TWD206239S - Graphical user interface of display screen - Google Patents

Abstract

[Item Usage]; This design is a color graphical user interface for a multi-probe circuit tester that can test AC and DC voltage, resistance and current intensity. ;[Design Description];This design provides a graphical user interface with a display screen for a multi-probe circuit tester. The multi-probe circuit tester's color graphical user interface is simplified by menus and individual function buttons. Navigation operations. ;Front view 1 shows the main interface image of this design, and the remaining dynamic images show interface images that are converted sequentially under different functions. ;When the SWITCH function is selected in current view 1, if an overload (OVER LOAD) state occurs, the interface will change from front view to front view 2. ;When the main interface selects the AMP meter mode, the interface will switch from front view 3 to front view 4; according to the readings of the multi-probe circuit tester, when the "+" power button of the multi-probe circuit tester is pressed, The interface will switch from front view 4 to front view 6 with the highlighted "+" sign in the upper right corner; when the "-" power button of the multi-probe circuit tester is pressed, the interface will switch from front view 4 to front view 6. View 5 shows the highlighted "-" symbol in the upper left corner, which also indicates whether the circuit is good or bad. ;Similarly when selecting the AMP meter mode, if overload, overvoltage or overheating occurs, the interface will switch from front view 7 to front view 8, 9 or 10 respectively. ;When the main interface selects OHM meter mode, the interface will switch sequentially between front view 11, 12 and 13; if overload, overvoltage or greater than 500mV occurs, the interface will also switch from front view 11 to front view 14 respectively. , 15 or 16. ;When the main interface selects AC voltmeter mode, if the multi-probe circuit tester obtains a reading, the interface will switch between front views 17, 18 and 19 in sequence; select according to the arrows on the lower left or lower right of front view 19 , the interface will switch between front views 19, 20, 21, 22, 23, and 24 to represent changes between different measurement units. ; When selecting the OHM meter mode, if an overvoltage or overload state occurs, the interface will switch from the front view 25 to the front view 26 or 27 respectively. ;When the main interface selects the DC voltmeter mode, the interface will switch from the front view 28 to the front view 29. According to the readings of the multi-probe circuit tester, when the "-" power button of the multi-probe circuit tester is pressed , the interface will switch from front view 29 to front view 30 showing the highlighted "-" symbol in the upper left corner; when the "+" power button of the multi-probe circuit tester is pressed, the interface will switch from front view 29 to The front view 31 shows the highlighted "+" symbol in the upper right corner, which also indicates whether the circuit is good or bad. ;Similarly in DC voltmeter mode, the interface will switch from front view 32 to front view 33. When the arrow in the lower left corner of front view 33 is selected, the interface will switch between front view 33 and 34; while in front view 34 Based on the readings of the multi-probe circuit tester, the interface will switch between front views 34 and 35; and based on the readings of the multi-probe circuit tester at front view 35, the interface will switch between front views 35, 36 and 37 Convert between. ;Similarly in the DC voltmeter mode, the interface will switch from front view 38 to front view 39. When the arrow in the lower left corner of front view 39 is selected, the interface will switch between front view 39 and 40; while in front view 40 According to the readings of the multi-probe circuit tester and pressing the "+" power button of the multi-probe circuit tester, the interface will switch between front view 40 and 41. Front view 41 displays the highlighted in the upper right corner. "+" symbol. ;Similarly in the DC voltmeter mode, the interface will switch from front view 42 to front view 43. When the lower left arrow of front view 43 is selected, the interface will switch between front views 43 and 44; according to the lower left arrow of 44 , the interface will switch between front views 44 and 45; and at front view 45, according to the readings of the multi-probe circuit tester, the interface will switch between front views 45 and 46, and at front view 46, according to the readings of the multi-probe circuit tester According to the readings of the multi-probe circuit tester, the interface will switch between the front views 46, 47 and 48, and according to the readings of the multi-probe circuit tester, the front views 46, 47 and 48 display the highlighted "-" in the upper left corner. ” symbol. ;Similarly in DC voltmeter mode, the interface will switch from front view 49 to front view 50. When the lower left arrow of front view 50 is selected, the interface will switch between front view 50 and 51; according to the lower left arrow of 51 , the interface will switch between front views 51 and 52; and at front view 52, according to the readings of the multi-probe circuit tester, the interface will switch between front views 52 and 53, and at front view 53, according to the readings of the multi-probe circuit tester According to the readings of the multi-probe circuit tester, the interface will switch between the front views 53, 54 and 55, and according to the readings of the multi-probe circuit tester, the front views 53, 54 and 55 display the highlighted "+" in the upper right corner. ” symbol. ;Similarly in the DC voltmeter mode, if an overload, overvoltage or overheating state occurs, the interface will be converted from the front view 56 to the front view 57, 58 or 59 respectively. ;The display screen or display shown by the center line in the drawing is a part of the design that is not recommended in this case. ;The graphics in the interface revealed by dotted lines in the diagram are parts of the design that are not recommended in this case. ;This design includes colors, which are encoded using RGB mode, including: the color encoding of symbol 1 is R: 50, G: 100, B: 255 (blue/Blue); the color encoding of symbol 2 is R: 173, G : 173, B: 173 (Lighter Grey); the color code of symbol 3 is R: 255, G: 0, B: 0 (red/Red); the color code of symbol 4 is R: 255, G: 255 , B: 0 (Yellow); the color code of symbol 5 is R: 120, G: 120, B: 120 (Dark Gray); the color code of symbol 6 is R: 127, G: 255, B : 0 (Green/Green); the color code of symbol 7 is R: 255, G: 255, B: 255 (White/Bright White); the color code of symbol 8 is R: 140, G: 75, B: 255 ( Purple); the color coding of symbol 9 is R: 255, G: 155, B: 75 (Orange).

Description

Graphical user interface for display screen

This design is a color image user interface applied to a multi-probe circuit tester that can test AC and DC voltage, resistance and current intensity.

This design provides a graphical user interface with a display screen with a multi-probe circuit tester. The color image user interface of the multi-probe circuit tester simplifies navigation operations through a function table and separate function buttons.

Front view 1 shows the main interface image of this design, and the other dynamic images show the interface images that are sequentially converted under different functions.

When the SWITCH function is selected in the current view 1, if an OVER LOAD state occurs, the interface will change from the front view to the front view 2.

When the main interface selects AMP meter mode, the interface will change from front view 3 to front view 4. According to the reading of the multi-probe circuit tester, when the "+" power button of the multi-probe circuit tester is pressed, then The interface will change from the front view 4 to the front view 6 with the highlighted "+" symbol in the upper right corner; when the "-" power button of the multi-probe circuit tester is pressed, the interface will change from the front view 4 to the front view 5 Displays the highlighted "-" symbol in the upper left corner, which also indicates the good or bad circuit.

Similarly, when the AMP meter mode is selected, if overload, overvoltage or overheating occurs, the interface will change from the front view 7 to the front view 8, 9 or 10 respectively.

When the OHM meter mode is selected for the main interface, the interface will switch between the front views 11, 12 and 13 in sequence; if overload, overvoltage or greater than 500mV occurs, the interface will also switch from the front view 11 to the front view 14, respectively. 15 or 16.

When the AC voltmeter mode is selected for the main interface, if the multi-probe circuit tester obtains a reading, the interface will switch among the front views 17, 18 and 19; according to the front view 19 Choose the arrow at the bottom left or bottom right, and the interface will switch between the front views 19, 20, 21, 22, 23, and 24 to indicate the changes between different measurement units.

When the OHM meter mode is selected, if an overvoltage or overload condition occurs, the interface will change from the front view 25 to the front view 26 or 27 respectively.

When the main interface selects the DC voltmeter mode, the interface will change from the front view 28 to the front view 29. According to the reading of the multi-probe circuit tester, when the "-" power button of the multi-probe circuit tester is pressed, The interface will change from the front view 29 to the front view 30, displaying the highlighted "-" symbol in the upper left corner; when the "+" power button of the multi-probe circuit tester is pressed, the interface will change from the front view 29 to the front view. View 31 shows the highlighted "+" symbol in the upper right corner, which also indicates whether the circuit is good or bad.

Also in the DC voltmeter mode, the interface will switch from the front view 32 to the front view 33. When the arrow in the lower left corner of the front view 33 is selected, the interface will switch between the front views 33 and 34; and in the front view 34 according to The interface of the multi-probe circuit tester will switch between the front views 34 and 35; and according to the reading of the multi-probe circuit tester in the front view 35, the interface will be between the front views 35, 36 and 37. Convert between.

Also in the DC voltmeter mode, the interface will switch from the front view 38 to the front view 39. When the arrow in the lower left corner of the front view 39 is selected, the interface will switch between the front views 39 and 40; and in the front view 40 according to The reading of the multi-probe circuit tester, and pressing the "+" power button of the multi-probe circuit tester, the interface will switch between the front view 40 and 41. The front view 41 displays the highlighted " +" sign.

Also in the DC voltmeter mode, the interface will switch from the front view 42 to the front view 43. When the arrow in the lower left corner of the front view 43 is selected, the interface will switch between the front views 43 and 44; according to the arrow in the lower left corner of 44 , The interface will switch between the front view 44 and 45; and according to the reading of the multi-probe circuit tester in the front view 45, the interface will switch between the front view 45 and 46, and in the front view 46 according to the multiple The reading of the probe circuit tester, the interface will switch between the front views 46, 47 and 48, and according to the readings of the multi-probe circuit tester, the front views 46, 47 and 48 will display the highlighted "-" in the upper left corner symbol.

Also in the DC voltmeter mode, the interface will switch from the front view 49 to the front view 50. When the arrow in the lower left corner of the front view 50 is selected, the interface will switch between the front views 50 and 51; according to the arrow in the lower left corner of 51 , The interface will switch between the front view 51 and 52; According to the reading of the multi-probe circuit tester in view 52, the interface will switch between the front views 52 and 53, and in the front view 53 according to the reading of the multi-probe circuit tester, the interface will be in front views 53, 54 Switch between and 55, and according to the reading of the multi-probe circuit tester, the front views 53, 54 and 55 show the highlighted "+" sign in the upper right corner.

Also in the DC voltmeter mode, if an overload, overvoltage or overheating occurs, the interface will change from the front view 56 to the front view 57, 58 or 59, respectively.

The display screen or display revealed by the center line in the figure is the part that is not recommended for design in this case.

The figure in the interface exposed by the dotted line in the figure is the part that this case does not advocate design.

The design includes colors, and the colors are coded in RGB mode, including: the color code of symbol 1 is R: 50, G: 100, B: 255 (blue/Blue); the color code of symbol 2 is R: 173, G: 173, B: 173 (Lighter Grey); the color coding of symbol 3 is R: 255, G:0, B:0 (red/Red); the color coding of symbol 4 is R: 255, G: 255, B: 0 (Yellow/Yellow); the color coding of symbol 5 is R: 120, G: 120, B: 120 (Darker Grey); the color coding of symbol 6 is R: 127, G: 255, B: 0 (green/Green); the color code of symbol 7 is R: 255, G: 255, B: 255 (white/Bright White); the color code of symbol 8 is R: 140, G: 75, B: 255 (purple /Purple); the color coding of symbol 9 is R: 255, G: 155, B: 75 (Orange/Orange).

Images