JP6194625B2 - Electronic device and touch panel inspection method thereof - Google Patents

Description

  The present invention relates to an inspection technique for a touch panel provided in an electronic apparatus.

  In recent years, many electronic devices such as mobile phones and digital cameras are equipped with a touch panel, and in such electronic devices, an inspection for confirming whether the touch panel is operating normally before product shipment is performed. It is essential. As a touch panel inspection technique, for example, the following Patent Document 1 describes a technique in which an inspection jig having a predetermined shape provided with a plurality of conductive regions is brought into contact with the operation surface of the touch panel and a touch operation is performed in that state. Yes. According to such a technique, a large inspection apparatus can be downsized and inspection can be performed easily and in a short time.

JP 2012-238199 A

  However, also in the inspection technique described in Patent Document 1, an inspection device is indispensable separately from an electronic device equipped with a touch panel. In addition, when product inspection is performed in a state where it is assembled in an electronic device, there is a problem that work efficiency is extremely poor. This is the same as the inspection after the user purchases the electronic device in addition to the inspection before the product shipment.

  The present invention has been made in view of such conventional problems, and an object of the present invention is to provide an electronic apparatus that does not require a specific inspection device and can inspect a touch panel simply and in a short time.

In order to solve the above-described problem, in the present invention, in an electronic device including a display unit provided with a touch panel, an acquisition unit that acquires operation information including an operation state of the touch panel and a touch position, and the acquisition based on the obtained operation information by means, it is moving while maintaining the position of the data pitch operation to the end point from the start point of the touch operation path for inspection, the touched state without touching state is released maintaining the sequential determination means for determining whether the position of I Ri touch operation to said determining means, before the end point of the touch operation path for the test, the touched state without touching state is released An electronic device comprising: output means for outputting a result of the determination when it is determined that the mobile phone has not been moved .

  ADVANTAGE OF THE INVENTION According to this invention, the specific test | inspection apparatus is unnecessary and the electronic device which can test | inspect a touch panel simply and in a short time can be provided.

It is a block diagram which shows the electronic device which concerns on this invention. It is a flowchart which shows the process in a touchscreen inspection mode. It is a figure which shows the display screen on which the pattern for a test | inspection was displayed. It is a transition diagram of a display screen showing a change of an inspection pattern at the time of inspection of the upper side of the touch panel. It is a transition figure of the display screen which shows the change of the pattern for a test | inspection at the time of the test | inspection of the right side of a touch panel. It is a figure which shows the display form of a test result. It is a figure which shows a modification.

  Hereinafter, embodiments of the present invention will be described. FIG. 1 is a block diagram showing a main part of an electronic apparatus 1 to which the present invention is applied. The electronic device 1 is, for example, a mobile phone provided with a touch panel, a smartphone (Smart Phone), a PDA (Personal Digital Assistants), or a digital camera.

  The electronic device 1 includes a central processing unit (CPU) 11 that controls the entire apparatus, a read only memory (ROM) 12, a random access memory (RAM) 13, a built-in memory 14, an input unit 15, and a display unit 16. .

  The ROM 12 stores various programs for causing the CPU 11 to control the electronic device 1. The various programs include an inspection program used in an inspection process at the time of factory shipment of a product, which will be described later.

  The RAM 13 is a working memory, and various data are temporarily stored when the CPU 11 controls the electronic device 1.

  The built-in memory 14 is composed of a flash memory or the like, and stores, for example, still image and moving image image data, telephone directory data, mail data, schedule data, document data, and music data.

  The input unit 15 includes various operation buttons including a power key, and inputs an operation instruction from the user to the electronic device 1 as an electric signal to the CPU 11.

  The display unit 16 includes a TFT type LCD (Liquid Crystal Display) 161 that displays information such as characters and images, a drive circuit 162, a touch panel 163 assembled on the surface of the LCD 161, and a panel IC (Integrated Circuit) 164. Consists of

  The drive circuit 162 drives the LCD 161 according to an instruction from the CPU 11 and displays characters, images, and the like on the screen of the LCD 161.

  The touch panel 163 is a capacitance type, and although not shown, a plurality of rows of electrode patterns extending in the X direction and made of an ITO (Indium Tin Oxide) film provided on the same plane of the translucent substrate and the Y direction This is a general configuration in which a large number of electrode portions arranged in the XY direction formed by a plurality of rows of electrode patterns extending in the direction of each function as sensors.

  The panel IC 164 is a control IC for the touch panel 163, and individually drives the electrode patterns in a plurality of rows and a plurality of columns of the touch panel 163 in a predetermined order to perform capacitances of a large number of electrode portions arranged in the XY direction. Obtains the detection value indicated in units or columns.

  The panel IC 164 then displays status information indicating whether the panel IC 164 is in a touch state or a release state in which the touch state has not been touched based on the acquired detection value, and a touch position (position in the xy coordinates). The positional information shown is acquired and supplied to the CPU 11 as touch information (operation information).

  More specifically, the touch information is supplied to the CPU 11 when the detected value of the electrode pattern in any row or column changes, the event information indicating that is supplied from the panel IC 164 to the CPU 11, This is performed in response to a request from the CPU 11 triggered by supply.

  In the electronic device 1 having the above configuration, a touch panel inspection mode used at the time of product inspection at the manufacturing site is prepared in advance as an operation mode. The touch panel inspection mode is for inspecting whether there is a defect in the touch panel 163 due to disconnection or the like in the electrode pattern described above when the touch panel 163 is attached to the housing of the electronic apparatus 1 mainly in the assembly process of the electronic apparatus 1. It is an operation mode. This touch panel inspection mode is not limited to use at a manufacturing site, but can also be used when a service person or the user himself / herself performs an inspection after purchasing an electronic device.

  The inspection procedure using the touch panel inspection mode is very simple, and the person who performs the inspection sets the touch panel inspection mode, and then the inspection pattern 100 for the upper and lower sides or the left and right sides described later displayed on the screen G of the LCD 161. , 101 (see FIG. 3) is simply traced with a finger touching the screen (touch panel 163).

  Hereinafter, the processing procedure of the CPU 11 when the touch panel inspection mode is set will be described with reference to the flowchart of FIG.

  As shown in FIG. 2, the CPU 11 starts processing as soon as the touch panel inspection mode is set in the electronic device 1. First, the sides of the touch panel 163 to be inspected are set in a predetermined order, and the inspection object is inspected. An inspection pattern corresponding to the side is displayed on the LCD 161 (step S1).

  Here, the sides of the touch panel 163 to be inspected are all the top, bottom, left, and right sides, the inspection order is the top side, the right side, the bottom side, and the left side, and the inspection target at the beginning of the processing is the top side. Further, there are two types of inspection patterns, an inspection pattern 100 for upper and lower sides and an inspection pattern 101 for left and right sides.

  FIG. 3 is a diagram showing a state in which inspection patterns 100 and 101 for the upper and lower sides or the left and right sides are displayed on the display screen G of the LCD 161. FIG. 6A shows a state when the inspection target is the upper side, and shows a state where the upper and lower side inspection patterns 100 are displayed in contact with the upper side of the display screen G. FIG. FIG. 6B shows a state when the inspection target is the right side, and shows a state where the inspection pattern 101 for the left and right sides is displayed in contact with the right side of the display screen G. FIG. 4C shows a state when the inspection target is the lower side, and shows a state where the upper and lower side inspection patterns 100 are displayed in contact with the lower side of the display screen G. FIG. FIG. 4D shows a state when the inspection target is the left side, and shows a state in which the inspection pattern 101 for the left and right sides is displayed in contact with the left side of the display screen G.

  Here, the inspection pattern 100 for upper and lower sides indicates a touch operation path that traverses a plurality of rows of electrode patterns extending in the Y direction of the touch panel 163, and includes a plurality of blocks 100 a arranged in the X direction. . The number of blocks 100a is the same as the number of columns of the electrode patterns of the plurality of columns of the touch panel 163 described above, and the width x in the arrangement direction of the blocks 100a is equal to or smaller than the width of the electrode patterns of each column.

  Further, the inspection pattern 101 for the left and right sides indicates a touch operation path that traverses a plurality of rows of electrode patterns extending in the X direction of the touch panel 163, and includes a plurality of blocks 101a arranged in the Y direction. . The number of blocks 101a is the same as the number of rows of the electrode patterns in the touch panel 163 described above, and the width y in the arrangement direction of the blocks 101a is equal to or smaller than the width of the electrode patterns in each row.

  Therefore, in the process of step S1 at the beginning of the process, the CPU 11 places the inspection pattern 100 for the upper and lower sides on the LCD 161 in a state where it is positioned on the upper side of the touch panel 163 (display screen of the LCD 161) as shown in FIG. To display.

  Thereafter, every time the touch information is acquired from the panel IC 164 (step S2: YES), the CPU 11 checks whether there is an abnormality in the acquired touch information (step S3).

  A specific example of the case where the touch information is abnormal will be described in detail. For example, the touch information indicates a released state, or the inspection position 100 for the upper and lower sides currently being displayed or the inspection for the left and right sides is used as the touch position. This is a case in which each block 100a, 101a of the pattern 101 for use indicates a completely different coordinate position or indicates a plurality of touch positions.

  Note that what kind of touch information is detected as abnormal is not limited to this example because there is a part that depends on the touch status and touch position detection method by the panel IC 164. The following may be considered as abnormalities in indicating the touch position.

  That is, when a plurality of electrode patterns are in a short state, a plurality of touch positions may be detected at the same time. In this case, it can be determined that there is an abnormality.

  In addition, as a function of the panel IC 164, when a plurality of consecutive locations are touched at the same time so that only one touch location is detected even when operated with a thick finger, the representative of them is displayed. It may have a function of detecting only the position (for example, the center). And, in the case of having such a function, for example, if the central part of a plurality of locations touched at the same time is disconnected, the continuity of the plurality of locations is lost and discontinuity occurs. May be detected as being touched at the same time, and in this case, it can be determined that there is an abnormality.

  In addition, since the electrode pattern is disconnected, for example, after a touch at a position corresponding to the Nth electrode pattern is detected, before a touch at a position corresponding to the (N + 1) th electrode pattern is detected, N + 2 There is a case where a touch at a position corresponding to the th electrode pattern is detected. In this case, it can be determined that the N + 1 th electrode pattern is broken.

  That is, in the process of step S <b> 3, the CPU 11 determines that the touch information is abnormal when the presumed touch position to be acquired cannot be obtained, and the presumed touch position to be acquired is determined. If it is obtained, it is determined that the touch information is normal.

  If there is no abnormality in the touch information (step S3: NO), the CPU 11 next selects the coordinate range of any of the plurality of blocks 100a and 101a where the touch position indicated by the touch information is displayed on the inspection patterns 100 and 101. It is confirmed whether it is within (step S4).

  If the touch position is not within the coordinate range of the plurality of blocks 100a and 101a being displayed (step S4: NO), the CPU 11 returns to the process of step S2 as it is.

  On the other hand, if the touch position is within the coordinate range of any of the plurality of blocks 100a and 101a being displayed (step S4: YES), the CPU 11 erases the corresponding blocks 100a and 101a (step S5) and then erases them. The blocks 100a and 101a thus made are set as normal blocks, and the number of normal blocks is counted up (step S6).

  Thereafter, the CPU 11 returns to the process of step S2 until the number of normal blocks reaches the specified number, that is, the number of blocks of the test patterns 100 and 101 corresponding to the side to be inspected (step S7: NO). repeat.

  At this time, if the electrode pattern is disconnected, the number of normal blocks does not reach the specified number, so it will continue to wait for the touch information to be acquired in step S2, but it will be touched for a predetermined time or more. You may make it judge that it is abnormal also when information is not acquired.

  Therefore, as shown in FIG. 4, when the inspection target is set to the upper side of the touch panel 163 at the beginning of the process and the upper and lower side inspection patterns 100 are displayed in contact with the upper side of the LCD 161, However, if the test pattern 100 is moved from the left end side to the right end side (or vice versa) with the finger F touching the screen, the blocks 100a in the moved range will disappear in order. If no abnormality of touch information is confirmed by the CPU 11 in the process of step S3 described above, all the blocks 100a are lost.

  Thereafter, when the number of normal blocks reaches the specified number (step S7: YES), the CPU 11 determines that the inspection for the current inspection target side is completed at that time, and the inspection of all the sides of the touch panel 163 is completed. Until (step S8: NO), the process returns to step S1, the side to be inspected is set to the side in the next inspection order, and the inspection pattern corresponding to that side is displayed on the LCD 161. That is, during the second round of processing, the CPU 11 displays the inspection pattern 101 for the left and right sides in contact with the right side of the LCD 161 as shown in FIG.

  Thereafter, the CPU 11 repeats the above-described processing after step S2. Therefore, as shown in FIG. 5, even when the inspection target is set on the right side of the touch panel 163, the person who performs the inspection moves the inspection pattern 101 from the upper end side to the lower end side with the finger F touching the screen. If it is moved so as to be traced (or vice versa), each block 101a in the moved range will disappear in order. If no abnormality of the touch information is confirmed by the CPU 11 in the process of step S3, all the blocks 101a are lost.

  Further, thereafter, the CPU 11 returns to step S1 and repeats the same processing as described above until the inspection of all sides of the touch panel 163 is completed (step S8: NO).

  In other words, the CPU 11 displays the inspection pattern 100 for the upper and lower sides in contact with the lower side of the LCD 161 as shown in FIG. As shown in FIG. 3D, after the left and right side inspection patterns 101 are displayed in contact with the left side of the LCD 161, the processing from step S2 onward is repeated.

  Then, the CPU 11 completes the inspection of all the sides of the touch panel 163 without confirming the abnormality of the touch information in the processing of step S3 during the above-described processing (step S8: YES), and the inspection result for all the sides. As a result of inspection indicating the fact, “inspection OK” is displayed on the LCD 161 as shown in FIG. 6A (step S9). Thus, the process in the touch panel inspection mode is finished.

  Further, when the CPU 11 confirms an abnormality of touch information at an arbitrary time during the above-described processing (step S3: YES), that is, confirms an abnormality on any side of the touch panel 163 set as an inspection target at that time. If so, “inspection NG” is displayed on the LCD 161 as the inspection result information indicating that (step S10). Thus, the process in the touch panel inspection mode is finished.

  As described above, in the electronic device 1 of the present embodiment, after setting the touch panel inspection mode, the inspection patterns 100 and 101 displayed on the screen G of the LCD 161 are traced with a finger simply touching the screen (touch panel 163). It is possible to inspect whether the touch panel 163 after being incorporated into the electronic device 1 is normal or abnormal.

  Therefore, the electronic device 1 does not require a specific inspection device when inspecting the touch panel 163, and without moving the finger for each touch, a plurality of electrode patterns can be formed simply by moving the finger while touching. Since the inspection can be performed, even when the number of electrode patterns increases, the inspection time does not increase significantly, and the touch panel 163 can be inspected easily and in a short time. Further, since the above-described inspection patterns 100 and 101 are displayed on the screen at the time of inspection, it is possible to ensure that the person performing the inspection performs a touch operation necessary for the inspection.

  In addition to the touch panel 163, it is common to check other operations of the electronic device 1 before shipping the product. However, the touch panel 163 itself can be inspected through such operation check and a series of operations. The work efficiency of product inspection can be improved.

  Furthermore, the above-described inspection method can be performed only by causing the CPU 11 to perform the processing described with reference to FIG. 2, and no special hardware configuration is required. Therefore, the above-described inspection method can be easily and inexpensively applied to existing electronic devices simply by applying an inspection program similar to that stored in the ROM 12 in the present embodiment. .

  In this embodiment, all the upper, lower, left, and right sides of the touch panel 163 are sequentially inspected, and the inspection patterns 100 and 101 for the upper and lower sides or the left and right sides are sequentially displayed on each of the upper, lower, left and right sides. . Thereby, the reliability of a test | inspection can be improved.

  In other words, whether there is a defect such as disconnection or the like in any of the electrode patterns in a plurality of rows and the plurality of columns in the touch panel 163 described above is theoretically performed by inspecting only two sides of the touch panel 163 that are perpendicular to each other. Is necessary and sufficient.

  On the other hand, by making all the upper, lower, left, and right sides of the touch panel 163 subject to inspection, it is possible to change the touch position for the electrode pattern in the same row and the electrode pattern in the same column, respectively, and redundantly detect the presence or absence of defects such as disconnection. The inspection reliability can be improved by performing the inspection with the property.

  Further, in the present embodiment, when each side is sequentially inspected, only the inspection patterns 100 and 101 for the upper and lower sides or the left and right sides corresponding to the side to be inspected are displayed, and the side is inspected. On the condition that there is no abnormality inside, only the inspection patterns 100 and 101 for the upper and lower sides or the left and right sides corresponding to the side to be inspected next are displayed. Therefore, when an abnormality is found at the inspection stage for an arbitrary side, the unnecessary inspection work after that is not continued, and the inspection work can be performed efficiently.

  In the present embodiment, the inspection patterns 100 for the upper and lower sides are configured by the same number of blocks 100 a as the number of the electrode patterns of the plurality of columns of the touch panel 163, and the inspection patterns 101 for the left and right sides are formed on the touch panel 163. The same number of blocks 101a as the number of rows of electrode patterns in a plurality of rows is used. Therefore, at the time of inspection work of the touch panel 163, a touch operation to a position to be confirmed can be surely performed by a person who performs the inspection, and a necessary and sufficient inspection operation in the electronic device 1 can be ensured.

  In this embodiment, among the blocks 100a and 101a of the inspection patterns 100 and 101 for the upper and lower sides or the left and right sides being displayed, the blocks 100a and 101a at the already touched display positions are sequentially erased. Therefore, during the inspection operation of the touch panel 163, the person performing the inspection intuitively confirms whether or not the predetermined touch operation is being performed, and at the same time, if there is a touch operation error, the fact is notified. Can do.

  For such points, the blocks 100a and 101a at the display positions that have already been touched are not sequentially erased, but the blocks 100a and 101a at other display positions that have not been touched, for example, by changing the display color. The same effect can be obtained by sequentially changing to an identifiable state.

  Further, instead of sequentially erasing the blocks 100a and 101a at the touched display position, the positions of the electrode patterns where the touch is detected and the positions of the electrode patterns where the touch is not detected are identified together after the inspection is completed. May be displayed.

  Further, instead of sequentially erasing the blocks 100a and 101a at the touched display positions, the blocks 100a and 101a at the touched display positions are sequentially displayed without displaying the blocks 100a and 101a in advance. Also good.

  Even in this case, the positions of the electrode patterns where the touch is detected and the positions of the electrode patterns where the touch is not detected may be identified and displayed after the inspection is finished.

  Further, instead of identifying and displaying the position of the electrode pattern, the number of the electrode pattern may be displayed.

  Whether you change the display state sequentially during the inspection, or when you change the display state collectively after the end of the inspection, you can know the position and number of the abnormal electrode pattern by looking at the display, When changing the display state sequentially during inspection, the person who inspects intuitively whether an abnormality is indicated due to a touch operation error or whether an abnormality is indicated due to disconnection or short of the electrode pattern. There is an advantage that it can be judged.

  Furthermore, in the present embodiment, whether or not the blocks 100a and 101a at the respective display positions have been touched is confirmed based on whether or not the detected touch position is within the display area of any of the blocks 100a and 101a. Therefore, necessary and sufficient inspection operation in the electronic device 1 can be ensured.

  Further, in the present embodiment, when all the count values of the normal blocks counted at the time of inspection for each side are predetermined values, it is determined that there is no abnormality in the touch panel. Therefore, necessary and sufficient inspection operation in the electronic device 1 can be ensured.

  On the other hand, in this embodiment, when the touch information described above is acquired, it is abnormal and corresponds to the blocks 100a and 101a of the inspection patterns 100 and 101 for the upper and lower sides or the left and right sides being displayed. A case has been described in which it is immediately determined that there is an abnormality in the touch panel 163 when the touch position to be performed cannot be obtained.

  However, unlike the present embodiment, it may be determined that there is an abnormality in the touch panel 163 when the total value of the count values of the normal blocks counted during the inspection for each side does not reach the predetermined value. . That is, the presence / absence of abnormality of the touch panel 163 may be determined based only on the detected touch position.

  Further, in the present embodiment, when the touch information described above is acquired and it indicates a release state, the touch information is immediately determined to be abnormal. However, as described below, Also good.

  That is, even when the touch information indicating the release state is acquired, the touch position corresponding to the Nth electrode pattern is acquired immediately before, and the touch position corresponding to the N + 1th electrode pattern is immediately after that. When acquired, it may be determined that there is no abnormality in the touch information. In other words, in such a case, the inspection may be continued on the assumption that the touched state is kept released without being released.

  In the present embodiment, the direction in which the test patterns 100 and 101 are traced with the finger is not limited at the time of the inspection. However, the direction is determined in advance, and the touch positions are acquired in the order corresponding to the direction. You may make it determine with the touch panel 163 being normal on condition that it was able to be performed.

  In the present embodiment, the inspection pattern 100 for the upper and lower sides is displayed in contact with the upper side or the lower side of the display screen G, and the inspection pattern 101 for the left and right sides is displayed in contact with the right side or the left side of the display screen G. However, as long as each of the test patterns 100 and 101 is located on each side of the display screen G, the test patterns 100 and 101 may be displayed at positions separated from each other.

  In addition, the inspection patterns 100 and 101 for the upper and lower sides and the left and right sides are configured by blocks 100a and 101a which are unit portions for which the touch position is to be confirmed. However, the inspection patterns 100 and 101 for the upper and lower sides and the left and right sides only need to function as a guide indicating the touch operation path at the time of the inspection of the touch panel 163, and each can be a simple solid line or the like. .

  Furthermore, in the present embodiment, the touch operation path is described as a path along each of the upper, lower, left, and right sides of the touch panel 163. However, the touch operation path may correspond to the arrangement of the electrodes of the touch panel, specifically, any one that crosses all of the electrode patterns of the plurality of rows and the plurality of columns of the touch panel 163 at arbitrary positions. The route may be different from that described in the present embodiment. Further, the touch operation route may be a single route.

  FIG. 7 is a diagram showing a modification example in that case, in which a solid line is displayed as a guide indicating the touch operation path.

  Specifically, FIG. 7A is an example in which two straight lines 201 and 202 are displayed on the display screen G at positions corresponding to the diagonal lines as guides. It is an example in the case where each indicates two different touch operation paths.

  In this case, when the touch panel 163 is inspected, a person who performs the inspection may perform a touch operation of tracing the straight lines 201 and 202 in order. Further, the straight lines 201 and 202 may be individually displayed as in the embodiment described above, or the already touched area portions may be sequentially erased.

  FIG. 7B shows an example in which a solid line 301 that draws an ellipse having a size in which each of the upper, lower, left, and right parts is close to each side of the display screen G is displayed on the display screen G as a guide. It is an example in the case of showing a touch operation route.

  FIG. 7C shows an example in which the display screen G displays a solid line 401 that draws a rectangle having a size in which the upper, lower, left, and right corners are close to each side of the display screen G as a guide. It is an example in the case of showing one touch operation path.

  For the solid lines (guides) 301 and 401 shown in FIGS. 7B and 7C, the already touched area portions may be sequentially erased.

  Moreover, although the above description demonstrated the case where the touchscreen provided in the electronic device 1 was a capacitive type, this invention is applicable even if a touchscreen is a resistive film type. In this case, however, calibration needs to be performed prior to the touch panel inspection.

As mentioned above, although embodiment of this invention and its modification were demonstrated, as long as these are in the range with which the effect of this invention is obtained, it can change suitably, and embodiment after change is also in a claim. It is included in the scope of the invention described and equivalent invention.
The invention described in the scope of the claims of the present application will be appended below.
[Claim 1]
In an electronic device including a display unit provided with a touch panel,
An acquisition means for acquiring operation information including an operation state of the touch panel and a touch position;
Confirming means for confirming whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the operation information acquired by the acquisition unit;
Determination means for determining presence or absence of abnormality of the touch panel based on a confirmation result by the confirmation means;
An electronic device comprising: output means for outputting a determination result by the determination means.
[Claim 2]
The predetermined operation state is a state where the touch state remains touched without being released,
The confirmation means confirms whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path without releasing the touch state based on the operation information acquired by the acquisition means. The electronic device according to claim 1.
[Claim 3]
The predetermined operation state is a state in which there is no abnormality in the operation information acquired by the acquisition unit,
The confirmation means confirms whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path in a state where there is no touch abnormality based on the operation information acquired by the acquisition means. The electronic device according to claim 1 or 2, characterized in that
[Claim 4]
The predetermined operation state is a state of being touched along the inspection touch operation path without departing from the inspection touch operation path.
The confirmation means is based on the operation information acquired by the acquisition means, and the start point of the touch operation path for inspection along the touch operation path for inspection without the position of the touch operation deviating from the touch operation path for inspection. 4. The electronic device according to claim 1, wherein the electronic device checks whether it has moved from the end point to the end point. 5.
[Claim 5]
5. The apparatus according to claim 1, further comprising a display control unit that displays a touch operation path for the inspection and displays a guide corresponding to an arrangement of electrodes of the touch panel on the display unit. 6. Electronic equipment.
[Claim 6]
The confirmation unit performs the confirmation during the display of the guide, and confirms whether the touch position included in the touch information corresponds to the display position of the guide during the confirmation. 6. The electronic apparatus according to claim 5, wherein, when the position corresponds to a display position of the guide, it is determined that the position of the touch operation is on a touch operation path for inspection.
[Claim 7]
The inspection touch operation path further includes setting means for setting the two vertical sides of the display unit,
The electronic device according to claim 6, wherein the display control unit causes the display unit to display the guide indicating the touch operation path for the inspection set by the setting unit.
[Claim 8]
The setting unit sets the touch operation path for inspection on one side of the two sides, and then the position of the touch operation is set to the start point of the touch operation path for inspection without the touch state being released by the confirmation unit. The electronic device according to claim 7, wherein the electronic device is set to the other side of the two sides on the condition that it has been confirmed that the terminal has moved from the end to the end point.
[Claim 9]
The guide is composed of a plurality of unit parts equal to the number of electrodes in the inspection touch operation path,
The confirmation unit confirms whether or not the touch position included in the touch information corresponds to any display position of the plurality of unit parts, and the touch position is any of the plurality of unit parts. The electronic device according to any one of claims 6 to 8, wherein the position of the touch operation is determined to be on the inspection touch operation path when the display position corresponds to the display position.
[Claim 10]
The display control unit is a unit of a display position in which the guide displayed on the display unit is confirmed to be a touch position included in the touch information by the confirmation unit among the plurality of unit parts. 10. The electronic apparatus according to claim 9, wherein the portion is sequentially changed to a state that can be distinguished from other unit portions.
[Claim 11]
In the confirmation, the confirmation unit confirms whether or not the touch position included in the touch information is within a display area of any of the plurality of unit parts, and the touch position is any of the plurality of unit parts. 11. The electronic device according to claim 9, wherein the position of the touch operation is determined to be on the touch operation path for inspection when it is within the display area.
[Claim 12]
In the confirmation, when the number of the unit parts of the display position at which the touch position is confirmed reaches the predetermined number in the confirmation, the position of the touch operation is determined from the start point of the touch operation path for inspection. The electronic device according to claim 9, wherein the electronic device is determined to have moved to an end point.
[Claim 13]
In an electronic device including a display unit provided with a touch panel,
Obtaining operation information including an operation state of the touch panel and a touch position;
A step of checking whether the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the acquired operation information;
Determining whether there is an abnormality in the touch panel based on the result of the confirmation;
And a step of outputting the result of the determination.
[Claim 14]
In a computer having an electronic device including a display unit provided with a touch panel,
A process of acquiring operation information including an operation state of the touch panel and a touch position;
Based on the acquired operation information, a process for confirming whether the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state;
A process of determining the presence or absence of an abnormality of the touch panel based on the result of the confirmation;
A program for causing the output means to output the result of the determination.

1 Electronic equipment 11 CPU
12 ROM
13 RAM
14 Built-in memory 15 Input unit 16 Display unit 161 LCD
162 Driving circuit 163 Touch panel 164 Panel IC

Claims (13)

In an electronic device including a display unit provided with a touch panel,
An acquisition means for acquiring operation information including an operation state of the touch panel and a touch position;
Based on the operation information acquired by the acquisition unit, from the start point of the touch operation path for the position of the data pitch operation test to the end point, and move while maintaining the touched state without touching state is released whether it is a sequential determination means,
Wherein the position of the I Ri touch operation to the determining means, before the end point of the touch operation path for the test was determined to be not moving while maintaining the touched state without touching state is released An electronic device comprising: output means for outputting the determination result at the time . The output means is determined by the determination means that the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining the touched state without being released. The electronic device according to claim 1, wherein the determination result is further output at the time. In an electronic device including a display unit provided with a touch panel,
An acquisition means for acquiring operation information including an operation state of the touch panel and a touch position;
Confirming means for confirming whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the operation information acquired by the acquisition unit;
Determination means for determining presence or absence of abnormality of the touch panel based on a confirmation result by the confirmation means;
Output means for outputting a determination result by the determination means;
With
The predetermined operation state is a state of being touched along the inspection touch operation path without departing from the inspection touch operation path.
The confirmation means is based on the operation information acquired by the acquisition means, and the start point of the touch operation path for inspection along the touch operation path for inspection without the position of the touch operation deviating from the touch operation path for inspection. child equipment electrostatic characterized by confirming whether or not moved to the end point from. In an electronic device including a display unit provided with a touch panel,
An acquisition means for acquiring operation information including an operation state of the touch panel and a touch position;
Confirming means for confirming whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the operation information acquired by the acquisition unit;
Determination means for determining presence or absence of abnormality of the touch panel based on a confirmation result by the confirmation means;
An output means for outputting a determination result by the determination means;
Display control means for displaying a touch operation path for the inspection and displaying a guide corresponding to the arrangement of the electrodes of the touch panel on the display unit;
With
The confirmation means performs the check during the display of the guide, upon the confirmation, it is confirmed whether the touch position is included in the data pitch information corresponds to the display position of the guide, said touch position wherein if applicable the guide display position, characterized and to that electronic devices that the position of the touch operation is determined to be the touch operation path for inspection. The inspection touch operation path further includes setting means for setting the two vertical sides of the display unit,
5. The electronic apparatus according to claim 4 , wherein the display control unit causes the display unit to display the guide that indicates the inspection touch operation path set by the setting unit. The setting unit sets the touch operation path for inspection on one side of the two sides, and then the position of the touch operation is set to the start point of the touch operation path for inspection without the touch state being released by the confirmation unit. The electronic device according to claim 5 , wherein the electronic device is set on the other side of the two sides on the condition that it has been confirmed that the robot has moved from the end point to the end point. The guide is composed of a plurality of unit parts equal to the number of electrodes in the inspection touch operation path,
The confirmation unit confirms whether or not the touch position included in the touch information corresponds to any display position of the plurality of unit parts, and the touch position is any of the plurality of unit parts. The electronic apparatus according to any one of claims 4 to 6 , wherein the position of the touch operation is determined to be on the touch operation path for inspection when the display position corresponds to the display position. The display control unit is a unit of a display position in which the guide displayed on the display unit is confirmed to be a touch position included in the touch information by the confirmation unit among the plurality of unit parts. 8. The electronic apparatus according to claim 7, wherein the portion is sequentially changed to a state in which the portion can be distinguished from other unit portions. In the confirmation, the confirmation unit confirms whether or not the touch position included in the touch information is within a display area of any of the plurality of unit parts, and the touch position is any of the plurality of unit parts. If it is Kano display area, according to claim 7 or 8 electronic apparatus according the position of the touch operation, characterized in that it is determined that the on the touch operation path for inspection. In the confirmation, when the number of the unit parts of the display position at which the touch position is confirmed reaches the predetermined number in the confirmation, the position of the touch operation is determined from the start point of the touch operation path for inspection. the electronic device according to any one of claims 8 to 1 0, characterized in that it is determined that the moving end point. In an electronic device including a display unit provided with a touch panel,
Obtaining operation information including an operation state of the touch panel and a touch position;
Based on the obtained operation information, whether or not the position of the data pitch operation is moving while maintaining the touched state without end point, the touch state is released from the start point of the touch operation path for inspection Sequentially determining
When it is determined that the position of the touch operation is not moving before the end point of the touch operation path for the inspection while the touch state is not released, the determination result is A touch panel inspection method comprising: an output step. In an electronic device including a display unit provided with a touch panel,
Obtaining operation information including an operation state of the touch panel and a touch position;
A step of checking whether the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the acquired operation information;
Determining whether there is an abnormality in the touch panel based on the result of the confirmation;
Outputting the result of the determination; and
Including
The predetermined operation state is a state of being touched along the inspection touch operation path without departing from the inspection touch operation path.
Based on the acquired operation information, whether or not the position of the touch operation has moved from the start point to the end point of the inspection touch operation path along the inspection touch operation path without deviating from the inspection touch operation path. Check
A touch panel inspection method characterized by the above. In an electronic device including a display unit provided with a touch panel,
Obtaining operation information including an operation state of the touch panel and a touch position;
A step of checking whether the position of the touch operation has moved from the start point to the end point of the inspection touch operation path while maintaining a predetermined operation state based on the acquired operation information;
Determining whether there is an abnormality in the touch panel based on the result of the confirmation;
Outputting the result of the determination;
Showing the touch operation path for the inspection and displaying a guide corresponding to the arrangement of the electrodes of the touch panel on the display unit;
Including
The confirmation is performed during the display of the guide, and at the time of the confirmation, it is confirmed whether or not the touch position included in the touch information corresponds to the display position of the guide, and the touch position corresponds to the display position of the guide. In the touch panel inspection method, the touch operation position is determined to be on the inspection touch operation path.

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