TW201633108A - Inspection method using sliding screens to switch setup, activate and display processes - Google Patents

Abstract

An inspection method using sliding screens to switch setup, activate and display processes is disclosed. The method is applied to an electronic inspection instrument to enable the electronic inspection instrument to perform the following steps: displaying a setup screen on a touch screen thereof; gradually moving a testing screen from an edge side on the touch screen into the touch screen along a sliding direction when an object's touching at a first position on the touch screen is detected and slides to a second position on the touch screen; calculating at least one switch value for the object's moving from the first position to the second position when a finish of the object's sliding and object's leaving the second position are detected; moving the test screen completely into the touch screen when the switch value exceeds a switch threshold value, and activating the electronic inspection instrument to conduct an inspection on an electronic device, and then displaying the test result on the test screen. Accordingly, the disclosed method is able to simply use only one object to conduct the sliding movement on the touch screen, which is simple, quick and convenient for conducting a setup, activation and display process on the electronic inspection instrument required during the inspection on an electronic device.

Description

Method for detecting setting, starting and displaying programs by sliding screen

The invention relates to a detection method, in particular to a detection method for switching setting, starting and displaying a program through a sliding screen, which only needs to perform point selection and sliding movement on an touch screen of an electronic detecting instrument through an object, that is, The setting, starting and displaying procedures required for testing an electronic device can be performed and switched on the electronic detecting instrument simply, quickly and conveniently, thereby effectively improving the efficiency and accuracy of the detecting.

With the rapid development of information technology and electronics industry, a variety of electronic devices have emerged, such as smart phones that integrate communication, entertainment and simple office functions, which can record the movement time, distance, heart rate and calorie wisdom. The bracelet, and the smart glasses that can provide information and record the current situation in real time, etc., bring convenience to people at all application levels, and at the same time gradually become inseparable from people's lives. The quality of electronic devices will have a great impact on people's lives. In particular, in terms of the safety of use, if it is slightly negligent, it will pose a considerable threat to people's lives and property.

Therefore, before the sellers sell, they will carry out safety tests on many electronic devices. The general safety test is mainly for the implementation of AC, DC, high voltage, high voltage and insulation resistance for electronic products, semi-finished products and electronic parts. Test items such as grounding resistance and dynamic leakage current, simulate the degradation of the insulation of the product, and find the problem of electric shock, flashover or over-temperature of the electrical product. In order to comply with relevant safety regulations such as UL, TUV, CE... and to ensure that people are safe in use.

At present, the testing methods of related companies mainly carry out safety testing of many electronic devices on an electronic device through an electronic testing device to know whether the electronic device meets the safety regulations before the factory is sold, but the items to be tested are required. Numerous, so that the user not only needs to perform the setting, starting and displaying procedures through the plurality of physical buttons provided on the conventional electronic detecting instrument, so that the conventional electronic detecting device can perform the electronic device one by one. In addition to the various tests, it is necessary to touch the physical buttons to replace the screen layer by layer. After entering the setting screen of the specific project and inputting the relevant test parameters, the detection program for starting the project can be executed. After entering the test screen, the test results will be known, which not only greatly increases the user's operational complexity, but also makes the whole test process extraordinarily long. It is also easy for users to use complicated and complicated operation procedures. In the subsequent setting procedure, human error occurs, which leads to the wrong test result, but does not know.

Therefore, how to improve the conventional detection method to solve the aforementioned problems is an important problem that the present invention is intended to solve here.

In view of the above-mentioned problems in the conventional detection method, the inventor has finally designed the switching setting, starting and displaying program of the present invention through the sliding screen after many years of practical experience and after many experiments and tests. The detection method can effectively improve the aforementioned many defects by the present invention.

An object of the present invention is to provide a detection method for switching setting, starting and displaying a program through a sliding screen, which is applied to an electronic detecting instrument capable of The electronic device performs detection of AC, DC, high voltage, high power withstand voltage, insulation resistance, grounding resistance and/or dynamic leakage current. The electronic detection instrument is provided with a touch screen, and a detection program is installed, and at least When the detection threshold is activated, the detection method enables the electronic detecting device to perform the following steps: displaying a setting screen on the touch screen, and displaying a plurality of setting options on the setting screen ( Such as: AC, super high voltage, high power withstand voltage, insulation resistance, grounding resistance, dynamic leakage current test set value or / and its test mode) for users to use an object (such as: finger, stylus) Touching the touch point selection; after the user completes the selection of each of the setting options, when detecting that the object touches a first position on the touch screen, and sliding from the first position to the touch In a second position on the control screen, a test screen is gradually moved from the side of one of the touch screens to the touch screen in the sliding direction to cover a portion of the setting screen; Detecting that the object ends the slip and exits the second position, calculating at least one switching value of the object sliding from the first position to the second position (eg, a slip distance or/and a slip) Speed); determine whether the switching value exceeds the switching threshold? When it is determined that the switching value exceeds the switching threshold, the test screen is completely moved onto the touch screen, and the setting screen is completely covered, and the electronic detecting device is activated, according to each selected one. The setting option is to detect the electronic device and display the detection result on the test screen; otherwise, when it is determined that the switching value does not exceed the switching threshold, the test screen is in the opposite direction of the sliding direction And gradually returning to the side of the touch screen, and presenting the setting screen only on the touch screen, and the electronic detecting device is not activated to test the electronic device.

In this way, the user only needs to perform the click and slide movement on the touch screen through an object, that is, can be executed, and switched on the electronic detecting instrument simply, quickly and conveniently. The setting, starting and displaying procedures required for the electronic device to perform the test can not only greatly reduce the complexity of the operation of the user, but also make the whole test process more concise and brighter than the use of the conventional electronic detecting instrument. It can also avoid the human error caused by the user in the subsequent setting procedures due to the lengthy and complicated operation procedures, so it can effectively improve the accuracy and efficiency of the detection.

For your convenience, the review committee can make a further understanding and understanding of the purpose, technical features and effects of the present invention. The embodiments are combined with the drawings, and the details are as follows:

[study]

no

〔this invention〕

1‧‧‧Electronic testing equipment

11‧‧‧Touch screen

12‧‧‧Processing unit

13‧‧‧ storage unit

131‧‧‧Detection program

132‧‧‧Switch threshold

14‧‧‧Test module

15‧‧‧Setting screen

151‧‧‧Set options

16‧‧‧Test screen

A‧‧‧ first position

B‧‧‧second position

C‧‧‧ third position

D‧‧‧ fourth position

2‧‧‧Electronic devices

4‧‧‧ objects

1 is a block diagram of an electronic detecting instrument of the present invention; FIG. 2 is a flow chart of a front part of the detecting method of the present invention; FIG. 3 is a flow chart of a later stage of the detecting method of the present invention; A schematic diagram of a screen displayed by the touch screen on the previous stage of the invention; and FIG. 5 is a schematic diagram of the screen displayed by the touch screen of the subsequent stage of the present invention.

The present invention is a method for detecting a setting, starting, and displaying program through a sliding screen. Referring to FIG. 1, in a preferred embodiment of the present invention, the detecting method is applied to an electronic detecting apparatus 1. The electronic detecting instrument 1 can detect an AC/DC, an ultra-high voltage, a high-power withstand voltage, an insulation resistance, a grounding resistance, and/or a dynamic leakage current for an electronic device 2.

As shown in FIG. 1 , the electronic detection device 1 is provided with a touch screen 11 , a processing unit 12 , a storage unit 13 and a detection module 14 . The touch screen 11 and the processing unit 12 are electrically connected. Connected as an object 4 (user's finger or stylus, etc., as in 4th When the touch screen 11 is touched, the touch screen 11 can send a touch message to the processing unit 12 according to the touch behavior caused by the object 4, and the touch screen 11 can Accepting the instruction sent by the processing unit 12, and presenting the image frame according to the instruction; the storage unit 13 is electrically connected to the processing unit 12, and can receive the instruction sent by the processing unit 12 to make the processing unit 12 The program stored in the storage unit 13 can be called and executed. The storage unit 13 is provided with a detection program 131 and at least one switching threshold value 132. The detection module 14 is electrically connected to the processing unit 12 and can Externally connecting the electronic device 2 to receive and execute the detection command sent by the processing unit 12, detecting the electronic device 2, and detecting and returning the related data of the electronic device 2 in the detection (eg, temperature , voltage, current, etc.).

The complete process of the detection method of the present invention can be divided into a previous process (as shown in FIG. 2) and a subsequent process (as shown in FIG. 3), and only the detection method of the above preferred embodiment is further For the description of the first, second and fourth embodiments, the detection method enables the electronic detecting device 1 to perform the following steps when the detecting program 131 is activated: (301) on the touch screen 11 A setting screen 15 is displayed. The setting screen 15 presents a plurality of setting options 151 (eg, AC/DC, ultra high voltage, high power withstand voltage, insulation resistance, grounding resistance, and/or dynamic leakage current test setting value and/or The test mode is provided for the user to use the object 4 to touch the touch point; (302) after the user completes the selection of each of the setting options 151, it is determined whether the object 4 touches the touch screen 11 One of the first positions A, and is slid from the first position A to a second position B on the touch screen 11? If yes, go to step (303), otherwise, go back to step (302); (303) take a test screen 16 from one side of the touch screen 11 and gradually follow the sliding direction. Moved to the touch screen 11 to cover part of the setting screen 15; (304) determine whether the object 4 ends slipping and leaves the second position B? If yes, proceed to step (305), otherwise, return to step (304); (305) calculate at least one switching value of the object 4 from the first position A to the second position B (eg: a slip distance or / and a slip speed); (306) determine whether the switching value exceeds the switching threshold 132? If yes, proceed to step (307), otherwise, proceed to step (320); (307) completely move the test screen 16 onto the touch screen 11, completely cover the setting screen 15, and activate the electronic The detecting device 1 detects the electronic device 2 according to each of the setting options 151 that has been selected, and displays the detection result on the test screen 16, and proceeds to step (308) (as shown in FIG. 3). And (320) gradually returning the test screen 16 to the side of the touch screen 11 in the opposite direction of the sliding direction, and not starting the electronic detecting device 1 to test the electronic device 2, Returning to step (302), the setting screen 15 is presented only on the touch screen 11.

In this way, after the user selects each of the setting options 151, the electronic detecting device 1 can be quickly and easily switched to the test screen by using a single sliding operation. 16, and simultaneously detecting the electronic device 2, and displaying the detection result on the test screen 16.

In another preferred embodiment of the present invention, as shown in Figures 1, 3 and 5, when the electronic detecting device 1 is detecting the electronic device 2 (i.e., step (307) in Figure 2 ), or when the test has been completed, the detection method can still enable the electronic detecting instrument 1 to execute Step 308: determining whether the object 4 touches a third position C on the touch screen 11 and sliding from the third position C to a fourth position D on the touch screen 11 ? If yes, proceed to step (309), otherwise, return to step (308); (309) the setting screen 15 is gradually moved from the other side of the touch screen 11 to the touch type according to the sliding direction. The screen 11 is covered to cover a portion of the test screen 16; (310) determining whether the object 4 has finished slipping and leaving the fourth position D? If yes, proceed to step (311), otherwise, return to step (310); (311) calculate at least one switching value of the object 4 from the third position C to the fourth position D (eg, slip distance or / And the slip speed); (312) determining whether the switching value exceeds the switching threshold 132? If yes, go to step (313); otherwise, go to step (321); (313) completely move the setting screen 15 onto the touch screen 11, completely cover the test screen 16, and stop the electronic The detecting device 1 detects the electronic device 2 so that the user can click on each of the setting options 151 on the setting screen 15; and (321) gradually adjust the setting screen 15 in the opposite direction of the sliding direction. Returning to the other side of the touch screen 11 without stopping the test of the electronic device 2 on the electronic device 2, and returning to the step (308), the image is still displayed on the touch screen 11 The test screen 16 and the electronic testing device 1 continue to test the electronic device 2.

Thus, when the electronic detecting device 1 has completed the detection of the electronic device 2, or the electronic detecting device 1 is still detecting the electronic device 2, the user wants to change When the setting option 151 in the setting screen 15 is changed, the user can quickly and easily return the touch screen 11 from the test screen 16 to the setting screen 15 by a single sliding operation, and At the same time, the detection of the electronic device 2 by the electronic detecting instrument 1 is suspended.

As shown in Figures 4 and 5, the object 4 is slid from the first position A to the second position B, and the object 4 is slid from the third position C to the fourth The direction of the position D is reversed to facilitate the user to distinguish clearly, and the object 4 is easily used to perform the two sliding movements. In the above embodiment of the invention, the object 4 is slid rightward from the first position A. Moving to the second position B, and the object 4 is slid leftward from the third position C to the fourth position D. However, in other embodiments of the invention, the object 4 can also be Position A is slid down to the second position B, and is slid upward from the third position C to the fourth position D, regardless of the direction of the slip, as long as the object 4 is slid from the first position A to The direction of the second position B is opposite to the direction in which the object 4 is slid from the third position C to the fourth position D, which is the scope of the invention to be protected herein. Furthermore, in the above embodiment of the present invention, the object 4 is slid rightward from the first position A to the second position B, so that the test screen 16 is subsequently left by the touch screen 11 Side, gradually moving to the right to the touch screen 11, or gradually returning to the left side of the touch screen 11 to the left; likewise, since the object 4 is left to the left by the third position C Sliding to the fourth position D, the setting screen 15 is then gradually moved to the left of the touch screen 11 by the right side of the touch screen 11, or gradually returned to the right The right side of the touch screen 11.

In addition, as shown in Figures 4 and 5, the detection method is still capable of sliding the object 4 from the first position A to the second position B, and sliding from the third position C to the fourth position. In the process of D, the electronic detecting instrument 1 respectively calculates the object 4 from the first position A Sliding to the second position B, and the distance and/or speed of the process of sliding from the third position C to the fourth position D, 滑, according to the object 4 slipping from the first position A to the first The distance or/and speed of the process of the second position B relatively changes the distance or/and speed of the test screen 16 moved onto the touch screen 11, and the object 4 is slipped from the third position C to the first The distance or/and speed of the process of the four-position D relatively changes the distance and/or speed that the setting screen 15 moves onto the touch screen 11 to cause the pictures to be moved onto the touch screen 11. The change can be synchronized with the distance or/and the speed at which the object 4 slides.

In summary, the user can perform the click and slide movement on the touch screen 11 through the object 4, which can be performed on the electronic detecting instrument 1 simply and quickly and conveniently. The setting, starting and displaying procedures required for the electronic device 2 to perform the test are performed by the user not only through the use of a plurality of physical buttons provided on the conventional electronic detecting instrument, but also by using the conventional electronic detecting device. Programs such as setting, starting, and displaying need to touch the physical buttons to replace the screen layer by layer. After entering the setting screen and inputting relevant test parameters, the startup program can be executed, and then the test screen is entered. At the beginning, we were able to learn about the test results, which not only greatly increased the complexity of the user's operation, but also made the whole test process extraordinarily long. It was also easy for the user to follow the lengthy and complicated operation procedure. In the case of human error, which leads to erroneous test results, but does not know, the invention can not only greatly reduce the complexity of the operation of the user. To make the whole test process more concise and clear, it can also avoid the human error caused by the user's subsequent setting procedures due to the lengthy and complicated operation procedures, so it can effectively improve the accuracy of the test and effectiveness.

According to the above, it is only a preferred embodiment of the present invention, but the present invention is The scope of the present invention is not limited thereto, and those skilled in the art, based on the technical content disclosed in the present invention, can easily think of equivalent changes, and should not fall within the protection scope of the present invention.

301~307, 320‧‧‧ steps

Claims (7)

A detection method for switching setting, starting and displaying a program through a sliding screen is applied to an electronic detecting instrument capable of detecting an electronic device having a touch screen and mounted thereon Having a detection program and storing at least one switching threshold, the detection method is configured to enable the electronic detecting device to perform the following steps: displaying a setting screen on the touch screen, the setting screen is displayed when the detecting program is started There are a plurality of setting options for the user to use an object touch contact selection; after the user completes the selection of each setting option, when detecting that the object touches one of the touch screens a first position, and when the first position is slid to a second position on the touch screen, a test screen is gradually moved from the side of the touch screen to the sliding direction to the side Touching the screen to cover a portion of the setting screen; when detecting that the object ends to slip and exit the second position, calculating that the object slides from the first position to the second position Setting at least one switching value; and when it is determined that the switching value exceeds the switching threshold, the test screen is completely moved onto the touch screen, and the setting screen is completely covered, and the electronic detection is started. The instrument detects the electronic device according to each of the selected setting options, and displays the detection result on the test screen. The detecting method of claim 1 further enables the electronic detecting device to perform the following steps: displaying the test screen on the touch screen, and the electronic detecting device is detecting the electronic device or has completed the detecting In the case that the object is detected to touch one of the third positions on the touch screen, and the third position is slid to the fourth position on the touch screen. When the setting is performed, the setting screen is gradually moved into the touch screen by the other side of the touch screen to cover a part of the test screen; when the object is detected to be ended When sliding, and leaving the fourth position, calculating at least one switching value of the object sliding from the third position to the fourth position; when it is determined that the switching value exceeds the switching threshold, the setting screen is completely The ground is moved into the touch screen, and the test screen is completely covered, and the electronic detecting device is stopped to detect the electronic device, so that the user can click on each setting option on the setting screen. The detecting method according to claim 1 or 2, wherein the electronic detecting instrument can perform the following steps: when the object ends slipping and leaves the second position, when it is determined that the switching value does not exceed the switching When the threshold value is reached, the test screen is gradually returned to the side of the touch screen in the opposite direction of the sliding direction, and the electronic detecting device is not activated to test the electronic device, only in the touch This setting screen is displayed on the screen. The detecting method according to claim 3, wherein the electronic detecting instrument can perform the following steps: when the object ends slipping and leaves the fourth position, when it is determined that the switching value does not exceed the switching threshold value The setting screen is gradually retracted to the other side of the touch screen in the opposite direction of the sliding direction, and the electronic detecting device is not suspended from testing the electronic device, and the touch is still in the touch The test screen is presented on the control screen. The detecting method of claim 4, wherein the object is slid from the first position to the second position in a direction opposite to the direction in which the object is slid from the third position to the fourth position. The detecting method according to claim 5, wherein the electronic detecting instrument performs the following steps: respectively calculating that the object is slid from the first position to the second position, and sliding from the third position a distance or/and a speed of the process of moving to the fourth position; and depending on the distance or/and speed of the process in which the object is slid from the first position to the second position, the test screen is relatively changed to move to the touch a distance or/and a speed on the screen; and a distance or/and a speed of the process of sliding the object from the third position to the fourth position, relatively changing a distance that the setting screen is moved onto the touch screen or / and speed. The detection method according to claim 6, wherein the switching value is a slip distance or/and a slip speed of the object.