below with reference to FIGS.

FIG. 1 is a plan view showing the overall configuration of the touch operation position detecting device 10 according to this embodiment. Further, in FIG. 2, the touch operation position detecting device 10 is shown.
The side view which shows the whole structure of is shown. Furthermore, FIG.
A block diagram showing a system configuration of the touch operation position detection device 10 according to the present embodiment is shown in FIG.

As shown in these figures, the touch panel 12 is formed in a rectangular flat plate shape, and in a state of being arranged in parallel to the substrate 13, a frame-like support having a substantially mortar-shaped cross section. It is held by the member 14. An enter switch 16 (see FIG. 2) is provided on the back side of the touch panel 12 and is pressed when the input information is confirmed. In addition, this enter switch 16
Is not an essential configuration but an optional configuration installed as needed.

The panel surface 12 of the touch panel 12 described above.
A upper edge (one long side) and right edge (one side edge)
, A plurality of first light emitting elements 18 and second light emitting elements 20 which are arranged at a predetermined interval and project infrared rays are arranged. Correspondingly, the lower edge (the other long side) of the panel surface 12A and the left edge (the other side edge) have a plurality of light emitting elements facing the first light emitting element 18 and the second light emitting element 20, respectively. A first light receiving element 22 and a second light receiving element 24 are arranged. The first light emitting element 18, the second light emitting element 20, the first light receiving element 22, and the second light receiving element 24 are elements that are grasped as "optical detecting means" in a broad sense, and these elements are It corresponds to the “contact range detecting means” in the present invention.

On the other hand, on the side of the panel surface 12A of the above-mentioned touch panel 12 (on the side of the second light receiving element 24), a camera 26 as "imaging means" is arranged. In the present embodiment, the camera 26 is installed on the left edge side of the touch panel 12, assuming that the user is right-handed.

As shown in FIG. 3, the above-mentioned first light emitting element 18, second light emitting element 20, first light receiving element 22, and second light emitting element 22 are provided.
The light receiving element 24 is connected to the determination unit 30 in the control device 28 as the “center position determination means”. The camera 26 is also connected to the processing unit 32 in the control device 28. Further, the processing unit 32 is connected to the determination unit 30, and the determination unit 30 is connected to the processing device 34 such as a navigation device.
It is connected to the.

Next, a method of determining the sensory center position of the operating finger will be described with reference to the flow chart shown in FIG.
The operation and effect of this embodiment will be described through the description.

First, at step 100, it is judged whether or not there is one operating finger. At this point, the detection signals from the first light receiving element 22 and the second light receiving element 24 have already been taken into the determination unit 30 and coordinated (the lower edge of the panel surface 12A of the touch panel 12 is defined as the X axis, and the left edge is Is grasped as a position on the XY coordinate with the Y axis as the Y axis), and the photographing information of the camera 26 is taken into the processing unit 32.
The processing unit 32 binarizes the shooting information of the camera 26 and sends it to the determination unit 30.

When the result in step 100 is affirmative, that is, when it is determined that the number of operating fingers is one, step 10
The length before and after detection of the operating finger is 15 mm as an example.
It is determined whether it is within the range. If the result in step 102 is affirmative, that is, if the number of operating fingers is one and the length before and after detection is within 15 mm, it is determined that the finger is a normal operating finger (state shown in FIG. 5), and the process proceeds to step 104, before and after detection. The center of the length is determined as the instruction point (that is, the sensory center position of the operating finger). Therefore, in this case, as a result, the center position of the contact range obtained based on the detection signals sent from the first light receiving element 22 and the second light receiving element 24 is not corrected but is directly processed by the operating finger. It is supposed to be the central position of the sense.

In FIG. 5 and FIGS. 6 to 8 below, the symbol P represents the infrared light shielding range, and the symbol Q.
Represents the center position of the detected contact area of the operating finger, symbol R represents the sensory central position of the operating finger, and symbol δ represents the correction amount.

On the other hand, if the result in step 100 is negative, it means that there are two or more operating fingers (the state shown in FIG. 6). The processing is performed as described above. It should be noted that the negative determination in step 100 is made on the basis of the information that the photographing information of the camera 26 is sent to the processing unit 32, further binarized, and sent to the judging unit 30.

If the result in step 102 is negative,
That is, when the detected front-rear length exceeds 15 mm, the process proceeds to step 108, and it is determined whether the angle of the operating finger is 20 degrees or less as an example. This determination is also made based on the shooting information of the camera 26. If the result in step 108 is affirmative, it is determined that the operating finger has been laid down (the state shown in FIG. 7), the process proceeds to step 110, and the position of 2/5 from the front end of the detected front-rear length is a support point (as an example). The sensory center position of the operating finger).

On the other hand, if the determination in step 108 is negative, the length before and after detection exceeds 15 mm, and it means that the operating finger is not sleeping. Therefore, when the operating finger has a long nail (Fig. 8). In this case, the process proceeds to step 114, and the position of 5 mm from the tip of the portion excluding the nail portion of the operating finger (tip of the ball of the finger) is set as the instruction point (the sensory central position of the operating finger). decide.

When the result is obtained as described above, the sensory center position information of the operating finger is output from the determination unit 30 to the processing device 34 such as a navigation device.

As described above, in the touch operation position detecting device 10 according to this embodiment, the optical detecting means (the first light emitting element 1) is used.
8, the second light emitting element 20, the first light receiving element 22, the second light receiving element 24) is configured to correct the center position of the contact area of the operating finger detected based on the photographing information by the camera 26. Panel surface 12A of touch panel 12
The center position of the operating finger in the above screen operation,
It is possible to eliminate or reduce the deviation from the center position of the detected contact area of the operating finger.

Further, in the touch operation position detecting apparatus 10 according to the present embodiment, when the processing unit 32 sends the shooting information to the determination unit 30, the shooting information is binarized and sent. Since it is only necessary to use a camera capable of binarizing and transmitting the image, that is, a camera capable of photographing the side shape of the operating finger as a silhouette, it is possible to perform retina recognition without using an expensive CCD camera or the like. Inexpensive cameras such as can be used. As a result, the system can be established at low cost.

Further, in the touch operation position detecting device 10 according to the present embodiment, since the optical detecting means by infrared rays is used as means for detecting the center position of the contact area of the operating finger, the panel surface of the touch panel 12 is used. It is possible to relatively easily detect the center position of the contact range of the operating finger with 12A.

In the touch operation position detecting device 10 according to the present embodiment, the optical detecting means is used as the contact range detecting means, but the present invention is not limited to this, and a pressure sensitive detecting means using a piezoelectric element is used. Alternatively, an electrostatic detection unit may be used.

Further, in the touch operation position detecting device 10 according to the present embodiment, the camera 26 is arranged on the left edge side of the touch panel 12, but it may be located at any lateral position where the side shape of the operating finger can be grasped. May be installed.

[0032]

As described above, the touch operation position detecting device according to the first aspect is provided on the periphery of the panel surface of the touch panel, and the contact range of the operation finger performing the screen operation on the panel surface due to the change of the physical quantity. A contact range detecting means for detecting the contact area, a photographing means arranged on the side of the panel surface of the touch panel for photographing the operating finger from the side, a contact range detecting means and a photographing means, and the contact range detecting means A center for determining the center position of the contact range of the operating finger based on the detection information and correcting the center position of the contact range of the operating finger based on the imaging information by the imaging means to determine the sensory center position of the operating finger. Since the position determining means is included, it is possible to eliminate or reduce the deviation between the sensuous operation finger center position and the detected operation finger center position in the touch panel operation. It has an excellent effect that it can be.

According to a second aspect of the present invention, there is provided the touch operation position detecting device according to the first aspect, wherein the center position determining means is in contact with a processing section which is connected to the photographing means and receives photographing information. A determination unit that is connected to the range detection unit to input the detection information and is also connected to the processing unit and determines the sensory center position of the operating finger in consideration of the imaging information sent from the processing unit. Since the processing unit binarizes the photographing information and sends the photographing information to the judging unit, the processing unit has an excellent effect that the system can be established at low cost.

[Brief description of drawings]

FIG. 1 is a plan view showing an overall configuration of a touch operation position detection device according to this embodiment.

FIG. 2 is a side view showing the overall configuration of the touch operation position detection device according to the present embodiment.

FIG. 3 is a block diagram showing a system configuration of a touch operation position detection device according to the present embodiment.

FIG. 4 is a flowchart showing an example of how to determine the sensory center position of the operating finger using the touch operation position detecting device according to the embodiment.

FIG. 5 is a side view showing a state of a normal operating finger.

FIG. 6 is a side view showing a case where an operation is performed using a plurality of fingers.

FIG. 7 is a side view showing a case where a finger is laid down and operated.

FIG. 8 is a side view showing a case where an operation is performed with a finger having a long nail.

[Explanation of symbols]

10 Touch operation position detection device 12 touch panel 12A panel surface 18 First light emitting element (contact range detecting means) 20 Second light emitting element (contact range detecting means) 22 First light receiving element (contact range detecting means) 24 Second light receiving element (contact range detecting means) 26 Camera (shooting means) 28 Control device (center position determining means) 30 Judgment section 32 processing unit

Claims (2)

[Claims] 1. A contact range detecting means which is provided around the panel surface of the touch panel and detects a contact range of an operating finger operating the screen on the panel surface based on a change in physical quantity; It is arranged and connected to the photographing means for photographing the operating finger from the side, the contact range detecting means and the photographing means, and determines the center position of the contact range of the operating finger based on the detection information from the contact range detecting means. A touch operation position detecting device, comprising: a center position determining unit that corrects a center position of a contact area of the operating finger based on image capturing information by the image capturing unit to determine a sensory center position of the operating finger. . 2. The center position determining means is connected to the photographing means to input photographing information, and is connected to the contact range detecting means to input detection information and is also connected to the processing portion. And a determination unit that determines the sensory center position of the operating finger in consideration of the shooting information sent from the processing unit, and the processing unit binarizes the shooting information. The touch operation position detection device according to claim 1, wherein the photographing information is sent to the determination unit.