CN114116091A - Demonstrator interaction method and demonstrator - Google Patents
Demonstrator interaction method and demonstrator Download PDFInfo
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- CN114116091A CN114116091A CN202111316264.4A CN202111316264A CN114116091A CN 114116091 A CN114116091 A CN 114116091A CN 202111316264 A CN202111316264 A CN 202111316264A CN 114116091 A CN114116091 A CN 114116091A
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- 230000003993 interaction Effects 0.000 title claims abstract description 31
- 238000000034 method Methods 0.000 title claims abstract description 28
- 230000008859 change Effects 0.000 claims description 6
- 238000010586 diagram Methods 0.000 description 4
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- 238000003491 array Methods 0.000 description 3
- 230000002452 interceptive effect Effects 0.000 description 3
- 230000004888 barrier function Effects 0.000 description 2
- 239000003990 capacitor Substances 0.000 description 2
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/451—Execution arrangements for user interfaces
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/0482—Interaction with lists of selectable items, e.g. menus
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04842—Selection of displayed objects or displayed text elements
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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Abstract
The application provides a demonstrator interaction method and a demonstrator, wherein the demonstrator interaction method comprises the following steps: distinguishing a common function module and an uncommon function module on a menu bar interface of the resistor screen, wherein the click area of a button of the common function module is larger than that of the button of the uncommon function module; setting a custom button on a menu bar interface, and using a change-over mode to self-define and distinguish a common function module and an uncommon function module through the custom button. The method and the device can increase the accuracy of clicking the button by the user and improve the efficiency of operating the demonstrator; the user can manage the menu bar interface of the demonstrator through the user-defined button, the user-defined menu bar interface is suitable for the user, the frequently-used function module and the infrequently-used function module are effectively distinguished, and the user can be helped not to get lost in the menu bar when opening the plurality of function modules; the 'clicking' interaction gesture supported by the resistive screen can realize that a user completes the self-defined operation and completes the self-defined distinguishing of the functional modules.
Description
Technical Field
The application relates to the technical field of intelligent interaction, in particular to a demonstrator interaction method and a demonstrator.
Background
With the rapid development of factory automation technology, industrial robots are increasingly being used in various industries. The robot hand-held demonstrator is used as the most important interactive tool between a user and a robot, and the interface design and the interactive design of the demonstrator influence the good degree of user experience.
In order to meet the use in the field of industrial control and the consideration of cost saving, the resistive screen has better environmental suitability, and the demonstrator generally adopts the resistive screen as an interaction medium, but the resistive screen also has a plurality of disadvantages relative to the capacitive screen, which are mainly shown in the following steps: 1. multi-point touch is not supported; 2. the sensitivity is low; 3. the user experience is poor; 4. interaction gestures such as dragging, sliding, double clicking, long pressing and the like are not supported; 5. the resolution is low. The interaction mode of the mobile equipment used at present is diversified, but the interaction mode of the resistive screen is only limited to 'clicking' gestures, so that the button of the demonstrator has limitation, and the user can hardly realize function self-defining operation.
At present, a list-type menu bar is adopted in a menu bar interface of a robot demonstrator on the market, menu bar buttons are arranged compactly, a user searches for a functional module to be opened by himself or herself, the user needs to search for the functional module in dozens of functional module buttons, and the user can not conveniently and accurately click the button. Due to the defects of the resistance screen, the demonstrator software button is limited, the demonstrator software has no self-defining function under the condition that the demonstrator software can not be dragged, and a user cannot define a menu bar.
The defects of the menu bar interface of the robot demonstrator in the current market are summarized as follows:
1. the menu bar of the demonstrator is provided with more than ten functional modules, the list menu is compactly arranged, and a user cannot quickly select and open a required functional module and even can mistakenly touch other functional modules;
2. a resistive screen of the demonstrator does not support multi-point touch control, does not support interactive gestures such as dragging, sliding, double clicking, long pressing and the like, and cannot help a user to complete the self-defined operation of a functional module;
3. the user cannot effectively distinguish the commonly used functional modules from the non-commonly used functional modules, and the user is not convenient to manage the plurality of functional modules of the menu bar.
Disclosure of Invention
The application provides a demonstrator interaction method, which is used for solving the problems that a menu bar functional module of the existing demonstrator is more compact in arrangement due to the adoption of a list menu, a user cannot quickly select and open a required functional module, and even can mistakenly touch other functional modules; meanwhile, the problem that a resistive screen of the existing demonstrator does not support multi-point touch control and cannot help a user to complete the operation of self-defining of a functional module is solved; meanwhile, the problem that a user cannot effectively distinguish a commonly used functional module from an uncommon functional module and is inconvenient for managing a plurality of functional modules of a menu bar is solved.
In a first aspect, a teach pendant interaction method is provided, which is applied to a teach pendant, and comprises the following steps:
distinguishing a common function module and an uncommon function module on a menu bar interface of the resistor screen, wherein the click area of a button of the common function module is larger than that of the button of the uncommon function module; therefore, the function module can help the user to quickly select and open the required function module, and the frequently-used function module which is frequently used by the user is usually quickly opened, so that the user can not click wrongly when clicking the button of the frequently-used function module;
setting a custom button on the menu bar interface, and using a switching mode to self-define and distinguish the common function module and the uncommon function module through the custom button. Therefore, the user can distinguish the commonly-used functional module from the infrequently-used functional module in a user-defined mode, the user can conveniently and quickly select and open the commonly-used functional module required by the user, and the user can conveniently manage the plurality of functional modules of the menu bar interface.
The method for distinguishing the common function module from the uncommon function module on the menu bar interface of the resistor screen comprises the following steps:
the buttons of the frequently-used function modules are located in the upper area of the menu bar interface, and the buttons of the infrequently-used function modules are located in the lower area of the menu bar interface. The button of the frequently-used functional module is located in the region above the menu bar interface, the click area of the button of the frequently-used functional module is set to be larger than that of the button of the frequently-used functional module in the region below the menu bar interface, and according to the watching habit of a user from top to bottom, the click operation of the user is facilitated, and the occurrence of misoperation is reduced.
It should be noted that the menu bar interface is a full-page menu bar interface. More and more complete functional modules are conveniently presented to the user.
The click area of the button of the frequently-used functional module is set to be larger than the click area of the button of the infrequently-used functional module, and the click area comprises the following steps:
the click area of the button of the frequently-used function module is set to be 2-4 times of the click area of the button of the less frequently-used function module. Preferably, the click area of the button of the frequently-used function module is set to be 3 times of the click area of the button of the infrequently-used function module, so that 4 buttons of the frequently-used function module can be set in the upper area of the menu bar interface, 9 buttons can be set in the lower area of the menu bar interface, and the 9 buttons include the custom button and 8 buttons of the infrequently-used function module.
The setting of the custom button on the menu bar interface comprises the following steps:
and setting the custom button in a lower area of the menu bar interface, wherein the custom button is positioned in a lower right corner area of the button of the uncommon function module. The button array of 4 commonly used functional modules that the top region of menu bar interface set up arranges, the regional setting of below at menu bar interface includes self-defined button and 8 9 button arrays including the button of unusual functional module arrange, keep the menu bar interface is succinct pleasing to the eye.
Through the self-defining button adopts the custom differentiation of the mode of exchange the function module commonly used with the function module that does not commonly used includes:
clicking the user-defined button, and performing one-to-one exchange after selecting the button of the common functional module and the button of the uncommon functional module which need to be exchanged. Through self-defined button, the user can be right according to the frequency of use function module commonly used the button with function module's that does not commonly use the button of changing to guarantee that the user uses the higher function module's of frequency button can change to the top region at menu bar interface, the user of being convenient for clicks the operation.
Clicking the user-defined button, and performing one-to-one exchange after selecting the button of the frequently-used functional module and the button of the infrequently-used functional module which need to be exchanged comprises the following steps:
clicking the custom button, the custom button is the selected state, the button of functional module commonly used with the removal display symbol appears in the upper right corner of the button of the functional module that does not commonly used, the button of functional module commonly used with the button of the functional module that does not commonly use according to the removal display symbol carries out the one-to-one and swaps. The button of the frequently-used functional module and the upper right corner of the button of the infrequently-used functional module are in mobile display symbols appear when the user-defined button is in a selected state, so that a user can know that the replacement operation can be carried out conveniently.
The button of functional module commonly used with the removal display symbol appears in the upper right corner of the button of unusual functional module, functional module commonly used with the button of unusual functional module according to the removal display symbol carries out one to one and swaps including:
clicking the custom button, when the custom button is in the selected state, arrow downward movement display symbols appear in the upper right corner of the button of the common functional module, arrow upward movement display symbols appear in the upper right corner of the button of the uncommon functional module, one is selected the button of the common functional module and one the button of the uncommon functional module, selected the button of the common functional module and the movement display symbols of the button of the uncommon functional module present the selected state, and the button of the common functional module and the movement display symbols of the button of the uncommon functional module are exchanged one to one. And the user confirms the button of the functional module to be replaced according to the selected state presented by the mobile display symbol, so that misoperation is avoided when the user performs replacement operation.
In a second aspect, there is provided a teach pendant comprising: a demonstrator body; the front surface of the demonstrator body is provided with a resistance screen; the resistance screen is provided with a menu bar interface of a full page; distinguishing a frequently-used function module and an infrequently-used function module on the menu bar interface, wherein the click area of a button of the frequently-used function module is larger than that of the button of the infrequently-used function module; and a user-defined button is arranged on the menu bar interface, and the user-defined button is clicked, so that the common function module and the uncommon function module can be distinguished in a user-defined mode. The demonstrator distinguishes the frequently-used function module and the infrequently-used function module on the menu bar interface, and sets the click area of the button of the frequently-used function module to be larger than the click area of the button of the infrequently-used function module, so that a user can be helped to quickly select and open a function module required by the user, the frequently-used function module which is frequently used by the user is usually quickly opened, and therefore, the user can not click wrongly when clicking the button of the frequently-used function module; by setting the user-defined button, the user can be enabled to self-define and distinguish the common functional module from the uncommon functional module, the user can conveniently and quickly select and open the required common functional module, and the user can conveniently manage a plurality of functional modules of the menu bar interface.
In a specific embodiment, the buttons of the frequently used function modules are located in an upper region of the menu bar interface, and the buttons of the less frequently used function modules are located in a lower region of the menu bar interface. The user can watch the frequently-used functional module on the menu bar interface from top to bottom, the click area of the button of the frequently-used functional module in the region above the menu bar interface is set to be larger than the click area of the button of the frequently-used functional module in the region below the menu bar interface, and the user can habitually and preferably click the button of the frequently-used functional module in the region above the menu bar interface according to the user watching habit, so that the user can reduce the occurrence of wrong click operation
In a specific embodiment, the custom button is arranged in a lower area of the menu bar interface, and the custom button is positioned in a lower right corner area of the button of the uncommon function module. The user-defined button is located the lower right corner region of the button of the uncommon function module, and the setting position of the user-defined button is fixed and unchanged, so that a user can quickly click the user-defined button, and the user can quickly and conveniently replace the button of the common function module and the button of the uncommon function module from top to bottom.
In a specific embodiment, the click area of the button of the frequently-used function module is set to be 2 to 4 times the click area of the button of the less frequently-used function module. Preferably, the click area of the button of the frequently-used function module is set to be 3 times of the click area of the button of the frequently-used function module, so that the button of 4 frequently-used function modules is arranged in the upper area of the menu bar interface, 9 buttons can be arranged in the lower area of the menu bar interface, the 9 buttons comprise the custom button and 8 the button of the frequently-used function module, the click area of the button of the frequently-used function module is relatively increased, and according to user habits, a user preferentially watches and clicks the button of the frequently-used function module in the upper area of the menu bar interface, so that the situation that the user mistakenly clicks the operation is favorably reduced.
As can be seen from the above description, the clickable area of the button of the common functional module is increased, and when the user clicks the button of the common functional module, other buttons cannot be touched by mistake, so that the accuracy of clicking the button by the user can be increased, and the efficiency of operating the demonstrator can be improved; the user can manage the menu bar interface of the demonstrator through the self-defined button, so that the menu bar interface suitable for the user is defined, the frequently-used function module and the infrequently-used function module are effectively distinguished, and the user can be helped not to be lost in the menu bar when opening the plurality of function modules; the 'clicking' interaction gesture supported by the resistor screen can also realize that a user completes self-defined operation, breaks through a psychological barrier of limitation of the user on the interaction mode of the resistor screen, and completes self-defined distinguishing of the functional modules by using the existing resistor screen, so that the method has behavior challenge and psychological achievement sense compared with the method of finishing self-defining by using a capacitor screen to drag a button.
Drawings
FIG. 1 is a flowchart of a teach pendant interaction method provided by an embodiment of the present application;
fig. 2 is a flowchart illustrating a user-defined operation performed on a menu bar interface by the teach pendant interaction method according to the embodiment of the present disclosure;
FIG. 3 is a UI effect diagram of a menu bar interface provided by an embodiment of the application;
fig. 4 is a diagram of a custom UI effect on a menu bar interface according to an embodiment of the present application.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be further described in detail with reference to the accompanying drawings.
In order to facilitate understanding of the demonstrator interaction method provided by the embodiment of the application, an application scenario of the demonstrator interaction method is firstly explained, and the demonstrator interaction method is applied to a demonstrator and is used for solving the problem that when a user clicks a button of a function module with a finger, a menu bar function module of the existing demonstrator is more compact due to the adoption of list-type menu arrangement, and a user cannot quickly select and open a required function module and even can mistakenly touch other function modules; meanwhile, the problem that a resistive screen of the existing demonstrator does not support multi-point touch control and cannot help a user to complete the operation of self-defining of a functional module is solved; meanwhile, the problem that a user cannot effectively distinguish a commonly used functional module from an uncommon functional module and is inconvenient for managing a plurality of functional modules of a menu bar is solved.
Referring to FIG. 1, FIG. 1 shows a flow chart of the present teach pendant interaction method, comprising the steps of:
step 001: the common function module and the uncommon function module are distinguished on a menu bar interface of the resistor screen, and the click area of the button of the common function module is set to be larger than that of the button of the uncommon function module.
Therefore, the function module can help the user to quickly select and open the required function module, and the frequently-used function module which is frequently used by the user is usually quickly opened, so that the user can not click mistakenly when clicking the button of the frequently-used function module;
step 002: a user-defined button 1 is arranged on a menu bar interface, and a common function module and an uncommon function module are distinguished in a user-defined mode through the user-defined button 1.
Therefore, the user can distinguish the commonly used function module and the uncommon function module in a user-defined mode, the user can conveniently and quickly select and open the commonly used function module required by the user, and the user can conveniently manage the plurality of function modules of the menu bar interface. Referring to fig. 3-4, fig. 3 illustrates a UI effect diagram of a menu bar interface, fig. 4 illustrates a custom UI effect diagram at the menu bar interface, and a custom button 1 is positioned at the menu bar interface as shown in fig. 3-4.
Through the description, the robot demonstrator software menu bar interface based on the resistance screen is realized, a user can customize a plurality of function modules for managing the menu bar interface, and common function modules and uncommon function modules are effectively distinguished and managed, so that convenience is brought to the user when the interface of the function modules is opened, the operation is more efficient and convenient, and the efficiency of the user for operating demonstrator software is improved.
In step 001, distinguishing the common functional module from the uncommon functional module on the menu bar interface of the resistive screen specifically comprises:
the buttons of the frequently-used function modules are located in the upper area of the menu bar interface, and the buttons of the infrequently-used function modules are located in the lower area of the menu bar interface. As shown in fig. 3 and 4, the buttons of the frequently-used function modules are located in the upper area of the menu bar interface, and the click area of the buttons of the frequently-used function modules is set to be larger than the click area of the buttons of the infrequently-used function modules in the lower area of the menu bar interface.
It should be noted that the menu bar interface is a full-page menu bar interface. More and more complete functional modules are conveniently presented to the user.
In step 001, the setting of the click area of the button of the frequently-used function module to be larger than the click area of the button of the infrequently-used function module specifically includes:
the click area of the button of the frequently used function module is set to be 2-4 times the click area of the button of the less frequently used function module. Preferably, the click area of the buttons of the frequently-used function module is set to be 3 times of the click area of the buttons of the less frequently-used function module, as shown in fig. 3 and 4, so that 4 buttons of the frequently-used function module can be set in the upper region of the menu bar interface, 9 buttons can be set in the lower region of the menu bar interface, and the 9 buttons include the custom button 1 and 8 buttons of the less frequently-used function module.
In step 002, the setting of the custom button 1 in the menu bar interface specifically includes:
and a custom button 1 is arranged in the lower area of the menu bar interface, and the custom button 1 is positioned in the lower right corner area of the button of the uncommon function module. As shown in fig. 3 and 4, the button arrays of 4 common function modules are arranged in the upper region of the menu bar interface, and the 9 button arrays including the custom button 1 and the buttons of 8 uncommon function modules are arranged in the lower region of the menu bar interface, so that the menu bar interface is kept simple and beautiful.
As shown in fig. 3 and 4, the custom button 1 is a circular button, and the position of the setting of the button is not changed, so that the user can quickly click the custom button 1, and the buttons of the common functional modules and the buttons of the uncommon functional modules are rectangular buttons, so that the click area of the button is increased undoubtedly, and the user is prevented from clicking mistakenly.
In step 002, through the user-defined button 1, the method for user-defining and distinguishing the common functional module and the uncommon functional module in a change manner specifically includes:
clicking a user-defined button 1, and performing one-to-one exchange after selecting the button of the frequently-used function module and the button of the infrequently-used function module which need to be exchanged. The operation flow refers to fig. 2 and is combined with fig. 3 and fig. 4, and through the user-defined button 1, the user can change the buttons of the frequently-used functional modules and the buttons of the infrequently-used functional modules according to the use frequency, so that the buttons of the functional modules which are frequently used by the user can be changed to the upper area of the menu bar interface, and the user can conveniently click and operate the menu bar interface.
Clicking a user-defined button 1, selecting a button of a frequently-used function module to be exchanged and a button of an infrequently-used function module, and then exchanging one by one, wherein the one by one exchange comprises the following steps:
as shown in fig. 4, when the user-defined button 1 is clicked, the user-defined button 1 is in a selected state, a mobile display symbol appears on the upper right corner of the button of the frequently-used functional module and the button of the infrequently-used functional module, and the button of the frequently-used functional module and the button of the infrequently-used functional module are exchanged one to one according to the mobile display symbol. The buttons of the frequently-used functional modules and the buttons of the infrequently-used functional modules are displayed in a moving mode when the user-defined button 1 is in a selected state, so that a user can know that the user can change the functions conveniently.
The buttons of the frequently-used functional modules and the buttons of the infrequently-used functional modules have mobile display symbols at the upper right corners, and the buttons of the frequently-used functional modules and the buttons of the infrequently-used functional modules are exchanged one to one according to the mobile display symbols, wherein the mobile display symbols comprise:
clicking a custom button 1, when the custom button 1 is in a selected state, displaying a symbol 2 by downward movement of an arrow at the upper right corner of a button of a common functional module, displaying a symbol 3 by upward movement of an arrow at the upper right corner of a button of an uncommon functional module, selecting a button of a common functional module and a button of an uncommon functional module, displaying a selected state by movement of the selected button of the common functional module and the button of the uncommon functional module, and exchanging the two states one by one. The user presents the selected state according to the mobile display symbol to confirm the button of the functional module to be replaced, so that misoperation of the user during replacement operation is avoided.
When the user uses the menu bar interface of the demonstrator software, as shown in fig. 3, generally, the number of buttons of the functional modules displayed in the menu bar interface is 12, the upper half part, i.e., the upper area, of the menu bar interface is a button for displaying commonly used functional modules, and the lower half part, i.e., the lower area, of the menu bar interface is a button for displaying less commonly used functional modules. In the lower right corner of the menu bar interface, there is a circular button, which is a custom button 1.
If the user needs to adjust the positions of the frequently-used function module and the infrequently-used function module, the user can click the custom button 1 to display the custom interface of the menu bar interface, as shown in fig. 4, the custom button 1 can be changed into a custom button selection state, meanwhile, a mobile display symbol with an arrow indication can appear at the upper right corner of each function module button in the menu bar interface, the display symbol 2 can appear at the button of the frequently-used function module and the display symbol 3 can appear at the button of the infrequently-used function module, the user selects the button of the frequently-used function module and the button of the infrequently-used function module, the display symbol at the upper right corner of the button can display the selection state, the exchange between the frequently-used function module and the infrequently-used function module can be realized, and the operation of the custom adjustment distinguishing function module can be completed.
When a user starts to use the teaching aid, as shown in figure 2, the teaching aid software is opened, the GRE character button shown in figures 3 and 4 is clicked, the GRE character button is positioned above the common function module, a menu bar interface is entered by clicking a wake-up resistive screen, the user selects whether to self-define the function module button according to the self condition, if so, the user clicks the self-defining button 1, selects one common function module button and one uncommon function module button, the selected mobile display symbols of the button of the common function module and the button of the uncommon function module are in a selected state, the exchange of the function module buttons is completed, and finally, the self-defining operation is finished; if the user does not need the custom function module button, that is, if not, the user does not need the custom function module button, the user can close the menu bar interface by clicking the GREE character-like button shown in fig. 3 and 4 again, and the custom operation is also ended.
In addition, the present application provides a teach pendant comprising a teach pendant body. The front surface of the demonstrator body is provided with a resistance screen; as shown in fig. 3 and 4, the resistive screen has a full-page menu bar interface. The common function module and the uncommon function module are distinguished on a menu bar interface of the resistor screen, the click area of a button of the common function module is set to be larger than that of a button of the uncommon function module, the menu bar interface is provided with a self-defined button 1, the self-defined button 1 is clicked, and the common function module and the uncommon function module can be distinguished in a self-defined mode. The demonstrator distinguishes the common function module and the uncommon function module through a menu bar interface of the resistor screen, and sets the click area of the button of the common function module to be larger than that of the button of the uncommon function module, so that a user can be helped to quickly select and open a function module required by the user, the frequently-used function module which is frequently used by the user is usually quickly opened, and therefore, the user can not click mistakenly when clicking the button of the common function module; by setting the self-defining button 1, a user can self-define and distinguish the commonly used function module and the non-commonly used function module, the user can conveniently and quickly select and open the required commonly used function module, and the user can conveniently manage a plurality of function modules of the menu bar interface.
In the embodiment of the application, the button of the frequently-used function module is positioned in the upper area of the menu bar interface, and the button of the less frequently-used function module is positioned in the lower area of the menu bar interface. The user can watch the menu bar interface from top to bottom, the user can click the menu bar interface quickly, the click area of the button of the frequently-used functional module in the region above the menu bar interface is set to be larger than the click area of the button of the frequently-used functional module in the region below the menu bar interface, and the user can click the button of the frequently-used functional module in the region above the menu bar interface according to the user watching habit, so that the user can reduce the possibility of mistaken click operation
In the embodiment of the application, a custom button 1 is arranged in a lower area of a menu bar interface, and the custom button 1 is positioned in a lower right corner area of a button of an uncommon function module. The user-defined button 1 is located the lower right corner region of the button of the unusual functional module, and it sets up the rigidity unchangeable, and convenience of customers can click user-defined button 1 fast, and convenience of customers's quick convenient button and the button of the unusual functional module of the function module of using always change from top to bottom.
In a specific embodiment, the click area of the button of the frequently used function module is set to be 2-4 times the click area of the button of the less frequently used function module. Preferably, the click area of the button of the frequently-used function module is set to be 3 times of the click area of the button of the infrequently-used function module, so that the buttons of 4 frequently-used function modules can be arranged in the upper area of the menu bar interface, 9 buttons can be arranged in the lower area of the menu bar interface, the 9 buttons comprise custom buttons 1 and 8 buttons of the infrequently-used function module, the click area of the button of the frequently-used function module is relatively increased, according to the habit of a user, the user preferentially watches the button of the frequently-used function module which is clicked in the upper area of the menu bar interface, and the situation that the user mistakenly clicks the operation is favorably reduced is facilitated.
As can be seen from the above description, the clickable area of the button of the common functional module is increased, and when the user clicks the button of the common functional module, other buttons cannot be touched by mistake, so that the accuracy of clicking the button by the user can be increased, and the efficiency of operating the demonstrator can be improved; the user can manage the menu bar interface of the demonstrator through the self-defined button, so that the menu bar interface suitable for the user is defined, the frequently-used function module and the infrequently-used function module are effectively distinguished, and the user can be helped not to be lost in the menu bar when opening the plurality of function modules; the 'clicking' interaction gesture supported by the resistor screen can also realize that a user completes self-defined operation, breaks through a psychological barrier of limitation of the user on the interaction mode of the resistor screen, and completes self-defined distinguishing of the functional modules by using the existing resistor screen, so that the method has behavior challenge and psychological achievement sense compared with the method of finishing self-defining by using a capacitor screen to drag a button.
The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.
Claims (12)
1. A demonstrator interaction method is characterized by comprising the following steps:
distinguishing a common function module and an uncommon function module on a menu bar interface of the resistor screen, wherein the click area of a button of the common function module is larger than that of the button of the uncommon function module;
setting a custom button on the menu bar interface, and using a switching mode to self-define and distinguish the common function module and the uncommon function module through the custom button.
2. The teach pendant interaction method of claim 1, wherein said distinguishing between a commonly used function module and an infrequently used function module at a menu bar interface of a resistive screen comprises:
the buttons of the frequently-used function modules are located in the upper area of the menu bar interface, and the buttons of the infrequently-used function modules are located in the lower area of the menu bar interface.
3. The teach pendant interaction method of claim 2 wherein the menu bar interface is a full page menu bar interface.
4. The teach pendant interaction method of claim 3 wherein setting the click area of the button of the frequently used function module to be larger than the click area of the button of the less frequently used function module comprises:
the click area of the button of the frequently-used function module is set to be 2-4 times of the click area of the button of the less frequently-used function module.
5. The teach pendant interaction method of any of claims 1-4, wherein said setting a custom button in said menu bar interface comprises:
and setting the custom button in a lower area of the menu bar interface, wherein the custom button is positioned in a lower right corner area of the button of the uncommon function module.
6. The teach pendant interaction method of claim 5, wherein said customizing the distinction between the common function module and the uncommon function module in a swapping manner via the custom button comprises:
clicking the user-defined button, and performing one-to-one exchange after selecting the button of the common functional module and the button of the uncommon functional module which need to be exchanged.
7. The teach pendant interaction method of claim 6, wherein said clicking the custom button, selecting the button of the frequently used function module and the button of the infrequently used function module to be changed, and then performing a one-to-one change comprises:
clicking the custom button, the custom button is the selected state, the button of functional module commonly used with the removal display symbol appears in the upper right corner of the button of the functional module that does not commonly used, the button of functional module commonly used with the button of the functional module that does not commonly use according to the removal display symbol carries out the one-to-one and swaps.
8. The teach pendant interaction method of claim 7, wherein the buttons of the frequently used function module and the buttons of the infrequently used function module have a moving display symbol on the upper right corner, and the buttons of the frequently used function module and the buttons of the infrequently used function module have a one-to-one correspondence according to the moving display symbol comprises:
clicking the custom button, when the custom button is in the selected state, arrow downward movement display symbols appear in the upper right corner of the button of the common functional module, arrow upward movement display symbols appear in the upper right corner of the button of the uncommon functional module, one is selected the button of the common functional module and one the button of the uncommon functional module, selected the button of the common functional module and the movement display symbols of the button of the uncommon functional module present the selected state, and the button of the common functional module and the movement display symbols of the button of the uncommon functional module are exchanged one to one.
9. A teach pendant, comprising: a demonstrator body;
the front surface of the demonstrator body is provided with a resistance screen;
the resistance screen is provided with a menu bar interface of a full page;
distinguishing a frequently-used function module and an infrequently-used function module on the menu bar interface, wherein the click area of a button of the frequently-used function module is larger than that of the button of the infrequently-used function module; and is
And a user-defined button is arranged on the menu bar interface, and the user-defined button is clicked, so that the common function module and the uncommon function module can be distinguished in a user-defined mode.
10. The teach pendant of claim 9 wherein the buttons of the frequently used function modules are located in an upper region of the menu bar interface and the buttons of the less frequently used function modules are located in a lower region of the menu bar interface.
11. The teach pendant of claim 10 wherein the custom button is disposed in a lower region of the menu bar interface, the custom button being located in a lower right corner region of a button of the uncommon function module.
12. The teach pendant of any one of claims 9 to 11 wherein the area of the button click of the frequently used function module is set to be 2 to 4 times the area of the button click of the less frequently used function module.
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