CN103454515B - Graphical self-diagnosable system and method - Google Patents
Graphical self-diagnosable system and method Download PDFInfo
- Publication number
- CN103454515B CN103454515B CN201210189823.4A CN201210189823A CN103454515B CN 103454515 B CN103454515 B CN 103454515B CN 201210189823 A CN201210189823 A CN 201210189823A CN 103454515 B CN103454515 B CN 103454515B
- Authority
- CN
- China
- Prior art keywords
- self
- graphical
- installation site
- user
- diagnosis
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Test And Diagnosis Of Digital Computers (AREA)
- Apparatus For Radiation Diagnosis (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
Abstract
The present invention provides a kind of graphical self-diagnosable system and method.The graphical self-diagnosable system includes:Request is asked and presented to input unit, the self diagnosis for being input into user;Graphical self-diagnosis system, including fault data library module, fault scanning module and presentation module, for being diagnosed to one or more parts for being diagnosed equipment, and produces graphical diagnostic result;And output device, for exporting the graphical diagnostic result.Present invention can apply to the large-scale and complicated device of such as X-ray filming machine, CT equipment, magnetic resonance equipment etc, can also be applied to such as the common device of household electrical appliance, personal computer etc.Equipment user easily using the graphical self-diagnosable system and the specific trouble unit of method identification and can carry out respective handling, so as to reduce the maintenance cost of correlation, and reduce downtime.
Description
Technical field
In general, the present invention relates to self-diagnosis technology field.In particular it relates a kind of graphical self-diagnosable system
With corresponding method.
Background technology
When various equipment, especially some complicated equipment (for example, X-ray equipment, CT equipment, magnetic resonance equipment) go out event
During barrier, the field diagnostic to these equipment generally needs to be subject to the engineer of good professional training to go to scene.If these set
Standby to be used in some remote districts, it is very high to send equipment location to carry out on-site diagnosis cost engineer
's.
In order to solve these problems, many equipment are provided with self-diagnosable system, are come voluntarily with will pass through self-diagnosable system
Find out failure cause.For example, Vision VDIX140 filming machines have self-diagnostic function;Many CT equipment or magnetic resonance equipment
Also it is equipped with self-diagnostic function;Common device even such as personal computer etc also has self-diagnostic function mostly, can be certainly
Whether row diagnosis CPU, hard disk, internal memory, fan etc. are working properly.These self-diagnosable systems are generally by hardware and/or admittedly
Part provides self diagnostic capability, it is necessary to part typically easy break-down or the easily loss of self diagnosis for the part of appliance for needing self diagnosis
Part, or some critical components.
But, because many large scale equipments construction in itself is complicated, and often not possessed using the user of equipment is had
The professional knowledge of pass equipment construction, even if self-diagnosable system is found out failure cause and alarmed, user still cannot the localization of faults
And fix a breakdown, in addition it is also necessary to after professional checks to scene, can just take appropriate measures, for example, maintenance or even
Change out of order part, etc..This actually fails to give full play to the advantage of self-diagnosable system.When equipment is out of order, dimension
Shield cost is still very high, and the time for needing waiting relatively long could allow equipment to recover normal work.
The content of the invention
One of the technical problem to be solved in the present invention be for field failure diagnosis a kind of simple solution is provided, it gram
Problems of the prior art have been taken or alleviated, the weak point of existing self-diagnosable system has been compensate for.
According to the first aspect of the present invention, there is provided a kind of graphical self-diagnosable system, including:
Request is asked and presented to input unit, the self diagnosis for being input into user;
Graphical self-diagnosis system, for being diagnosed to one or more parts for being diagnosed equipment, and produces figure
Shape diagnostic result;And
Output device, for exporting the graphical diagnostic result,
Wherein, the graphical self-diagnosis system includes:
Fault data library module, for prestoring the integral device figure of equipment, one or more of of being diagnosed
The installation site figure and entity photo of part, are additionally operable to store trouble point information;
Fault scanning module, for periodically or responding self diagnosis request each part of scanning of the user, so as to know
Other trouble unit is simultaneously stored in the fault data library module as trouble point, or the part that identification failure has been eliminated
And it is the trouble point of part storage correspondingly to delete;And
Module is presented, the self diagnosis for responding the user is asked, and entirety is called from the fault data library module
Equipment drawing and trouble unit is marked in the integral device figure based on the trouble point information for having stored, be also responsive to the user
Presentation request, the installation site figure of trouble unit and/or the entity of trouble unit are called from the fault data library module
Photo, the output device is supplied to as graphical diagnostic result.
In one embodiment of graphical self-diagnosable system of the invention, when in the installation site figure or entity photo
When simultaneously comprising multiple parts, the presentation module is that the trouble unit adds mark, then by the installation site of tape label
Figure or entity photo are supplied to the output device.
In one embodiment of graphical self-diagnosable system of the invention, the presentation module is based on the trouble unit
Coordinate in integral device figure, installation site figure or entity photo, generates red circle described to mark at the coordinate
Trouble unit.
In one embodiment of graphical self-diagnosable system of the invention, the installation site figure is to represent one or many
The installation site of individual part and/or the CAD diagram of size.
In one embodiment of graphical self-diagnosable system of the invention, the part is circuit element, the installation
The location drawing is the circuit layout card of the installation site for representing the circuit element.
In one embodiment of graphical self-diagnosable system of the invention, the part comprising part in the entity photo
Number.
In one embodiment of graphical self-diagnosable system of the invention, the input unit and output device are by same
One touch-screen is realized.
In one embodiment of graphical self-diagnosable system of the invention, the input unit is keyboard and/or mouse,
The output device is display and/or printer.
In one embodiment of graphical self-diagnosable system of the invention, the fault scanning module recognizes trouble unit
Mode be one or more of:
Based on the detection circuit that part itself is equipped with;
It is based upon the detection circuit that part is designed in addition;And
Using application layer software.
In one embodiment of graphical self-diagnosable system of the invention, the graphical self-diagnosable system is arranged at
One of X-ray filming machine, CT equipment, magnetic resonance equipment, household electrical appliance, personal computer are interior.
In one embodiment of graphical self-diagnosable system of the invention, the graphical self-diagnosis system can with it is upper
Position machine communication, and the graphical diagnostic result is uploaded to host computer.
In one embodiment of graphical self-diagnosable system of the invention, the output device can also be with text message
Form output diagnostic result.
In one embodiment of graphical self-diagnosable system of the invention, the output device can also export guidance and use
Family debugging or the instruction tested manually.
In one embodiment of graphical self-diagnosable system of the invention, the self diagnosis request of the user is by point
" diagnosis " label hit in the touch-screen sends;The presentation request of the user is shown by clicking in the touch-screen
Trouble unit or " advance " or " retrogressing " button send.
According to the second aspect of the present invention, there is provided a kind of graphical self-diagnosing method, comprise the following steps:
The installation site figure of the integral device figure that prestores the equipment of being diagnosed, one or more parts for being diagnosed equipment
With entity photo;
Periodically or self diagnosis request each part of scanning of the user is responded, so as to recognize trouble unit and be made
For trouble point stores, the part that failure has been eliminated also is recognized, and it is the trouble point of part storage correspondingly to delete;
The self diagnosis request of the user is responded, integral device figure is exported and based on the trouble point information for having stored in institute
State and mark trouble unit in integral device figure;And
The presentation request of the received user of response, exports the installation site figure and/or entity photo of trouble unit.
In one embodiment of graphical self-diagnosing method of the invention, when in the installation site figure or entity photo
It is the trouble unit addition mark when simultaneously comprising multiple parts, the installation site figure or entity for then exporting tape label shine
Piece.
In one embodiment of graphical self-diagnosing method of the invention, based on the trouble unit in integral device
Coordinate in figure, installation site figure or entity photo, generates red circle to mark the trouble unit at the coordinate.
In one embodiment of graphical self-diagnosing method of the invention, the installation site figure is to represent one or many
The installation site of individual part and/or the CAD diagram of size.
In one embodiment of graphical self-diagnosing method of the invention, the part is circuit element, the installation
The location drawing is the circuit layout card of the installation site for representing the circuit element.
In one embodiment of graphical self-diagnosing method of the invention, the part comprising part in the entity photo
Number.
In one embodiment of graphical self-diagnosing method of the invention, the self diagnosis of user is received using touch-screen
Request is presented request, and output integral device figure, the installation site figure or entity photo of trouble unit.
In one embodiment of graphical self-diagnosing method of the invention, user is received using keyboard and/or mouse
Self diagnosis request or request, and the peace that integral device figure, trouble unit are exported using display and/or printer is presented
Holding position figure or entity photo.
In one embodiment of graphical self-diagnosing method of the invention, the mode for recognizing trouble unit is following one kind
Or it is various:Based on the detection circuit that part itself is equipped with;It is based upon the detection circuit that part is designed in addition;And utilize application layer
Software.
In one embodiment of graphical self-diagnosing method of the invention, the graphical self-diagnosing method is clapped in X-ray
The interior execution of one of piece machine, CT equipment, magnetic resonance equipment, household electrical appliance, personal computer.
In one embodiment of graphical self-diagnosing method of the invention, communicated described graphical by with host computer
Diagnostic result is uploaded to host computer.
In one embodiment of graphical self-diagnosing method of the invention, also output diagnosis is tied in the form of a text message
Really.
In one embodiment of graphical self-diagnosing method of the invention, user debugging or test manually are instructed in also output
Instruction.
In one embodiment of graphical self-diagnosing method of the invention, the self diagnosis request of the user is by point
" diagnosis " label hit in the touch-screen sends;The presentation request of the user is shown by clicking in the touch-screen
Trouble unit or " advance " or " retrogressing " button send.
According to the third aspect of the present invention, there is provided a kind of X-ray filming machine, comprising graphical self-diagnosable system as described above
Any embodiment.
An advantage of the invention that, user easily can recognize specific failure using graphical self-diagnosable system
Part simultaneously carries out respective handling, so as to reduce the maintenance cost of correlation, and reduces downtime.
It is another advantage of the present invention that in many cases, engineer need not go to scene just to can know that failure situation,
So as to decide whether field maintenance or whether need to carry some new parts to change trouble unit, work is which reduced
Cheng Shi needs to travel to and fro between number of times and the working time at scene, saves cost.
Advantage of the present invention that, give full play to the advantage of self-diagnosable system so that either user is still
Equipment vendors can rely more heavily on self-diagnosable system.
Brief description of the drawings
By the detailed description carried out to the present invention below in conjunction with accompanying drawing, other purposes of the invention, advantage and novelty are special
Levy and will become obvious, in accompanying drawing:
Fig. 1 schematically illustrates a kind of example X-ray filming machine system, within the system can be using the present invention;
Fig. 2 schematically illustrates the simplified structure diagram according to the U arm control flows of the X-ray filming machine of one embodiment of the present of invention;
Fig. 3 schematically illustrates the simplified structure diagram according to the graphical self-diagnosable system of one embodiment of the present of invention;
Fig. 4 is flow chart, for illustrating the failure in the graphical self-diagnosis system according to one embodiment of the present of invention
Each step that scan module is performed in self diagnosis flow;
Fig. 5 is flow chart, for illustrating the presentation in the graphical self-diagnosis system according to one embodiment of the present of invention
Each step that module is performed in self diagnosis flow;
Fig. 6 shows that schematic diagram is presented according to the self diagnosis figure of one embodiment of the present of invention;And
Fig. 7-9 be shown respectively the homepage for graphical self diagnosis according to one embodiment of the present of invention, the CAD pages,
The photo page.
Specific embodiment
The present invention is more fully described referring to some embodiments and accompanying drawing.Carried out for the ease of illustrating rather than
Limit, the detail of such as particular system, structure and technology etc is provided herein, so that those skilled in the art can
Will be readily understood that the present invention.But, it will be apparent to those skilled in the art that can also be without detail described herein
Implement the present invention in other embodiments.
It will be appreciated by those skilled in the art that each step all or part of each several part of system described herein and/or method
Hardware, software and/or firmware can be used to realize.The invention is not limited in any particular combination of hardware and software.
In addition, although the main form for taking system and method describes the present invention, but the present invention also can be by calculating
Machine program product and implemented by the computer system including processor and the memory for being coupled to processor, wherein, deposit
Reservoir can store one or more program codes for performing functionality disclosed herein.
Fig. 1 is schematically illustrated and can wherein realize a kind of example X-ray filming machine system 100 of the invention.Herein referring especially to X
Light filming machine describes the preferred embodiments of the present invention, it should be noted that this describing mode to be no limitation of the invention
The scope of application, the present invention could be applicable to other complex devices of such as CT equipment, magnetic resonance equipment etc, or such as family expenses
Relatively simple common device of electrical equipment or personal computer etc, etc..
As shown in figure 1, X-ray filming machine system 100 mainly (only shows filming machine U arms 102 and U arm controls by filming machine in figure
System screen is 108), system control cabinet 104 and PC work stations 106 constitute.X-ray bulb and X-ray are installed on filming machine U arms 102
Detector (not shown), is responsible for film making.Filming machine U arms 102 can up and down, rotation and expanding-contracting action, be responsible for give patient pendulum
Use position.System control cabinet 104 is powered for X-ray filming machine, and produces the high pressure of X-ray bulb needs.PC work stations 106 can
For carrying out test setting and image procossing.U arms control flow 108 is typically mounted on filming machine U arms 102, is responsible for adjustment exposure
Parameter, report various positional informations and filming machine U arms 102 are configured and calibrated.
In one embodiment of the invention, graphical self-diagnosis system is arranged on U arms control flow 108, below
In will be explained in.
In another alternative of the invention, graphical self-diagnosis system is arranged in PC work stations 106, it is right
In the equipment without the part for possessing input information/output information ability such as U arms control flow 108 etc, can by means of with
The equipment connected PC work stations add graphical self-diagnosis system.In a word, the position where graphical self-diagnosis system is not
It is limited to position specifically described herein, but is determined according to specific equipment and design requirement.
Fig. 2 schematically illustrates the structure chart 200 according to the U arm control flows of one embodiment of the present of invention.In illustrated embodiment
In, U arms control flow 108 includes the touch-screen 202 and controller 204 that are connected in the way of it can communicate each other.Touch-screen 202 is
One example of input/output (I/O) device, it can be replaced by keyboard and/or mouse and display and/or printer.
Controller 204 can be made up of the discrete component and/or application specific integrated circuit that specially design, or by general purpose microprocessor or number
Word signal processor and memory are constituted.In one embodiment of the invention, controller 204 includes:For controlling to be diagnosed
The control board 208 of one or more parts of equipment;And graphical self-diagnosis system 206, the graphical self diagnosis
Device 206 can be made up of software and/or hardware and/or firmware for self diagnosis.
In another embodiment of the present invention, graphical self-diagnosis system 206 is independently positioned at outside controller 204
Portion, and it is connected to the input/output device such as touch-screen etc.
In yet another embodiment of the present invention, graphical self-diagnosis system 206 can also communicate with host computer, and will figure
Shape diagnostic result is uploaded to host computer.
Due to being equipped with graphical self-diagnosis system 206, U arms control flow 108 can be diagnosed to be on filming machine U arms 102
Whether all electric components and critical component are abnormal, and provide self diagnosis result (slightly with distinctive patterned way of the invention
Describe in detail afterwards).Diagnosable part includes (such as, but not limited to):Fan, electric machine controller, potentiometer, grid position, electricity
Magnetic brake, travel switch, button, encoder.
Depending on specific part and specific design, the mode that graphical self-diagnosis system 206 collects diagnostic message is various
Various.For example, graphical self-diagnosis system 206 is equipped with by fan detection circuit in itself or sensor collect wind
Fan status information, so that whether diagnose fan normal;For electromagnetic brake, specially can design a bleeder circuit for it to examine
Its running parameter is surveyed, so that whether diagnose electromagnetic brake normal;For electric machine controller, its heart is tested using application layer software
Message is jumped, so that whether diagnosing motor controller is normal.
Fig. 3 schematically illustrates the simplified structure diagram 300 according to the graphical self-diagnosable system of one embodiment of the present of invention.
Shown in scheming, graphical self-diagnosable system 300 includes:Input unit 308, the self diagnosis for being input into user is asked
Asked with presenting;Graphical self-diagnosis system 206, for being diagnosed to one or more parts for being diagnosed equipment, and
Produce graphical diagnostic result;And output device 310, for exporting the graphical diagnostic result.The graphical autodiagnosis
Disconnected device 206 includes:Fault data library module 304, for prestoring integral device figure, described one for being diagnosed equipment
The installation site figure and entity photo of individual or multiple parts, are additionally operable to store trouble point information;Fault scanning module 306, is used for
Periodically or self diagnosis request each part of scanning of the user is responded, so as to recognize trouble unit and as trouble point
It is stored in the fault data library module, or the part that has eliminated of identification failure and correspondingly deletes as the part is stored
Trouble point;And module 302 is presented, the self diagnosis for responding the user is asked, adjusted from the fault data library module
Trouble unit is marked in the integral device figure with integral device figure and based on the trouble point information for having stored, institute is also responsive to
The presentation request of user is stated, the installation site figure and/or trouble unit of trouble unit are called from the fault data library module
Entity photo, be supplied to the output device as graphical diagnostic result.
Describe the workflow that module 302 and fault scanning module 306 is presented in detail later with reference to Fig. 4 and Fig. 5.
In one embodiment of the invention, fault data library module 304 is also pre- in addition to storing the data of trouble point
First store following figure:
● it is diagnosed the integral device figure of equipment;
● CAD pages 1-n (n >=1), each CAD page shows the installation site and/or size of one or more parts;
And
● photo page 1-n (n >=1), each photo page shows the practical photograph and correlation of one or more parts
Part number.
Can be determined according to the correlation of the size of memory space and part on a CAD page or the photo page
Comprising part quantity.
In another embodiment of the present invention, because the key component being diagnosed is circuit board, the CAD pages can be by representing
The circuit layout card of position relationship is (such as by Protel between each circuit elementThe PCB figures of generation) replace.In fact, no matter
Using which kind of drawing instrument, the picture of any installation site that can show part of interest and/or size all can be used, not office
It is limited to the CAD pages.
The figure that these are prestored can be called and be displayed on U arms control flow 108 by presentation module 302.
Fig. 4 is flow chart, for illustrating the failure in the graphical self-diagnosis system according to one embodiment of the present of invention
Each step that scan module is performed in self diagnosis flow.In step 402, the inquiry U arm configuration informations of fault scanning module 306
(configuration information can be the list of parts in the equipment being stored in advance in database), the step is optional, works as configuration
When information keeps constant, can be without carrying out this step.In step 404, periodically autopolling is each for fault scanning module 306
The self diagnosis of individual possible trouble point or response user asks (for example, user clicks on " diagnosis " on screen) poll, and each can
The trouble point of energy, such as fan, electric machine controller, potentiometer, grid position, electromagnetic brake, travel switch, button, coding
Device etc..In step 406, if the diagnostic message collected from certain part (such as fan) of institute's poll meets fault condition
(for example, measured temperature is less than Second Threshold higher than first threshold and/or surveyed rotating speed), then store the part as trouble point
In Mishap Database.In step 408, after the fault recovery of the part, just the part is deleted from Mishap Database.Step
Rapid 406 and step 408 actually can synchronously carry out, i.e. out of order part and be out of order originally and failure has been eliminated now
Part can lead to be gone over poll and all identifies.
Fig. 5 is flow chart, for illustrating the presentation in the graphical self-diagnosis system according to one embodiment of the present of invention
Each step that module is performed in self diagnosis flow.In step 502, the detection touch-screen 202 of module 302 is presented defeated to find user
(for example user clicks on figure for the self diagnosis request (for example, user clicks on " diagnosis " label on screen) or presentation request for entering
Certain trouble unit in the integral device figure shown in area, or " advance " or " retrogressing " button for pressing sub-screen lower right).
In step 504, module 302 is presented the corresponding sub- display module of figure is jumped to according to the request of user input, for example, response is used
The self diagnosis request at family, calls integral device figure, or the presentation of response user to ask, from failure from fault data library module
The installation site figure and/or entity photo of trouble unit are called in DBM, so as to integral device figure is switched into failure
The CAD pages of part, or the CAD pages are further switched to the photo page of trouble unit.In step 506, module is presented
The trouble point stored in 302 inquiry Mishap Databases 304.In step 508, module 302 is presented and shows right on touch-screen 202
The fault message answered, for example, the trouble point based on storage, one or more failures are marked on shown integral device figure
Point.It should be pointed out that step 504 call with the mark of the inquiry of step 506 and step 508 can synchronously carry out.
In one embodiment of the invention, the installation site figure or entity photo in Mishap Database is pre-stored within
In simultaneously comprising multiple part when, module is presented and can be only trouble unit addition mark, then by the installation site of tape label
Figure or entity photo are supplied to output device for presenting.
In one embodiment of the invention, present module be based on trouble unit integral device figure, installation site figure or
Coordinate in entity photo, generates red circle to mark the trouble unit at the coordinate.
Describe how user uses figure self diagnosis in detail below in conjunction with Fig. 6-9.
Fig. 6 shows that schematic diagram is presented according to the self diagnosis figure of one embodiment of the present of invention.Fig. 7-9 be shown respectively according to
The homepage for graphical self diagnosis of one embodiment of the present of invention, the CAD pages, the photo page.
At the beginning, when user clicks on " diagnosis " label on the touch-screen 202 of U arms control flow 108, in touch-screen 202
On can show the overall picture of the equipment that is diagnosed, as diagnosis homepage.When user clicks on certain region on diagnosis homepage, examine
The CAD pages of disconnected part of the homepage by switching in click on area, can show the installation site of the part in the CAD pages
And/or size.Meanwhile, two buttons are also shown in screen lower right, press one of button and can return to homepage, press another
One button may proceed to the relevant picture page, and the entity photo and its exclusive part number of the part are shown wherein.
In one embodiment of the invention, when user clicks on " diagnosis " label, the execution of fault scanning module can be activated
Step 402-408 as described above.If fault scanning module identifies one or more out of order parts, just by these portions
Part is stored in Mishap Database as trouble point.
Meanwhile, module is presented can inquire about Mishap Database and show corresponding fault message, for example, being examined in shown
Dynamically plus one or more marks (such as red circle) at one or more parts on disconnected homepage, to indicate these portions
Part is out of order, and reminds the user that click/pressing relevant range, further to check the peace of trouble unit by the CAD pages
Holding position and/or size, and the outward appearance and/or part number of trouble unit are checked by the photo page.
For example, Fig. 7 shows the diagnosis homepage of U arm locators.When the page is entered, the red circle of mark is indicated in machine
There is certain failure in case region.User clicks on red circle region so that the CAD pages on cabinet region are displayed on screen,
As shown in figure 8, red circle therein indicates fan 1 to be out of order, meanwhile, the message " failure of fan 1 is shown in diagnostic region!”.
When user clicks on the red circle in the CAD pages, the photo page is displayed on screen, as shown in Figure 9.In the photo page
On, it is shown that the entity photo of the part that is out of order (such as fan 1), can also simultaneously show the part number of the part.If the photograph
The piece page includes more than one part, then the part that is out of order is marked by red circle.
In one embodiment of the invention, also " instruction area " is included in the lower left corner of the various pages, wherein showing
Operating procedure instructs the user to be debugged manually or tested.For only cannot finally determine its fault state with self-diagnostic function
Some parts, these manual tests are sometimes useful.
Graphical self-diagnosable system of the invention and method compared with prior art, can bring many benefits.For example, borrowing
Help the entity photo and its part number in the installation site and/or size and the photo page of part in the CAD pages, user is past
Toward the outward appearance of trouble unit position in a device and trouble unit can be readily determined, so that the part is voluntarily found out,
And detachable part when necessary.Again for example, user preferably can cooperate to fix a breakdown with long-range technical staff,
For example, user can find trouble unit and all size numerical value (such as rated power etc.) the notification technique people for indicating it above
Member so that correct part of changing directly can be taken to scene by technical staff, reduced and come and gone number of times.
Above-mentioned and description embodiment is merely given as examples, and is not construed as limiting the present invention.Though
So concrete term may be employed herein, but they are only used with generic and descriptive sense, rather than for limiting
The purpose of system.The scope of the present invention is only limited by appended claims and its equivalent.
Claims (27)
1. a kind of graphical self-diagnosable system, including:
Request is asked and presented to input unit, the self diagnosis for being input into user;
Graphical self-diagnosis system, for being diagnosed to one or more parts for being diagnosed equipment, and produces graphical
Diagnostic result;And
Output device, for exporting the graphical diagnostic result,
Characterized in that,
The graphical self-diagnosis system includes:
Fault data library module, described the integral device figure of equipment, one or more of parts are diagnosed for prestoring
Installation site figure and entity photo, be additionally operable to store trouble point information;
Fault scanning module, for periodically or responding self diagnosis request each part of scanning of the user so that recognize therefore
Barrier part is simultaneously stored in the fault data library module as trouble point, or the part that has eliminated of identification failure and phase
It is the trouble point of part storage to answer ground to delete;And
Module is presented, the self diagnosis for responding the user is asked, and integral device is called from the fault data library module
Scheme and trouble unit is marked in the integral device figure based on the trouble point information for having stored, be also responsive to the user is in
Now ask, the installation site figure of trouble unit and/or the entity photo of trouble unit called from the fault data library module,
The output device is supplied to as graphical diagnostic result,
Wherein, when multiple parts are included simultaneously in the installation site figure or entity photo, the presentation module is the event
Barrier part addition mark, is then supplied to the output device by the installation site figure or entity photo of tape label.
2. self-diagnosable system as claimed in claim 1 graphical, it is characterised in that the presentation module is based on the failure portion
Coordinate of the part in integral device figure, installation site figure or entity photo, generates red circle to mark at the coordinate
State trouble unit.
3. self-diagnosable system as claimed in claim 1 graphical, it is characterised in that the installation site figure is to represent multiple portions
The installation site of part and/or the CAD diagram of size.
4. self-diagnosable system as claimed in claim 1 graphical, it is characterised in that the part is circuit element, the peace
Holding position figure is the circuit layout card of the installation site for representing the circuit element.
5. self-diagnosable system as claimed in claim 1 graphical, it is characterised in that the portion comprising part in the entity photo
Piece number.
6. the graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the input unit and defeated
Go out device by same touch-screen to realize.
7. the graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the input unit is key
Disk and/or mouse, the output device are display and/or printer.
8. the graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the fault scanning module
The mode for recognizing trouble unit is one or more of:
Based on the detection circuit that part itself is equipped with;
It is based upon the detection circuit that part is designed in addition;And
Using application layer software.
9. the graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the graphical self diagnosis
It is interior that system is arranged at one of X-ray filming machine, CT equipment, magnetic resonance equipment, household electrical appliance, personal computer.
10. the graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the graphical autodiagnosis
Disconnected device can be communicated with host computer, and the graphical diagnostic result is uploaded into host computer.
The 11. graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the output device is also
Diagnostic result can in the form of a text message be exported.
The 12. graphical self-diagnosable system as any one of claim 1-5, it is characterised in that the output device is also
Can export and instruct user debugging or the instruction tested manually.
13. graphical self-diagnosable systems as claimed in claim 6, it is characterised in that the self diagnosis request of the user is logical
" diagnosis " label clicked in the touch-screen is crossed to send;The presentation request of the user be by clicking on the touch-screen in
The trouble unit of display or " advance " or " retrogressing " button send.
A kind of 14. graphical self-diagnosing methods, comprise the following steps:
The integral device figure that prestores the equipment of being diagnosed, the installation site figure of one or more parts for being diagnosed equipment and reality
Body photo;
Periodically or self diagnosis request each part of scanning of received user is responded, so as to recognize trouble unit and be made
For trouble point stores, or recognize the part that failure has been eliminated and the trouble point that correspondingly deletion is stored for the part;
The self diagnosis request of the user is responded, integral device figure is exported and based on the trouble point information for having stored described whole
Trouble unit is marked in body equipment drawing;And
The presentation request of the received user of response, the entity of the installation site figure and/or trouble unit that export trouble unit shines
Piece,
Wherein, it is the trouble unit addition mark when multiple parts are included simultaneously in the installation site figure or entity photo
Note, then exports the installation site figure or entity photo of tape label.
15. graphical self-diagnosing methods as claimed in claim 14, it is characterised in that set integrally based on the trouble unit
Coordinate in standby figure, installation site figure or entity photo, generates red circle to mark the trouble unit at the coordinate.
16. graphical self-diagnosing methods as claimed in claim 14, it is characterised in that the installation site figure is to represent multiple
The installation site of part and/or the CAD diagram of size.
17. graphical self-diagnosing methods as claimed in claim 14, it is characterised in that the part is circuit element, described
Installation site figure is the circuit layout card of the installation site for representing the circuit element.
18. graphical self-diagnosing methods as claimed in claim 14, it is characterised in that part is included in the entity photo
Part number.
The 19. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that using touch-screen come
Receive the self diagnosis request of user or request is presented, and output integral device figure, the installation site figure or entity of trouble unit
Photo.
The 20. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that using keyboard and/or
Mouse to receive, asked or presentation is asked by the self diagnosis of user, and exports integral device using display and/or printer
Figure, the installation site figure or entity photo of trouble unit.
The 21. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that identification trouble unit
Mode be one or more of:
Based on the detection circuit that part itself is equipped with;
It is based upon the detection circuit that part is designed in addition;And
Using application layer software.
The 22. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that it is described it is graphical from
Diagnostic method is in the interior execution of one of X-ray filming machine, CT equipment, magnetic resonance equipment, household electrical appliance, personal computer.
The 23. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that by with host computer
The graphical diagnostic result is uploaded to host computer by communication.
The 24. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that also with text message
Form output diagnostic result.
The 25. graphical self-diagnosing method as any one of claim 14-18, it is characterised in that also output is instructed to use
Family debugging or the instruction tested manually.
26. graphical self-diagnosing methods as claimed in claim 19, it is characterised in that the self diagnosis request of the user is logical
" diagnosis " label clicked in the touch-screen is crossed to send;The presentation request of the user be by clicking on the touch-screen in
The trouble unit of display or " advance " or " retrogressing " button send.
27. a kind of X-ray filming machines, comprising the graphical self-diagnosable system as any one of claim 1-13.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210189823.4A CN103454515B (en) | 2012-05-31 | 2012-05-31 | Graphical self-diagnosable system and method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210189823.4A CN103454515B (en) | 2012-05-31 | 2012-05-31 | Graphical self-diagnosable system and method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN103454515A CN103454515A (en) | 2013-12-18 |
CN103454515B true CN103454515B (en) | 2017-06-23 |
Family
ID=49737104
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201210189823.4A Active CN103454515B (en) | 2012-05-31 | 2012-05-31 | Graphical self-diagnosable system and method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103454515B (en) |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104750094A (en) * | 2013-12-31 | 2015-07-01 | 上海西门子医疗器械有限公司 | Method and system for positioning faulty internal electric component and medical equipment |
CN106774271B (en) * | 2017-01-03 | 2020-06-23 | 中车株洲电力机车有限公司 | Urban rail transit vehicle fault diagnosis and display system |
JP6557274B2 (en) * | 2017-03-31 | 2019-08-07 | ファナック株式会社 | Component mounting position guidance device, component mounting position guidance system, and component mounting position guidance method |
CN109213076A (en) * | 2017-07-03 | 2019-01-15 | 沈机(上海)智能系统研发设计有限公司 | The graphical method for diagnosing faults of lathe and system and its machine tool and electric terminal |
CN109818763B (en) * | 2017-11-20 | 2022-04-15 | 北京绪水互联科技有限公司 | Equipment fault analysis and statistics method and system and equipment real-time quality control method and system |
KR102475739B1 (en) * | 2017-11-22 | 2022-12-08 | 미쓰비시덴키 가부시키가이샤 | Facility degradation diagnosis device |
US10943700B2 (en) * | 2018-01-29 | 2021-03-09 | Soo Koun KIM | Method for apparatus, server and method of providing self-diagnosis result and medical information |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1641559A (en) * | 2004-01-16 | 2005-07-20 | 三星电子株式会社 | Apparatus having error self-diagnostics of a printing system and a method thereof |
CN101846999A (en) * | 2010-04-09 | 2010-09-29 | 中国铁道科学研究院基础设施检测研究所 | Monitoring method of high speed comprehensive detection train detection equipment and device and system thereof |
CN101878456A (en) * | 2007-11-30 | 2010-11-03 | 倍加福有限公司 | Electrical circuit with physical layer diagnostics system |
CN201689139U (en) * | 2010-04-13 | 2010-12-29 | 深圳市赛亿科技开发有限公司 | Automatic fault diagnosis feedback and processing system |
CN102192825A (en) * | 2010-01-15 | 2011-09-21 | 福禄克公司 | User interface system and method for diagnosing a rotating machine condition not based upon prior measurement history |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH06276000A (en) * | 1993-03-24 | 1994-09-30 | Tescon:Kk | Failure self-diagnosing apparatus |
WO2011039823A1 (en) * | 2009-10-02 | 2011-04-07 | 株式会社日立製作所 | Plant diagnostic equipment |
-
2012
- 2012-05-31 CN CN201210189823.4A patent/CN103454515B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1641559A (en) * | 2004-01-16 | 2005-07-20 | 三星电子株式会社 | Apparatus having error self-diagnostics of a printing system and a method thereof |
CN101878456A (en) * | 2007-11-30 | 2010-11-03 | 倍加福有限公司 | Electrical circuit with physical layer diagnostics system |
CN102192825A (en) * | 2010-01-15 | 2011-09-21 | 福禄克公司 | User interface system and method for diagnosing a rotating machine condition not based upon prior measurement history |
CN101846999A (en) * | 2010-04-09 | 2010-09-29 | 中国铁道科学研究院基础设施检测研究所 | Monitoring method of high speed comprehensive detection train detection equipment and device and system thereof |
CN201689139U (en) * | 2010-04-13 | 2010-12-29 | 深圳市赛亿科技开发有限公司 | Automatic fault diagnosis feedback and processing system |
Also Published As
Publication number | Publication date |
---|---|
CN103454515A (en) | 2013-12-18 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103454515B (en) | Graphical self-diagnosable system and method | |
CN105408898B (en) | Measurement data automatically record and graphic hotsopt | |
US8830267B2 (en) | Augmented reality building operations tool | |
KR101797946B1 (en) | Self diagnostic system of home appliance and operating method the same | |
BR102013002439A2 (en) | Aircraft maintenance system, method of providing maintenance for an aircraft and method of operating an aircraft | |
CN108780528A (en) | Equipment management device, equipment management system, program and device management method | |
US20180149557A1 (en) | Information processing apparatus, information processing system, information processing method, and information processing program | |
CN109801479A (en) | A kind of monitoring of semiconductor processes and early warning system and its control method | |
US20090109231A1 (en) | Imaging Device Providing Soft Buttons and Method of Changing Attributes of the Soft Buttons | |
CN208953604U (en) | A kind of touch infrared thermal imaging multimeter | |
EP2939124B1 (en) | Methods and apparatus for defining a probe configuration using a probe configuration tool | |
CN106095628A (en) | Computer adjustment method and device | |
CN103698644A (en) | Hall sensor array-based PCB (printed circuit board) short-circuit detection method and detection device | |
CN108920337A (en) | A kind of device exception information methods of exhibiting and computer equipment | |
CN203195687U (en) | Magnetic resonance device and magnetic resonance system | |
US11687752B2 (en) | Method and system for displaying equipment fault code diagnostic information | |
CN209450508U (en) | Vision inspection system | |
JP2021002140A5 (en) | ||
CN108542651A (en) | Visualize oxygen cabin operating system and its method | |
CN109199319A (en) | Vision inspection system | |
CN207717140U (en) | A kind of comprehensive tester for disperseing to install equipment | |
CN116839957A (en) | Breathing machine test system | |
Fink et al. | Appropriate choice of alarm system technologies: EPRI research | |
CN114625585A (en) | Method and system capable of automatically detecting mouse firmware bugs | |
Wang et al. | A flexible automatic test system for rotating-turbine machinery |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |