CN116594529A - Man-machine interaction interface display system of engineering machinery product display equipment - Google Patents

Abstract

The application discloses a man-machine interaction interface display system of engineering machinery products, which is used for carrying out definition and function classification of display interaction functions of an automobile crane based on user cognition and operation behavior habits, optimizing operation logic, interface layout and the like of a display system and carrying out brand-new design definition on interface styles. The related content comprises the content such as interface function structure adjustment, interface layout, navigation mode and the like of the display equipment of the automobile crane, and simultaneously redesigns page interaction elements such as page visual graphics, button icons, drop-down menus, navigation and the like, so that the operation efficiency of the man-machine interaction interface of the display equipment of the crane is finally improved, and the operation and use habits of users are met.

Description

Man-machine interaction interface display system of engineering machinery product display equipment

Technical Field

The application relates to a man-machine interaction interface display system of engineering machinery product display equipment, and belongs to the technical field of display interfaces.

Background

The man-machine interaction technology is mature in the internet and the automobile industry, and through different brand positioning and user researches, different brands form a unique man-machine interaction system, for example, the automobile industry display interaction system mainly comprises a vehicle information system, a driving auxiliary system, an environment control system, an entertainment system and the like. Meanwhile, part of industries form mature human-computer interaction research and evaluation flow which takes cognitive behavioral and psychological research, usability evaluation, test and user experience research as cores. Different from interaction between the Internet and the automobile industry, man-machine interaction of engineering machinery is specialized skill work behavior developed by taking an operator as a user, and has the characteristics of high safety requirement, complex information, strong speciality and the like. The engineering machinery product is professional hoisting equipment, the product functions are multiple, the operation working condition is complex, and operators can carry out operation only through professional study and training. Along with the development of intellectualization, a man-machine interaction system in the engineering machinery industry is increasingly valued by the industry, and becomes one of important breakthrough points for improving the image and the product competitiveness of enterprises, and the man-machine interaction interface system not only beautifies an interface, but also comprises designs of product function framework construction, operation logic, operation modes and the like, so that the system is more attractive, comfortable and simple to operate, and meanwhile, the operation efficiency, the safety and the like of the product are improved

At present, related man-machine interaction interfaces in the engineering mechanical crane product industry are mostly based on product functions, foreign brand crane display systems are used as references, special man-machine interaction design research centered by people is not performed, user research is not performed on function division of products, and analysis and function definition are not performed from the angle of users. At present, man-machine interaction of engineering machinery product display equipment is in a starting stage, an operation logic, interface layout and display system lack system, and are subjected to intensive and standard research, and a complete design flow and method of the system are lacked, so that series of problems of complicated operation, multiple levels, lack of product characteristics and the like of the man-machine interaction interface display system are caused.

The engineering machinery product is professional hoisting equipment, the product functions are multiple, the operation working condition is complex, and operators can carry out operation only through professional study and training. The existing crane display design interaction system mainly has the following defects:

1. the operation functions are multiple, the entrance is complex, and the function classification is lacking. The operation is not visual, and the user is not easy to learn. The main interface has more operation keys and lacks classification; the navigation keys at the same position and different levels are different, so that the operation is lost in the level direction, and misoperation is caused.

2. The functional operation is deep in level and has more jump pages. Taking the working condition setting as an example, if the user sends out from a homepage, after the working condition setting is finished, the user selects the arm extension combination to set, the whole process needs to jump to the page for 4 times, the user confirms the page twice, and the operation is performed in step 11.

3. In the operation process, the guiding function is lacked for the information reading requirement of the user, and the professional operation module function and the manipulator operation module function are lacked to distinguish, so that the operation is complex and misoperation is caused, the operation efficiency is reduced, and the functions such as operation reminding are lacked.

4. Each series of products lacks uniformity, and the positions of the common function keys are not uniform, so that the thinking and confirmation time of a user is increased, misoperation is easy to cause, and the working efficiency is influenced. Meanwhile, the interface styles are various, and planning and design of a system are lacked.

Disclosure of Invention

The application aims to overcome the defects in the prior art, and provides a man-machine interaction interface display system of engineering machinery product display equipment, which improves the operation efficiency of the man-machine interaction interface of the display equipment and accords with the operation and use habits of users.

In order to achieve the above purpose, the application is realized by adopting the following technical scheme:

in a first aspect, the application provides a human-computer interaction interface display system of engineering machinery product display equipment, which comprises a main interface, a secondary page and a tertiary page;

the edge of the main interface is provided with a navigation bar; the navigation bar comprises navigation mode function keys for linking the secondary page and the tertiary page.

Further, the functions of the main interface comprise product warning information, product information prompt, working condition indication and auxiliary operation.

Further, the whole layout of the main interface is divided into a warning area, an information prompt area, an auxiliary operation area, a working condition indication area and a navigation bar;

warning area: the method comprises warning graphics, fault details, time display and air conditioner temperature content.

Information prompt area: the method comprises the steps of working condition code display, hanging weight display, counterweight information, landing leg state information, anemograph and rotation angle display information content.

Auxiliary operation area: the auxiliary operation area contains leg information, fuel parameter information and warning attention information. And the graphical data expression is easy to identify by user operation.

Working condition indication area: the main interface core functions are mainly gathered in a working condition indication area, and the graphical indication of the whole hoisting operation working condition comprises the function display of moment percentage, maximum hoisting weight, actual hoisting weight, arm length, arm height and support leg length.

Navigation bar: comprises a functional panel, a working condition setting, an arm extending panel, auxiliary operation, a CVT system, a functional setting, a power taking system and a mute control function.

Further, the secondary page functions mainly comprise a function panel, working condition setting, a telescopic interface, an information panel, auxiliary operation, a CVT system, function setting and mute switch;

the functional panel is divided into a client mode and a non-client mode;

the functions of the client mode comprise multimedia functions, air conditioner settings, intelligent arm frames, maintenance, asymmetric functions, functional redundancy, function settings, information panels and assistance;

the user can enter relevant function setting and data query through the function panel.

The functions of the non-client function mode include: expert diagnosis, emergency rescue, panel debugging, force limiter debugging, superlift debugging, landing leg calibration, parameter calibration and factory setting;

the non-client mode is provided with an independent login page, the corresponding user identity is the technician and the maintainer, and the professional and the maintainer execute related operations or exit the non-client mode according to the corresponding prompt.

Furthermore, triangle expansion instructions are added on the navigation mode function keys of the three-level page, and the tiled function navigation keys are adopted to solve the problems of logic confusion and lost operation after navigation switching.

Further, the working condition setting comprises working condition setting, performance table query and working condition query;

clicking on the working condition setting page can select different working condition types, balance weight selection, landing leg selection and lifting hook information, and simultaneously the right schematic diagram of the main interface can carry out graphic change according to the selection condition of the working conditions.

Further, the telescopic interface, the information panel, the auxiliary operation, the CVT system, the function setting and mute switch are all used for performing corresponding function design and operation, and different function operations can be performed by pressing the related function buttons.

In a second aspect, the present application provides a method for designing a human-computer interaction interface display system of an engineering machinery product display device, including the following steps:

step one: the whole function framework operates logic optimization, and the function module is redefined;

step two: a main page layout strategy is formulated, and brand new optimization layout is carried out;

step three: and (5) brand-new display interaction style design.

Further, the overall functional framework operates the logic optimization, redefining the functional module includes the steps of:

(1) Through deep investigation of engineering machinery product operation manipulators, debuggers and technicians, the operation habit and the functional requirement of an operation user in the operation process are known, the engineering machinery product user is researched, the use habit of the user for operating the product and the cognitive characteristic of the product are summarized, and the product function is adjusted according to the operation habit and the functional requirement;

(2) According to the functional requirement of the product, analyzing and defining the functional range and functional level of the operating system of the engineering machinery product; carrying out main interface layout and design according to user operation habit, user cognitive characteristic, functional operation frequency and integrated expert opinion; the main interface main functions comprise product warning information, product information prompt, working condition indication and auxiliary operation functions;

(3) Performing function definition and navigation modes of the second-level page and the third-level page; the navigation bar function is arranged on the right side of the main interface and comprises eight function keys; the navigation mode function keys of the three-level page are added with triangle expansion instructions, and tiled function navigation keys are adopted;

(4) The secondary page function mainly comprises a function panel, working condition setting, a telescopic interface, an information panel, auxiliary operation, a CVT system, function setting and mute switch functions;

(5) The product display function is defined by a re-carding plan under the 'function panel', and is divided into a client mode and a non-client mode; the client mode functions comprise multimedia functions, air conditioner settings, intelligent arm frames, maintenance, asymmetric functions, functional redundancy, function settings, information panels and assistance; the user can enter the related function setting and data query through the function panel, and the functions are concentrated on the same page, so that the user can conveniently query and set;

(6) The main functions of the non-client function mode under the 'function panel' include: expert diagnosis, emergency rescue, panel debugging, force limiter debugging, superlift debugging, landing leg calibration, parameter calibration, factory setting = function; the non-client mode is provided with a special login page, the corresponding user identity is a technician and a maintainer, and the professional and the maintainer execute related operations or exit the non-client mode according to corresponding prompts; =

(7) Clicking a working condition setting button of a main page menu bar to display a working condition setting page, wherein the working condition setting page comprises three functions, namely working condition setting, performance table query and working condition query, different working condition types, counterweight selection, landing leg selection and lifting hook information can be selected in the clicking working condition setting page, and meanwhile, a right schematic diagram can carry out graphic change according to the selection condition of the working conditions;

(8) The telescopic interface, the information panel, the auxiliary operation, the CVT system, the function setting and mute switch interface are all used for carrying out corresponding function design and operation, and different function operations can be carried out by pressing the related function buttons.

Further, the main page layout strategy is formulated, and the brand new optimization layout is carried out, which comprises the following steps:

and (3) a main interface overall layout strategy: according to the function category and the user attention, the functions of the menu bar of the main interface are arranged and laid out, the core display function with strong correlation to operation is highlighted, and auxiliary operation information is added; the whole layout of the main interface is divided into a warning area, an information prompt area, an auxiliary operation area, a working condition indication area and a navigation bar;

warning area: the method comprises the steps of warning graphics, fault details, time display and air conditioner temperature content;

information prompt area: the system comprises working condition code display, hanging weight display, counterweight information, landing leg state information, anemometers and rotation angle display information contents;

auxiliary operation area: the auxiliary operation area comprises landing leg information, fuel parameter information and warning attention information;

working condition indication area: the main interface core functions are mainly gathered in a working condition indication area, and the graphical indication of the whole hoisting operation working condition comprises the function display of moment percentage, maximum hoisting weight, actual hoisting weight, arm length, arm height and support leg length;

navigation bar: comprises a functional panel, a working condition setting, an arm extending panel, auxiliary operation, a CVT system, a functional setting, a power taking system and a mute control function.

Further, the brand new display interaction style design comprises the following steps:

and redesigning visual graphics, page button icons, drop-down menus and navigation page interaction elements of the whole system interface, unifying common function key positions, unifying interface styles, and planning and designing the system.

Compared with the prior art, the application has the beneficial effects that:

aiming at the defects of the prior art, the application aims to perform crane display interaction function definition and function classification based on user cognition and operation behavior habit, optimize display system operation logic, interface layout and the like, and perform brand new design definition on interface style, and finally provides a display equipment man-machine interaction display system which is easy for user operation, improves product operation efficiency and aims to reduce cognition load. The method comprises the steps of adjusting a function structure of a crane display interface, arranging an interface, navigating, and the like, redesigning page interaction elements such as a page visual graph, button icons, a drop-down menu, navigating, and the like, improving the operation efficiency of a man-machine interaction interface of crane display equipment, and conforming to the operation and use habits of users.

The application relates to a man-machine interaction interface display system of engineering machinery products with brand-new layout and functions, which performs display interaction function definition and function classification based on user cognition and operation behavior habit, optimizes display system operation logic, interface layout and the like, performs brand-new design definition on interface styles, and finally provides a man-machine interaction display system which is easy for users to operate, improves product operation efficiency and aims at reducing cognition load. The related content comprises the content such as display interface function structure adjustment, interface layout, navigation mode, visual graphics and the like.

Compared with the prior art, the application has the remarkable advantages that:

1. the method meets the demands of different user groups, simplifies the operation steps, optimizes the typical working condition operation method and control logic, and improves the convenience of user operation.

2. Pages with large information quantity and high operation frequency, such as a main interface, a working condition setting interface and the like, are distributed in a layered manner, highlight key information, reduce information interference and improve user operation experience.

3. And redesigning page interactive elements such as page button icons, drop-down menus, navigation and the like, so that the operation efficiency of the man-machine interactive interface of the crane display equipment is improved, and the operation habit of a user is met.

Drawings

FIG. 1 is a functional block diagram of a human-computer interaction interface display system;

FIG. 2 is a non-client function mode in a human interactive operating system;

FIG. 3 is a diagram of the overall layout of the main interface of the human-computer interactive display system;

FIG. 4 is a pictorial intent of a human interactive display system main interface;

FIG. 5 is a schematic diagram of interface visualization graphics, buttons, etc.

Detailed Description

The application is further described below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present application, and are not intended to limit the scope of the present application.

Embodiment one:

aiming at the defects of the prior art, the application aims to define the interactive functions and classify the functions of the display of the engineering machinery products based on the cognition and the operation behavior habit of the user, optimize the operation logic, the interface layout and the like of the display system, and define the brand new design of the interface style, and finally provide the human-computer interaction display system of the display equipment, which is easy for the user to operate, and aims to improve the operation efficiency of the products and reduce the cognition load. The method comprises the steps of adjusting a function structure of a crane display interface, arranging an interface, navigating, and the like, redesigning page interaction elements such as a page visual graph, button icons, a drop-down menu, navigating, and the like, improving the operation efficiency of a man-machine interaction interface of crane display equipment, and conforming to the operation and use habits of users.

The method of the application comprises the following steps:

1. the overall functional framework operates the logic optimization and redefines the functional modules.

2. And (5) formulating a main page layout strategy and carrying out brand new optimized layout.

3. And (5) brand-new display interaction style design.

Step one: the overall functional framework operates the logic optimization and redefines the functional modules.

(1) Through deep investigation of engineering machinery product operation manipulators (including novice operation users and old operation users), debuggers and technicians, the operation habit, the function requirement and the like of the operation users in the operation process are known, the engineering machinery product users are researched, the use habit of the user operation products and the cognitive characteristics of the products are summarized, and the product functions are adjusted.

(2) According to the product function requirements, the function range and the function level of the engineering machinery product operation system are analyzed and defined. And carrying out main interface layout and design according to the operation and use habit of the user, the cognitive characteristic of the user, the functional operation frequency and the integrated expert opinion. The main interface main functions comprise product warning information, product information prompt, working condition indication, auxiliary operation and the like.

(3) And performing function definition and navigation modes of the second-level page and the third-level page. The navigation bar function layout is arranged on the right side of the main interface and comprises eight function keys. The triangle expansion indication is added on the navigation mode function keys of the three-level page, the prompting performance is enhanced, and the problems of logic confusion and lost operation after navigation switching are solved by adopting the tiled function navigation keys.

(4) The secondary page function mainly comprises functions of a function panel, working condition setting, a telescopic interface, an information panel, auxiliary operation, a CVT system, function setting, a mute switch and the like. See fig. 1.

(5) Wherein the re-carding plan under the "function panel" defines the product display function, and is divided into a customer mode and a non-customer mode. The client mode functions comprise multimedia functions, air conditioning settings, intelligent arm frames, maintenance, asymmetric functions, functional redundancy, function settings, information panels, assistance and the like. The user can enter the related function setting and data query through the function panel, and the functions are concentrated on the same page, so that the user can conveniently query and set.

(6) The main functions of the non-client function mode under the 'function panel' include: expert diagnosis, emergency rescue, panel debugging, force limiter debugging, super-lifting debugging, landing leg calibration, parameter calibration, factory setting and other 8 functions. The non-client mode is provided with a special login page, the corresponding user identity is the technician and the maintainer, and the technician and the maintainer execute related operations or exit the non-client mode according to the corresponding prompt. See fig. 2.

(7) Clicking the working condition setting button of the main page menu bar to display a working condition setting page, wherein the working condition setting page comprises three functions, namely working condition setting, performance table query and working condition query, different working condition types, counterweight selection, landing leg selection, lifting hooks and other information can be selected in the clicking working condition setting page, and meanwhile, the right schematic diagram can carry out graphic change according to the selection condition of the working conditions.

(8) The interfaces of the telescopic interface, the information panel, the auxiliary operation, the CVT system, the function setting, the mute switch and the like are all used for carrying out corresponding function design and operation, and different function operations can be carried out by pressing the related function buttons.

Step two: and (5) formulating a main page layout strategy and carrying out brand new optimized layout.

And (3) a main interface overall layout strategy: and arranging and laying out the functions of the menu bar of the main interface according to the function types and the user attention, highlighting the core display functions with strong correlation to operation, and adding auxiliary operation information. The whole layout of the main interface is divided into a warning area, an information prompt area, an auxiliary operation area, a working condition indication area and a navigation bar, and the whole layout is shown in figure 3.

Warning area: the system comprises warning graphics, fault details, time display, air conditioner temperature and the like.

Information prompt area: the method comprises the steps of working condition code display, hanging weight display, counterweight information, landing leg state information, anemograph and rotation angle display information content.

Auxiliary operation area: the auxiliary operation area contains leg information, fuel parameter information, warning notice information, and the like. And the graphical data expression is easy to identify by user operation.

Working condition indication area: the main interface core functions are mainly gathered in a working condition indication area, and the graphical indication of the whole hoisting operation working condition comprises the function display of moment percentage, maximum hoisting weight, actual hoisting weight, arm length, arm height, support leg length and the like.

Navigation bar: comprises functions of a functional panel, a working condition setting, an arm extending panel, auxiliary operation, a CVT system, a functional setting, a power taking system, mute control and the like.

Step three: brand new display interaction style design

The method has the advantages that the page interaction elements such as the whole system interface visualization graph, the page button icons, the drop-down menu, the navigation and the like are redesigned, the positions of the common function keys are unified, the user thinking and confirmation time is reduced, the user thinking and operation logic are met, misoperation is reduced, and the working efficiency is improved. Meanwhile, the interface style is unified, and the system planning and design are performed. See fig. 4 and 5.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing is merely a preferred embodiment of the present application, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present application, and such modifications and variations should also be regarded as being within the scope of the application.

Claims (10)

1. A man-machine interaction interface display system of engineering machinery product instrument display equipment is characterized by comprising a main interface, a secondary page and a tertiary page;

the edge of the main interface is provided with a navigation bar; the navigation bar comprises navigation mode function keys for linking the secondary page and the tertiary page;

the main interface comprises the functions of product warning information, product information prompt, working condition indication and auxiliary operation.

2. The man-machine interaction interface display system of engineering machinery product instrument display equipment according to claim 1, wherein the whole layout of the main interface is divided into a warning area, an information prompt area, an auxiliary operation area, a working condition indication area and a navigation bar;

warning area: the method comprises the steps of warning graphics, fault details, time display and air conditioner temperature content;

information prompt area: the system comprises working condition code display, hanging weight display, counterweight information, landing leg state information, anemometers and rotation angle display information contents;

auxiliary operation area: the auxiliary operation area comprises landing leg information, fuel parameter information and warning attention information; the graphical data expression is easy for a user to operate and identify;

working condition indication area: the main interface core functions are mainly gathered in a working condition indication area, and the graphical indication of the whole hoisting operation working condition comprises the function display of moment percentage, maximum hoisting weight, actual hoisting weight, arm length, arm height and support leg length;

navigation bar: comprises a functional panel, a working condition setting, an arm extending panel, auxiliary operation, a CVT system, a functional setting, a power taking system and a mute control function.

3. The man-machine interaction interface display system of engineering machinery product instrument display equipment according to claim 1, wherein the two-level page function mainly comprises a function panel, a working condition setting, a telescopic interface, an information panel, an auxiliary operation, a CVT system, a function setting and a mute switch;

the functional panel is divided into a client mode and a non-client mode;

the functions of the client mode comprise multimedia functions, air conditioner settings, intelligent arm frames, maintenance, asymmetric functions, functional redundancy, function settings, information panels and assistance;

the user can enter relevant function setting and data query through the function panel;

the functions of the non-client function mode include: expert diagnosis, emergency rescue, panel debugging, force limiter debugging, superlift debugging, landing leg calibration, parameter calibration and factory setting;

the non-client mode is provided with an independent login page, the corresponding user identity is the technician and the maintainer, and the professional and the maintainer execute related operations or exit the non-client mode according to the corresponding prompt.

4. The man-machine interaction interface display system of engineering machinery product instrument display equipment according to claim 3, wherein a triangle expansion instruction is added on a navigation mode function key of a three-level page, and a tiled function navigation key is adopted to solve the problems of logic confusion and operation lost after navigation switching.

5. The man-machine interaction interface display system of engineering machinery product instrument display equipment according to claim 3, wherein the working condition setting comprises working condition setting, performance table query and working condition query;

clicking on the working condition setting page can select different working condition types, balance weight selection, landing leg selection and lifting hook information, and simultaneously the right schematic diagram of the main interface can carry out graphic change according to the selection condition of the working conditions.

6. A man-machine interaction interface display system of engineering machinery product instrument display device according to claim 3, wherein the telescopic interface, the information panel, the auxiliary operation, the CVT system, the function setting and the mute switch are all used for corresponding function design and operation, and different function operations can be performed by pressing the related function buttons.

7. The design method of the man-machine interaction interface display system of the engineering machinery product instrument display device is characterized by comprising the following steps of:

step one: the whole function framework operates logic optimization, and the function module is redefined;

step two: a main page layout strategy is formulated, and brand new optimization layout is carried out;

step three: and (5) brand-new display interaction style design.

8. The method for designing a human-machine interface display system of an engineering machine tool instrument display device according to claim 7, wherein the overall function framework operation logic optimization, redefining the function module, comprises the steps of:

(1) Through deep investigation of engineering machinery product operation manipulators, debuggers and technicians, the operation habit and the functional requirement of an operation user in the operation process are known, the engineering machinery product user is researched, the use habit of the user for operating the product and the cognitive characteristic of the product are summarized, and the product function is adjusted according to the operation habit and the functional requirement;

(2) According to the functional requirement of the product, analyzing and defining the functional range and functional level of the operating system of the engineering machinery product; carrying out main interface layout and design according to user operation habit, user cognitive characteristic, functional operation frequency and integrated expert opinion; the main interface main functions comprise product warning information, product information prompt, working condition indication and auxiliary operation functions;

(3) Performing function definition and navigation modes of the second-level page and the third-level page; the navigation bar function is arranged on the right side of the main interface and comprises eight function keys; the navigation mode function keys of the three-level page are added with triangle expansion instructions, and tiled function navigation keys are adopted;

(4) The secondary page function mainly comprises a function panel, working condition setting, a telescopic interface, an information panel, auxiliary operation, a CVT system, function setting and mute switch functions;

(5) The product display function is defined by a re-carding plan under the 'function panel', and is divided into a client mode and a non-client mode; the client mode functions comprise multimedia functions, air conditioner settings, intelligent arm frames, maintenance, asymmetric functions, functional redundancy, function settings, information panels and assistance; the user can enter the related function setting and data query through the function panel, and the functions are concentrated on the same page, so that the user can conveniently query and set;

(6) The main functions of the non-client function mode under the 'function panel' include: expert diagnosis, emergency rescue, panel debugging, force limiter debugging, superlift debugging, landing leg calibration, parameter calibration, factory setting = function; the non-client mode is provided with a special login page, the corresponding user identity is a technician and a maintainer, and the professional and the maintainer execute related operations or exit the non-client mode according to corresponding prompts; =

(7) Clicking a working condition setting button of a main page menu bar to display a working condition setting page, wherein the working condition setting page comprises three functions, namely working condition setting, performance table query and working condition query, different working condition types, counterweight selection, landing leg selection and lifting hook information can be selected in the clicking working condition setting page, and meanwhile, a right schematic diagram can carry out graphic change according to the selection condition of the working conditions;

(8) The telescopic interface, the information panel, the auxiliary operation, the CVT system, the function setting and mute switch interface are all used for carrying out corresponding function design and operation, and different function operations can be carried out by pressing the related function buttons.

9. The method for designing a man-machine interface display system of an engineering machine tool instrument display device according to claim 7, wherein the step of creating a main page layout strategy and performing a completely new optimized layout comprises the steps of:

and (3) a main interface overall layout strategy: according to the function category and the user attention, the functions of the menu bar of the main interface are arranged and laid out, the core display function with strong correlation to operation is highlighted, and auxiliary operation information is added; the whole layout of the main interface is divided into a warning area, an information prompt area, an auxiliary operation area, a working condition indication area and a navigation bar;

warning area: the method comprises the steps of warning graphics, fault details, time display and air conditioner temperature content;

information prompt area: the system comprises working condition code display, hanging weight display, counterweight information, landing leg state information, anemometers and rotation angle display information contents;

auxiliary operation area: the auxiliary operation area comprises landing leg information, fuel parameter information and warning attention information;

working condition indication area: the main interface core functions are mainly gathered in a working condition indication area, and the graphical indication of the whole hoisting operation working condition comprises the function display of moment percentage, maximum hoisting weight, actual hoisting weight, arm length, arm height and support leg length;

navigation bar: comprises a functional panel, a working condition setting, an arm extending panel, auxiliary operation, a CVT system, a functional setting, a power taking system and a mute control function.

10. The method for designing a human-computer interaction interface display system of an engineering machinery product instrument display device according to claim 7, wherein the completely new display interaction style design comprises the steps of:

and redesigning visual graphics, page button icons, drop-down menus and navigation page interaction elements of the whole system interface, unifying common function key positions, unifying interface styles, and planning and designing the system.