CN112785006A

CN112785006A - Machine equipment state monitoring system and method, computer readable storage medium

Info

Publication number: CN112785006A
Application number: CN201911006747.7A
Authority: CN
Inventors: 覃柳明; 许豪杰; 蔡胜杰
Original assignee: Jabil Electronics Guangzhou Co ltd
Current assignee: Jabil Electronics Guangzhou Co ltd; Jabil Circuit Guangzhou Ltd
Priority date: 2019-10-22
Filing date: 2019-10-22
Publication date: 2021-05-11

Abstract

A machine equipment state monitoring method is executed by a machine equipment state monitoring system comprising a display, a monitoring module, a storage module and a processing module, wherein the monitoring module is connected with a plurality of machine equipment, the storage module stores a three-dimensional model of the machine equipment, and the machine equipment state monitoring method comprises the following steps: the processing module displays a first graphical user interface on the display, wherein the first graphical user interface comprises a plurality of state display areas respectively corresponding to the machine equipment; when the processing module receives an abnormal signal sent by the monitoring module for monitoring one of the machine devices as abnormal, the processing module displays the abnormal in a state display area corresponding to the first graphical user interface; when the processing module receives the input signal from the status display area, the processing module displays a second graphical user interface on the display, and displays a three-dimensional model of the abnormal machine device and the location of the abnormality on the second graphical user interface.

Description

Machine equipment state monitoring system and method, computer readable storage medium

Technical Field

The present invention relates to a monitoring system and method, and a computer-readable storage medium, and more particularly, to a system and method for monitoring a state of a machine device, and a computer-readable storage medium.

Background

When the existing machine equipment has an abnormality or a fault, a maintenance worker cannot know which component in the machine equipment has the abnormality or the fault, so the maintenance worker needs to detect each component in the machine equipment by himself to know which component is abnormal or the fault and correspondingly maintain the component. This results in a disadvantage that the maintenance personnel takes a lot of time to perform the inspection to maintain the machine equipment.

Disclosure of Invention

An object of the present invention is to provide a machine equipment state monitoring method which enables a serviceman to shorten the time required for servicing the machine equipment.

The invention relates to a machine equipment state monitoring method, which comprises the steps of storing at least one three-dimensional model of machine equipment in a storage medium, wherein the machine equipment comprises a plurality of components; receiving an exception signal corresponding to the machine device; and displaying the three-dimensional model of the machine equipment in a graphical mode through a display, and displaying abnormal components in the components in a specific display mode, wherein the specific display mode is different from the display mode of non-abnormal components in the components.

The invention relates to a machine equipment state monitoring method, which comprises the steps of storing at least one three-dimensional model of machine equipment in a storage medium, wherein the machine equipment comprises a plurality of components; receiving an exception signal corresponding to the machine device; and graphically displaying a three-dimensional model of the machine equipment through a display, and marking abnormal components in the three-dimensional model; and further displaying the decomposition state of the three-dimensional model of the machine equipment through the display.

The invention relates to a machine equipment state monitoring method, which comprises the steps of storing at least one three-dimensional model of machine equipment in a storage medium, wherein the machine equipment comprises a plurality of components; receiving an exception signal corresponding to the machine device; and graphically displaying a three-dimensional model of the machine equipment through a display, and marking abnormal components in the three-dimensional model; and further displaying the semi-transparent state of the three-dimensional model of the equipment through the display, and changing other components except the abnormal component into semi-transparent display.

The invention relates to a machine equipment state monitoring method, which comprises the steps of storing a three-dimensional model of at least one piece of equipment in a storage medium, wherein the equipment comprises a plurality of components; receiving an exception signal corresponding to the device; and graphically displaying the three-dimensional model of the equipment through a display, and displaying abnormal components in the components in a specific display mode, wherein the specific display mode is different from the display mode of non-abnormal components in the components.

The machine equipment state monitoring method is executed by a machine equipment state monitoring system, the machine equipment state monitoring system comprises a display, a monitoring module, a storage module and a processing module, the monitoring module is connected with a plurality of machine equipment, the storage module stores a three-dimensional model of the machine equipment, and the machine equipment state monitoring method comprises the following steps:

the processing module displays a first graphical user interface on the display, wherein the first graphical user interface comprises a plurality of state display areas respectively corresponding to the machine equipment;

when the processing module receives an abnormal signal sent by the monitoring module for monitoring one of the machine devices as abnormal, the processing module displays the abnormal in a state display area corresponding to the first graphical user interface; and

when the processing module receives the input signal from the status display area, the processing module displays a second graphical user interface on the display, and displays a three-dimensional model of the abnormal machine device and the location of the abnormality on the second graphical user interface.

The machine equipment state monitoring method of the invention, each machine equipment includes a plurality of assemblies, the storage module also stores the assembly list of each machine equipment, the machine equipment state monitoring method also includes:

when the processing module receives the input signal from the state display area, the processing module also displays the component list of the corresponding machine equipment on the second graphical user interface, and displays an alarm on abnormal components in the component list; and

when the processing module receives an input signal from a component of which the component list shows an abnormality, the processing module flickers a component model corresponding to the abnormal component in the three-dimensional model.

In the method for monitoring the state of the machine equipment, the processing module is provided with a three-dimensional graphic display module, the storage module stores respective three-dimensional model files of the machine equipment, and when the processing module receives an input signal from the state display area, the three-dimensional graphic display module obtains the three-dimensional model files corresponding to the abnormal machine equipment from the storage module and displays the three-dimensional model files on the second graphic user interface.

According to the machine equipment state monitoring method, the three-dimensional graphic display module can execute a decomposition instruction, and when the three-dimensional graphic display module of the processing module receives a decomposed input signal, the three-dimensional graphic display module executes the decomposition instruction, so that the three-dimensional model displayed on the second graphic user interface is in a decomposition state.

According to the machine equipment state monitoring method, the three-dimensional graphic display module can execute a semitransparent display instruction, and when the three-dimensional graphic display module of the processing module receives an input signal of semitransparent display, the three-dimensional graphic display module executes the semitransparent display instruction, so that the display color of component models corresponding to other components except for the abnormal component is changed into semitransparent.

In the method for monitoring the state of the machine equipment, the storage module also stores the specification information of the components of the machine equipment, and when the processing module receives an indication signal from one of the components of the three-dimensional model, the processing module also displays the specification information of the component.

Another object of the present invention is to provide a computer-readable storage medium that enables a serviceman to shorten the time required to service a machine device.

The computer-readable storage medium of the present invention stores a computer-executable program, and when the computer-executable program is loaded into and executed by a processing module of a machine equipment state monitoring system, the processing module can implement the machine equipment state monitoring method as described above.

Another object of the present invention is to provide a machine equipment condition monitoring system that enables a serviceman to shorten the time required to service the machine equipment.

The machine equipment state monitoring system of the present invention is used for monitoring the states of a plurality of machine equipments, and the machine equipment state monitoring system comprises:

a display;

the monitoring module is electrically connected with the machine equipment; and

the processing module is electrically connected with the monitoring module and the display and is configured to display a first graphical user interface on the display, the first graphical user interface comprises a plurality of state display areas respectively corresponding to the machine equipment, and when the processing module receives an abnormal signal sent by the monitoring module for monitoring one of the machine equipment as abnormal, the processing module displays the abnormal in the state display area corresponding to the first graphical user interface; the processing module is further configured to display a second graphical user interface on the display and a three-dimensional model of the machine equipment of the anomaly and a location of the anomaly on the second graphical user interface when the processing module receives the input signal from the status display area.

The machine equipment state monitoring system of the invention, each machine equipment contains a plurality of components, the storage module also stores the component list of each machine equipment, the processing module is also configured to display the corresponding component list of the machine equipment on the second graphical user interface when the processing module receives the input signal from the state display area, and displays the warning on the abnormal component in the component list; when the processing module receives an input signal from a component with an abnormal component displayed in the component list, the processing module flickers or highlights a component model corresponding to the abnormal component in the three-dimensional model.

The processing module of the machine equipment state monitoring system is provided with a three-dimensional graphic display module, the storage module stores respective three-dimensional model files of the machine equipment, and when the processing module receives an input signal from the state display area, the three-dimensional graphic display module obtains the three-dimensional model files corresponding to the combined state of the abnormal machine equipment from the storage module and displays the three-dimensional model files on the second graphic user interface.

According to the machine equipment state monitoring system, the three-dimensional graphic display module can execute a decomposition instruction, and when the three-dimensional graphic display module of the processing module receives a decomposed input signal, the three-dimensional graphic display module executes the decomposition instruction, so that the three-dimensional model displayed on the second graphic user interface is in a decomposition state.

According to the machine equipment state monitoring system, the three-dimensional graphic display module can execute a semitransparent display instruction, when the three-dimensional graphic display module of the processing module receives an input signal of semitransparent display, the three-dimensional graphic display module executes the semitransparent display instruction, and the display color of the component model corresponding to other components except the abnormal component is changed into semitransparent.

The machine equipment condition monitoring system of the invention, the storage module further stores specification information of the respective components of the machine equipment, the processing module is further configured to receive an indication signal from one of the components of the three-dimensional model of the second graphical user interface, and the processing module further displays the specification information of the component at a position where the second graphical user interface is adjacent to the component.

The machine equipment state monitoring method is executed by a machine equipment state monitoring system, the machine equipment state monitoring system comprises a display, a monitoring module, a storage module and a processing module, the monitoring module is connected with machine equipment, the storage module stores a three-dimensional model of the machine equipment, the machine equipment state monitoring method comprises the steps that the processing module displays a graphical user interface on the display, and when the processing module receives an abnormal signal sent by the monitoring module for monitoring the machine equipment to be abnormal, the three-dimensional model of the abnormal machine equipment and the position of the abnormality are displayed on the graphical user interface.

The invention has the beneficial effects that: by executing the machine equipment state monitoring method, a maintenance person can quickly know the current state of the machine equipment from the first graphical user interface displayed by the display, and the time required by the maintenance person to maintain the abnormal or failed machine equipment can be greatly reduced.

Drawings

Other features and effects of the present invention will be clearly apparent in the embodiments with reference to the drawings:

FIG. 1 is a block diagram illustrating one embodiment of a machine equipment condition monitoring system of the present invention;

FIG. 2 is a schematic diagram illustrating a display of the machine equipment condition monitoring system of the embodiment displaying a first graphical user interface;

FIG. 3 is a flow chart illustrating the machine equipment condition monitoring system executing one embodiment of the machine equipment condition monitoring method of the present invention;

FIG. 4 is a schematic diagram illustrating the display of the machine equipment condition monitoring system displaying a second graphical user interface;

FIG. 5 is a schematic diagram illustrating the display of the machine equipment condition monitoring system displaying a three-dimensional model presenting a resolved state in the second graphical user interface;

FIG. 6 is a schematic diagram illustrating the display of the machine equipment condition monitoring system showing the three-dimensional model of the second graphical user interface in a semi-transparent state;

FIG. 7 is a schematic diagram illustrating the display of the machine equipment condition monitoring system displaying specification information for a component in the second graphical user interface; and

FIG. 8 is a schematic diagram illustrating the display of the machine equipment condition monitoring system displaying a repair record for the component in the second graphical user interface.

Detailed Description

Referring to fig. 1, the following description will be made with reference to the accompanying drawings to illustrate an embodiment of a machine equipment state monitoring system 100 according to the present invention, which can perform real-time monitoring on a plurality of machine equipments 101 on a production line in a factory by setting the machine equipment state monitoring system 100, and when a fault occurs in a machine equipment 101, immediately know a component having the fault or a problem, and then perform maintenance or corresponding processing quickly.

Referring to fig. 2, in the present embodiment, the machine equipment status monitoring system 100 includes a display 10, a monitoring module 11, a storage module 12 and a processing module 13. The machine equipment condition monitoring system 100 displays the monitored condition through the display 10. The monitoring module 11 is connected to the machine 101, and the monitoring module 11 can be, for example, a sensor having a proper sensing function by being installed at a specific location of the machine 101, and implemented in cooperation with a program, or implemented in other monitoring manners, in other words, the monitoring module can be implemented in hardware, software, or a combination of hardware and software, for monitoring the operation states of the components 102 in the machine 101 as normal or abnormal in time. The storage module 12 stores the three-dimensional model 101a of the machine device 101 (including the component 102 therein), and the component list 101b and the component state 101c corresponding to each three-dimensional model 101 a. In addition, the storage module 12 also stores the specification information 101d and the maintenance record 101e of each component 102. In this embodiment, the storage module 12 can be any conventional storage medium, and the processing module 13 can be, for example, a central processing unit.

The processing module 13 is electrically connected to the monitoring module 11 and the display 10, and is configured to display the first graphical user interface 2 and the second graphical user interface 3 on the display 10 (see fig. 4). The processing module 13 of the present embodiment can be, for example, a central processing unit.

Referring to fig. 2 and 3, the embodiment of the method for monitoring the state of a machine device according to the present invention is implemented by the storage module 12 of the monitoring system 100 storing a computer executable program including a three-dimensional graphic display module, and being loaded and executed by the processing module 13, and includes the following steps:

step 51: initially, as shown in fig. 2, the processing module 13 displays a first graphical user interface 2 on the display 10, and the first graphical user interface 2 displays a plurality of status display areas 21 respectively corresponding to the machine devices 101. The status display area 21 shown here may also be grouped and categorized according to the partition of different departments or different production lines, so that when an abnormal signal occurs, the location of the abnormal machine 101 can be known in time.

Step 52: when the processing module 13 receives an abnormal signal sent by the monitoring module 11 for monitoring an abnormal condition of the component 102 of one of the machine devices 101, the processing module 13 displays the abnormal condition in the status display area 21 corresponding to the first gui 2, in other words, since each status display area 21 represents a status of one machine device 101 monitored by the monitoring module 11, when the machine device 101 has an abnormal condition, the processing module can display the abnormal signal in the corresponding status display area 21, and further inform the user that the machine device 101 corresponding to the abnormal condition has occurred, but is not limited thereto. When the processing module 13 receives a normal signal sent from the monitoring module 11 to monitor that one of the machine devices 101 is normal, the processing module 13 displays the normal signal in the status display area 21 corresponding to the first gui 2. For example, as shown in fig. 2, an Error is shown to represent an abnormal signal, which indicates that the machine 101 is in an Error state, a Running is shown to represent a Running signal, which indicates that the machine 101 is in a normal state, a Warning is shown to represent another abnormal signal, which indicates that the machine 101 is in an alarm state, and a Stopped is shown to represent a stop signal, which indicates that the machine 101 stops operating.

Step 53: referring to fig. 1 to 4, when the machine equipment 101 is in an abnormal state, the user moves the cursor to the state display area 21 displaying the abnormal signal and clicks by operating the mouse or other suitable selection means, at this time, the processing module 13 receives the input signal from the state display area 21, the processing module 13 switches the display 10 to display the second gui 3 shown in fig. 4, at this time, the three-dimensional graphic display module loaded in the processing module 13 also uses the storage module 12 to capture the three-dimensional model file corresponding to the abnormal combined state of the machine equipment 101 and displays the three-dimensional model 101a of the abnormal machine equipment 101 on the second gui 3, and the abnormal position is generated, and the abnormal position is changed by the three-dimensional graphic display module when the abnormal component 102 is monitored by the monitoring module 11, that is, the component model 102' of the component 102 displayed on the second gui 3 corresponding to the abnormal position is changed The color status or other specific display manner is, for example, highlighted or blinking, and is different from the display manner of other non-abnormal components for distinguishing, that is, the component 102 at which the abnormal position occurs is specifically marked in the three-dimensional model 101a of the entire machine equipment 101. In addition, the processing module 13 also displays the component list 101b and the component status 101c of the machine equipment 101 on the second gui 3, where the component status 101c can be set to display a signal such as Warning "or Error" or the like in the corresponding component status 101c when the monitoring module 11 monitors that the component 102 is abnormal, and as mentioned above, the component status is highlighted or blinked in the position of the three-dimensional model 101a corresponding to the component 102 (i.e., the component model 102 '), or, when the processing module 13 receives an input signal from the component 102 where the component list 101b displays the abnormality, the processing module 13 causes the component model 102' corresponding to the abnormal component 102 in the three-dimensional model 101a to be displayed in a blinking or other display manner, so that, through the direct display of the three-dimensional model 101a and the display of the component list 101b and the component status 101c, the user can know the abnormal component 102 of the machine equipment 101 and know the position thereof by matching with the display of the three-dimensional model 101a, thereby being capable of processing quickly.

Referring to fig. 5 and 6, a corresponding model diagram obtained when a user clicks the three-dimensional component model 102a or the corresponding component number (Code) a6014 in fig. 4 by operating a mouse or other suitable selection means is depicted. Further, the three-dimensional graphic display module loaded in the processing module 13 may further execute a decomposition instruction and a semi-transparent display instruction. In this embodiment, the split function key D1 and the semi-transparent display key T1 are displayed on the second graphic user interface 3. When the abnormal component (i.e., the component model 102 ') is assembled inside the component three-dimensional model 102a and is not easily displayed directly from the outside, the user clicks the decomposition function key D1 of the second gui 3 by operating a mouse or other suitable selection means, and when the three-dimensional graphic display module receives the decomposed input signal, the decomposition command is executed to make the component three-dimensional model 102 ' displayed on the second gui 3 in a decomposed state, as shown in fig. 5, so as to quickly view the abnormal component model 102 '. When the user clicks the semi-transparent display key T1 by operating the mouse, the three-dimensional graphic display module receives the input signal of the semi-transparent display, i.e. executes the semi-transparent display instruction, and changes the display color of the other component models except the abnormal component model 102 ' into semi-transparent, so that the other component models except the abnormal component model 102 ' of the three-dimensional model 102a can be displayed semi-transparent as shown in fig. 6, thereby achieving the effect of providing the user with quick inspection of the abnormal component model 102 '.

Referring to fig. 7 and 8, the display 10 of the present embodiment is further configured to load an information capturing module executing a computer executable program through the processing module 13 when the user directly clicks the component model 102 ' on the component three-dimensional model 102 ' of the three-dimensional model 101a by operating a mouse or other suitable selection means, capture the specification information 101d (shown in fig. 7) and the maintenance record 101e (shown in fig. 8) of the corresponding component 102 from the storage module 12, and display the captured information and the maintenance record 101e on the second gui 3, so as to facilitate the user to view the details of the component model 102 ' and the past maintenance records 101 e.

In particular, the area, the arrangement position, and the size of each display in the

graphical user interfaces

2 and 3 are only an example, and various adjustments and changes can be made in other examples.

It can also be understood from the foregoing that, in the method for monitoring the state of a machine device according to the present invention, a graphical user interface (e.g., the aforementioned second graphical user interface 3) is displayed on the display 10 through the processing module 13; and when the processing module 13 receives an abnormal signal sent by the monitoring module 11 for monitoring the machine equipment 101 for abnormality, displaying a three-dimensional model of the abnormal machine equipment and the position of the abnormality on the graphical user interface.

It can also be understood from the foregoing that the embodiment of the computer-readable storage medium of the present invention can be in the form of a storage medium, such as a memory, a hard disk, an optical disk, etc., and stores a computer-executable program, and when the computer-executable program is loaded and executed by the processing module 13 of the machine equipment state monitoring system, the processing module 13 can be used to implement the machine equipment state monitoring method as described above in conjunction with the monitoring module 11. The computer readable storage medium comprises at least an information capture module for displaying specification information 101d and maintenance records 101e of the component model 102 'when a user directly clicks the component model 102' on the three-dimensional model 101a, and a three-dimensional graphic display module for displaying the three-dimensional model file on the second graphic user interface 3 and capable of executing the decomposition command and the semi-transparent display command, as described above. In addition, the computer executable program (or the machine equipment state monitoring system 100) may further include, for example, a timing module and/or a counting module, which is used to calculate the usage time or usage rate of the machine equipment 101 in accordance with the abnormal occurrence rate of each component 102 of the machine equipment 101, and is presented in a graph in accordance with a drawing module, thereby counting and displaying the usage time or usage rate in the state display area 21 of the first gui 2 or in accordance with a three-dimensional model display in the second gui 3, and providing a user as a basis for maintaining, replacing or evaluating the production performance of each machine equipment 101.

It can also be understood from the foregoing that the method for monitoring the state of a machine device according to the present invention includes storing a three-dimensional model of at least one machine device 101 in a storage medium, wherein the machine device 101 includes a plurality of components; receiving an exception signal corresponding to the machine device 101; and graphically displaying the three-dimensional model of the machine equipment 101 through a display, and displaying abnormal components in the components in a specific display mode, wherein the specific display mode is different from the display mode of non-abnormal components in the components. The specific display mode is mainly used for reminding and warning a user that the existing components of the machine equipment 101 are abnormal, and visually displaying the abnormal positions.

It can also be understood from the foregoing that the method for monitoring the state of a machine device according to the present invention includes storing at least one three-dimensional model 101a of the machine device 101 in a storage medium, wherein the machine device 101 includes a plurality of components; receiving an exception signal corresponding to the machine device 101; displaying a three-dimensional model 101a of the machine equipment 101 in a graphical mode through a display, and marking abnormal components in the three-dimensional model 101 a; and further displaying the decomposition state of the three-dimensional model 101a of the machine device 101 through the display.

It can also be understood from the foregoing that the method for monitoring the state of a machine device according to the present invention includes storing at least one three-dimensional model 101a of the machine device 101 in a storage medium, wherein the machine device 101 includes a plurality of components; receiving an exception signal corresponding to the machine device 101; displaying a three-dimensional model 101a of the machine equipment 101 in a graphical mode through a display, and marking abnormal components in the three-dimensional model 101 a; and further displaying the semi-transparent state of the three-dimensional model 101a of the equipment through the display, and changing other components except the abnormal component into semi-transparent display.

In summary, by executing the method for monitoring the status of the machine equipment according to the embodiment, the maintenance personnel can quickly know which machine equipment is abnormal or failed from the display 10, and know the component corresponding to the abnormal or failed component in the machine equipment 101 and the corresponding maintenance history thereof through the

gui

2 and 3 displayed on the display 10, so that the time required for the maintenance personnel to maintain the component having the abnormal or failed component is greatly reduced, and the maintenance efficiency can be improved.

The above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and the invention is still within the scope of the present invention by simple equivalent changes and modifications made according to the claims and the contents of the specification.

Claims

1. A method for monitoring a condition of a machine, the method comprising:

storing a three-dimensional model of at least one machine device in a storage medium, the machine device comprising a plurality of components;

receiving an exception signal corresponding to the machine device; and

and displaying the three-dimensional model of the machine equipment in a graphical mode through a display, and displaying abnormal components in the components in a specific display mode, wherein the specific display mode is different from the display mode of non-abnormal components in the components.

2. A method for monitoring a condition of a machine, the method comprising:

storing a three-dimensional model of at least one machine device in a storage medium, the device comprising a plurality of components;

receiving an exception signal corresponding to the machine device; and

graphically displaying, by a display, a three-dimensional model of the machine equipment, and identifying in the three-dimensional model an anomalous component of the components; and

the state of decomposition of the three-dimensional model of the machine device is further displayed by the display.

3. A method for monitoring a condition of a machine, the method comprising:

storing a three-dimensional model of at least one device in a storage medium, the device comprising a plurality of components;

receiving an exception signal corresponding to the device; and

graphically displaying, by a display, a three-dimensional model of the device, and identifying in the three-dimensional model an anomalous component of the components; and

further displaying, via the display, a semi-transparent state of the three-dimensional model of the device, causing the other of the abnormal component to change to a semi-transparent display.

4. A machine equipment state monitoring method is executed by a machine equipment state monitoring system, the machine equipment state monitoring system comprises a display, a monitoring module, a storage module and a processing module, the monitoring module is connected with a plurality of machine equipment, the storage module stores a three-dimensional model of the machine equipment, and the machine equipment state monitoring method is characterized by comprising the following steps:

5. The machine equipment condition monitoring method according to claim 4, wherein each machine equipment includes a plurality of components, the storage module further stores a component list of each machine equipment, and the machine equipment condition monitoring method further includes:

6. The machine-equipment condition monitoring method according to claim 4, wherein the processing module carries a three-dimensional graphic display module, the three-dimensional graphic display module is capable of executing a decomposition command, and when the three-dimensional graphic display module of the processing module receives the decomposed input signal, the three-dimensional graphic display module executes the decomposition command to enable the three-dimensional model displayed on the second graphical user interface to be in a decomposition state.

7. The machine equipment condition monitoring method according to claim 4, wherein the processing module carries a three-dimensional graphic display module, the three-dimensional graphic display module is capable of executing a semi-transparent display instruction, and when the three-dimensional graphic display module of the processing module receives an input signal of semi-transparent display, the three-dimensional graphic display module executes the semi-transparent display instruction to change the display color of the component model corresponding to the other components except the abnormal component into semi-transparent.

8. The machine-equipment-state-monitoring method of claim 4, wherein the storage module further stores specification information of the respective components of the machine equipment, and when the processing module receives an indication signal from one of the components of the three-dimensional model of the second gui, the processing module further displays the specification information of the component at a position of the second gui adjacent to the component.

9. A computer-readable storage medium storing a computer-executable program which, when loaded and executed by a processing module of a machine equipment condition monitoring system, causes the processing module to implement the machine equipment condition monitoring method of any one of claims 4 to 8.

10. A machine equipment condition monitoring system for monitoring the condition of a plurality of machine equipment, the machine equipment condition monitoring system comprising:

a display;

the monitoring module is electrically connected with the machine equipment; and

11. The machine equipment condition monitoring system of claim 10, wherein each machine equipment includes a plurality of components, the storage module further stores a component list of each machine equipment, the processing module is further configured to display the corresponding component list of the machine equipment on the second graphical user interface and display an alert for an abnormal component in the component list when the processing module receives the input signal from the condition display area; when the processing module receives an input signal from a component with an abnormal component displayed in the component list, the processing module flickers or highlights a component model corresponding to the abnormal component in the three-dimensional model.

12. The machine-equipment condition monitoring system of claim 10, wherein the processing module carries a three-dimensional graphic display module capable of executing a decomposition command, and when the three-dimensional graphic display module of the processing module receives the decomposed input signal, the three-dimensional graphic display module executes the decomposition command to decompose the three-dimensional model displayed on the second graphical user interface.

13. The system of claim 10, wherein the processing module carries a three-dimensional graphic display module, the three-dimensional graphic display module is capable of executing a semi-transparent display command, and when the three-dimensional graphic display module of the processing module receives an input signal of semi-transparent display, the three-dimensional graphic display module executes the semi-transparent display command to change the display color of the component model corresponding to the other components except the abnormal component into semi-transparent.

14. The machine equipment condition monitoring system of claim 10, wherein the storage module further stores specification information for each of the components of the machine equipment, and the processing module is further configured to display the specification information for a component at a location on the second graphical user interface adjacent to the component upon receiving an indication from the one of the components of the three-dimensional model of the second graphical user interface.