CN109581101A - Method and system for evaluating running state of GIL system - Google Patents

Abstract

The application provides a method and a system for evaluating the running state of a GIL system, wherein the method comprises the following steps: determining the evaluation threshold value of the set characteristic parameter of each functional module; when the GIL system runs, obtaining the running data of the set characteristic parameters of each functional module; comparing and calculating the evaluation threshold value of the set characteristic parameter of each functional module with the operation data to obtain the deviation value of the set characteristic parameter of each functional module; determining a deviation value of the GIL system in operation according to the deviation value of the set characteristic parameter of each functional module; and evaluating whether the running state of the GIL system is a reliable state or not according to the deviation value of the GIL system in running. In the present application, the evaluation of the operation state of the GIL system can be completed in the above manner.

Description

A kind of the operating status appraisal procedure and system of GIL system

Technical field

This application involves technical field of electric power, in particular to the operating status appraisal procedure and system of a kind of GIL system.

Background technique

Gas-insulated metal closed power transmission line (Gas Insulated Transmission Lines, abbreviation GIL) is A kind of novel power transmission route arranged using gas-insulated, shell and conductor coaxial.Its gas-insulated medium is generally SF6 gas Or N2 and SF6 mixed gas, with environmental hazard is small, occupied area is few, transmission capacity is big, line loss is low, high reliablity, dimension The advantages that shield expense is few, long service life is usually used in solving the electric transmission line erection of special climate, particular surroundings or Special zone Problem.

Since GIL system is usually used in solving the problems, such as the electric transmission line erection of special climate, particular surroundings or Special zone, because The operational reliability of this GIL system seems even more important.It can specifically be assessed by the operating status to GIL system to sentence Whether reliable determine the operation of GIL system.But how to carry out assessment to the operating status of GIL system becomes problem.

Summary of the invention

In order to solve the above technical problems, the embodiment of the present application provides a kind of operating status appraisal procedure of GIL system and is System, to achieve the purpose that complete the assessment to the operating status of GIL system, technical solution is as follows:

A kind of operating status appraisal procedure of GIL system, comprising:

Determine the Evaluation threshold of the respective setting characteristic parameter of each functional module, each functional module is right in advance It is obtained after the progress module division of GIL system；

In GIL system operation, the operation data of the respective setting characteristic parameter of each functional module is obtained；

Calculating is compared to the Evaluation threshold and operation data of each respective setting characteristic parameter of functional module, Obtain the amount of deflection of the respective setting characteristic parameter of each functional module；

According to the amount of deflection of each respective setting characteristic parameter of functional module, determine that the GIL system is being transported Amount of deflection when row；

According to the amount of deflection of the GIL system at runtime, whether the operating status for assessing the GIL system is reliable State.

Preferably, the Evaluation threshold of the respective setting characteristic parameter of each functional module of the determination, comprising:

Obtain the respective setting characteristic parameter of each functional module each stage in life cycle management corresponding mark Quasi- numerical value；

According to each setting characteristic parameter in life cycle management each stage corresponding standard figures, determine each The Evaluation threshold of the setting characteristic parameter.

Preferably, the amount of deflection according to the respective setting characteristic parameter of each functional module, determine described in The amount of deflection of GIL system at runtime, comprising:

The hierarchical relationship divided in advance according to the setting characteristic parameter is directed to, each functional module of step-by-step calculation The amount of deflection of the setting characteristic parameter of each level, until the setting for calculating the highest level of each functional module is special Levy the amount of deflection of parameter；

By the highest of the amount of deflection of the setting characteristic parameter of the highest level of the functional module and the functional module The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of level, chooses maximum value from the result of multiplication, as described The amount of deflection of functional module；

By the multiplied by weight of the amount of deflection of each functional module and each functional module, and by the knot of multiplication Fruit is added, the amount of deflection of the result of addition as the GIL system at runtime.

Preferably, the variation of the setting characteristic parameter of each level of each functional module of the step-by-step calculation Value, comprising:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is right The multiplied by weight answered, and to the results added of multiplication, the variation that sets characteristic parameter of the result of addition as a upper level Value.

Preferably, each functional module is respectively as follows: straightway unit module, shaft element module, 90 degree of corner lists Element module, low-angle corner units module, telescopic joint module, isolated location module and removable unit module.

A kind of operating status assessment system of GIL system, comprising:

First determining module, for determining the Evaluation threshold of the respective setting characteristic parameter of each functional module, Ge Gesuo It states after functional module carries out module division to GIL system in advance and obtains；

Module is obtained, in GIL system operation, obtaining the respective setting feature ginseng of each functional module Several operation datas；

Comparing calculation module, for the respective Evaluation threshold for setting characteristic parameter of each functional module and operation Data compare calculating, obtain the amount of deflection of the respective setting characteristic parameter of each functional module；

Second determining module, for the amount of deflection according to each respective setting characteristic parameter of functional module, really The fixed amount of deflection of the GIL system at runtime；

Evaluation module assesses the operation of the GIL system for the amount of deflection according to the GIL system at runtime Whether state is reliable behavior.

Preferably, first determining module, comprising:

First acquisition submodule, for obtaining the respective setting characteristic parameter of each functional module in life cycle management In each stage corresponding standard figures；

First determines submodule, for according to each setting characteristic parameter, each stage to be corresponding in life cycle management Standard figures, determine it is each it is described setting characteristic parameter Evaluation threshold.

Preferably, second determining module, comprising:

First computational submodule, for being counted step by step according to the hierarchical relationship divided in advance for the setting characteristic parameter The amount of deflection for calculating the setting characteristic parameter of each level of each functional module, until calculating each function mould The amount of deflection of the setting characteristic parameter of the highest level of block；

Second determine submodule, for by the highest level of the functional module setting characteristic parameter the amount of deflection with The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of the highest level of the functional module, is selected from the result of multiplication It is maximized, the amount of deflection as the functional module；

Third determines submodule, for by the power of the amount of deflection of each functional module and each functional module Heavy phase multiplies, and by the results added of multiplication, the amount of deflection of the result of addition as the GIL system at runtime.

Preferably, first computational submodule, is specifically used for:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is right The multiplied by weight answered, and to the results added of multiplication, the variation that sets characteristic parameter of the result of addition as a upper level Value.

Preferably, each functional module is respectively as follows: straightway unit module, shaft element module, 90 degree of corner lists Element module, low-angle corner units module, telescopic joint module, isolated location module and removable unit module.

Compared with prior art, the application has the beneficial effect that

In this application, the Evaluation threshold for determining the respective setting characteristic parameter of each functional module, as each setting Characteristic parameter corresponding a reference value in GIL system reliability service, and in GIL system operation, obtain each function The operation data of the respective setting characteristic parameter of energy module, the evaluation to each respective setting characteristic parameter of functional module Threshold value and operation data compare calculating, obtain the amount of deflection of the respective setting characteristic parameter of each functional module, The degree that setting characteristic parameter deviates a reference value in the operation of GIL system is reacted by the amount of deflection, and on this basis, root According to the amount of deflection of the respective setting characteristic parameter of each functional module, the amount of deflection of GIL system at runtime can be determined, The degree that GIL whole system deviates reliability operation, and then basis are reacted by the amount of deflection of GIL system at runtime Whether the operating status of the whole amount of deflection of GIL system, assessment GIL system is reliable behavior, completes the operation to GIL system The assessment of state.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for For those of ordinary skill in the art, without any creative labor, it can also be obtained according to these attached drawings His attached drawing.

Fig. 1 is a kind of flow chart of the operating status appraisal procedure of GIL system provided by the present application；

Fig. 2 is a kind of sub-process figure of the operating status appraisal procedure of GIL system provided by the present application；

Fig. 3 is another sub-process figure of the operating status appraisal procedure of GIL system provided by the present application；

Fig. 4 is the hierarchical relationship schematic diagram of setting characteristic parameter provided by the present application；

Fig. 5 is a kind of logical construction schematic diagram of the operating status assessment system of GIL system provided by the present application.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, instead of all the embodiments.It is based on Embodiment in the application, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall in the protection scope of this application.

The embodiment of the present application discloses a kind of operating status appraisal procedure of GIL system, comprising: determines each functional module The Evaluation threshold of respective setting characteristic parameter, each functional module are to obtain after carrying out module division to GIL system in advance It arrives；In GIL system operation, the operation data of the respective setting characteristic parameter of each functional module is obtained；It is right The Evaluation threshold and operation data of each respective setting characteristic parameter of the functional module compare calculating, obtain each institute State the amount of deflection of the respective setting characteristic parameter of functional module；According to the inclined of the respective setting characteristic parameter of each functional module Difference value determines the amount of deflection of the GIL system at runtime；According to the amount of deflection of the GIL system at runtime, comment Whether the operating status for estimating the GIL system is reliable behavior.In this application, the assessment of GIL system running state is realized.

Next the operating status appraisal procedure of GIL system disclosed in the embodiment of the present application is introduced, refers to figure 1, may include:

Step S11, the Evaluation threshold of the respective setting characteristic parameter of each functional module is determined.

In the present embodiment, each functional module obtains after carrying out module division to GIL system in advance.

Specifically it can come to carry out module division to GIL system in advance from set angle as desired.Preferably, Ke Yicong Structural form angle carries out module division to GIL system in advance, and each functional module obtained after division can be but not limit to In: straightway unit module, shaft element module, 90 degree of corner units modules, low-angle corner units module, telescopic joint mould Block, isolated location module and removable unit module.

After carrying out module division to GIL system in advance, the respective setting characteristic parameter of each functional module can be determined Evaluation threshold.Wherein, characteristic parameter is set it is to be understood that whether the feature of reliability service is joined for reflection function module Number.Set the Evaluation threshold of characteristic parameter, it is possible to understand that are as follows: for functional module in reliability operation, setting characteristic parameter is corresponding Numerical value.

Step S12, when the GIL system is run, the respective setting characteristic parameter of each functional module is obtained Operation data.

In the present embodiment, it can use acquisition equipment when the GIL system is run, it is respective to acquire each functional module The operation data for setting characteristic parameter, completes the acquisition of operation data.

Step S13, the Evaluation threshold and operation data of each respective setting characteristic parameter of functional module are carried out Comparing calculation obtains the amount of deflection of the respective setting characteristic parameter of each functional module.

Calculating is compared to the Evaluation threshold and operation data of each respective setting characteristic parameter of functional module A kind of embodiment can be with are as follows:

Judge the operation data of the respective setting characteristic parameter of each functional module whether in its Evaluation threshold range It is interior；

If so, the respective amount of deflection for setting characteristic parameter of each functional module can be determined as zero；

If it is not, the operation data that can then calculate the respective setting characteristic parameter of each functional module evaluates threshold with it The difference of value, as the amount of deflection.

Step S14, according to the amount of deflection of each respective setting characteristic parameter of functional module, the GIL is determined The amount of deflection of system at runtime.

It, can be according to each function since each functional module is obtained after carrying out module division to GIL system The amount of deflection of the respective setting characteristic parameter of module, determines the whole amount of deflection of the GIL system at runtime.

It, can be by each functional module in the case where hierarchical relationship is not present between the setting characteristic parameter of functional module The sum of the amount of deflection of respective setting characteristic parameter, as the amount of deflection of GIL system at runtime.

Currently, it is then needed there are in the case where hierarchical relationship according to each between the setting characteristic parameter of functional module The amount of deflection and hierarchical relationship of the respective setting characteristic parameter of functional module, to determine the variation of GIL system at runtime Value.

Step S15, the amount of deflection according to the GIL system at runtime, the operating status for assessing the GIL system are No is reliable behavior.

The amount of deflection based on the GIL system at runtime can react GIL whole system and deviate reliability operation Degree, it is preferred that according to the amount of deflection of the GIL system at runtime, assess the GIL system operating status whether be Reliable behavior.

In the present embodiment, the corresponding relationship of the GIL system amount of deflection at runtime and operating status can be preset. Correspondingly, the amount of deflection according to the GIL system at runtime, whether the operating status for assessing the GIL system is reliable State may include: that the variation of the GIL system at runtime is searched in the corresponding relationship of the amount of deflection and operating status It is worth corresponding operating status；If the operating status found be reliable behavior, can determine GIL system operating status be can By state；If the operating status found is non-reliable behavior, it can determine that the operating status of GIL system is non-reliable shape State.

In this application, the Evaluation threshold for determining the respective setting characteristic parameter of each functional module, as each setting Characteristic parameter corresponding a reference value in GIL system reliability service, and in GIL system operation, obtain each function The operation data of the respective setting characteristic parameter of energy module, the evaluation to each respective setting characteristic parameter of functional module Threshold value and operation data compare calculating, obtain the amount of deflection of the respective setting characteristic parameter of each functional module, The degree that setting characteristic parameter deviates a reference value in the operation of GIL system is reacted by the amount of deflection, and on this basis, root According to the amount of deflection of the respective setting characteristic parameter of each functional module, the amount of deflection of GIL system at runtime can be determined, The degree that GIL whole system deviates reliability operation, and then basis are reacted by the amount of deflection of GIL system at runtime Whether the operating status of the whole amount of deflection of GIL system, assessment GIL system is reliable behavior, completes GIL system running state Assessment.

In another embodiment of the application, the respective setting characteristic parameter of each functional module of above-mentioned determination is commented Valence threshold value is introduced, and refers to Fig. 2, may include:

Step S21, each respective setting characteristic parameter of functional module each stage in life cycle management is obtained Corresponding standard figures.

Life cycle management is it is to be understood that GIL system is produced from design to the period scrapped.Specifically, week life-cycle Phase may include: design, production, test, installation and operation stage.

It is of course also possible to be set according to actual needs to life cycle management, e.g., life cycle management can be arranged Are as follows: the period including production phase, experimental stage and operation phase.

Standard figures are it is to be understood that GIL system numerical value required when reliably implementing.

Step S22, according to each setting characteristic parameter in life cycle management each stage corresponding standard figures, Determine the Evaluation threshold of each setting characteristic parameter.

In the present embodiment, can from each setting characteristic parameter in life cycle management each stage corresponding standard An optimization criteria numerical value is chosen in numerical value, respectively as the Evaluation threshold of each setting characteristic parameter.

It is of course also possible to as needed, respectively according to each setting characteristic parameter each rank in life cycle management The corresponding standard figures of section, determine a standard scale, special using determining standard scale as each setting respectively Levy the Evaluation threshold of parameter.

Using determining standard scale as the Evaluation threshold of setting characteristic parameter, setting characteristic parameter can be improved The reliability of Evaluation threshold.

In another embodiment of the application, to above-mentioned according to the inclined of the respective setting characteristic parameter of each functional module Difference value determines that the amount of deflection of the GIL system at runtime is introduced, refers to Fig. 3, may include:

Step S31, according to the hierarchical relationship divided in advance for the setting characteristic parameter, each function of step-by-step calculation The amount of deflection of the setting characteristic parameter of each level of energy module, until calculating the highest level of each functional module Setting characteristic parameter the amount of deflection.

In the present embodiment, level division can be carried out to setting characteristic parameter in advance, determine the level of setting characteristic parameter Relationship.Preferably, the hierarchical relationship for setting characteristic parameter may refer to Fig. 4.

Level division is carried out to setting characteristic parameter in advance, the amount of deflection for calculating setting characteristic parameter, drop can be classified The complexity of low calculating.And according to hierarchical relationship, the amount of deflection of the setting characteristic parameter of each level of step-by-step calculation can be with It avoids omitting and calculate, improve the reliability of calculating.

In the present embodiment, the amount of deflection of the setting characteristic parameter of each level of each functional module of step-by-step calculation Process, may include:

The amount of deflection of the respective setting characteristic parameter for belonging to same level of each functional module is added step by step, The amount of deflection of the result of addition as the setting characteristic parameter of a upper level.

Certainly, the mistake of the amount of deflection of the setting characteristic parameter of each level of each functional module of step-by-step calculation Journey also may include:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is right The multiplied by weight answered, and to the results added of multiplication, the variation that sets characteristic parameter of the result of addition as a upper level Value.

Preferably, it can use fuzzy theory algorithm step by step for the respective same level that belongs to of each functional module The amount of deflection and the corresponding multiplied by weight of characteristic parameter are set, and to the results added of multiplication, the result of addition is as upper one The amount of deflection of the setting characteristic parameter of level.

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is right The multiplied by weight answered, and to the results added of multiplication, the variation that sets characteristic parameter of the result of addition as a upper level The reliability of the amount of deflection of setting characteristic parameter can be improved in value.

It now illustrates to step by step by the deviation of the respective setting characteristic parameter for belonging to same level of each functional module Numerical value and corresponding multiplied by weight, and to the results added of multiplication, setting characteristic parameter of the result of addition as a upper level The process of the amount of deflection be illustrated, can be according to the amount of deflection of aluminium and silver for example, with reference to the hierarchical relationship shown in Fig. 4 The amount of deflection of material is calculated, the process of calculating may refer to table 1.

Table 1

See also the hierarchical relationship shown in Fig. 4, size, the resistance, coating for belonging to same level with material are calculated separately With the amount of deflection of installation parameter, the result of calculating may refer to table 2.

Table 2

	Material	Size	Resistance	Coating	Installation
							The amount of deflection	0.01	0	0	0.01	0

See also the hierarchical relationship shown in Fig. 4, determine respectively the material for belonging to same level, size, resistance, coating, The weight of installation parameter, and weight is multiplied with the corresponding amount of deflection, and by the results added of multiplication, obtain a level The amount of deflection of characteristic parameter (i.e. conducting rod), the results are shown in Table 3 for calculating.

Table 3

And then calculate with conducting rod belong to same level characteristic parameter the amount of deflection and, the variation as conductor Value, the calculating process of the amount of deflection of conductor may refer to table 4.

Table 4

The hierarchical relationship shown referring to fig. 4, and then according to the amount of deflection for the characteristic parameter for belonging to same level with conductor, Determine that the amount of deflection of corresponding functional module, the amount of deflection of corresponding functional module (e.g., straight line segment unit) may refer to Table 5.

Table 5

Step S32, by the amount of deflection of the setting characteristic parameter of the highest level of the functional module and the function mould The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of the highest level of block, chooses maximum value from the result of multiplication, The amount of deflection as the functional module.

The corresponding relative Link Importance matrix of the setting characteristic parameter of the highest level of the functional module, it is possible to understand that are as follows: m × m matrix, in m m matrix the value of element be the highest level of the functional module some setting characteristic parameter relative to The value of the different degree of some setting characteristic parameter.Such as, m m matrix may refer to table 6.

Table 6

	Conductor	Sealing ring	Insulating part	Shielding case	Gas	Shell
							Conductor	1	3	5	9	8	7
Sealing ring	1/3	1	3	7	6	5
							Insulating part	1/5	1/3	1	5	4	3
Shielding case	1/9	1/7	1/5	1	1/2	1/3
							Gas	1/8	1/6	1/4	2	1	1/2
Shell	1/7	1/5	1/3	3	2	1

By the highest of the amount of deflection of the setting characteristic parameter of the highest level of the functional module and the functional module The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of level, chooses maximum value from the result of multiplication, as described The reliability of the amount of deflection of functional module can be improved in the amount of deflection of functional module.

Step S33, by the multiplied by weight of the amount of deflection of each functional module and each functional module, and will The results added of multiplication, the amount of deflection of the result of addition as the GIL system at runtime.

Since significance level of the different functional modules when GIL system is run may be different, can be set each The weight of functional module, and by the multiplied by weight of the amount of deflection of each functional module and each functional module, and By the results added of multiplication, the amount of deflection of the result of addition as the GIL system at runtime improves calculated GIL The reliability of the amount of deflection of system at runtime.

Next the operating status assessment system of GIL system provided by the present application is introduced, the GIL system being introduced below The operating status assessment system of system can correspond to each other reference with the operating status appraisal procedure of GIL system described above.

Fig. 5 is referred to, the operating status assessment system of GIL system includes: the first determining module 11, obtains module 12, is right Than computing module 13, the second determining module 14 and evaluation module 15.

First determining module 11, it is each for determining the Evaluation threshold of the respective setting characteristic parameter of each functional module The functional module obtains after carrying out module division to GIL system in advance.

Module 12 is obtained, for obtaining each respective setting feature of functional module in GIL system operation The operation data of parameter.

Comparing calculation module 13, for the Evaluation threshold and fortune to each respective setting characteristic parameter of functional module Row data compare calculating, obtain the amount of deflection of the respective setting characteristic parameter of each functional module.

Second determining module 14 is determined for the amount of deflection according to the respective setting characteristic parameter of each functional module The amount of deflection of the GIL system at runtime.

Evaluation module 15 assesses the fortune of the GIL system for the amount of deflection according to the GIL system at runtime Whether row state is reliable behavior.

In the present embodiment, first determining module 11 may include:

First acquisition submodule, for obtaining the respective setting characteristic parameter of each functional module in life cycle management In each stage corresponding standard figures；

First determines submodule, for according to each setting characteristic parameter, each stage to be corresponding in life cycle management Standard figures, determine it is each it is described setting characteristic parameter Evaluation threshold.

In the present embodiment, second determining module 14 may include:

First computational submodule, for being counted step by step according to the hierarchical relationship divided in advance for the setting characteristic parameter The amount of deflection for calculating the setting characteristic parameter of each level of each functional module, until calculating each function mould The amount of deflection of the setting characteristic parameter of the highest level of block；

Second determine submodule, for by the highest level of the functional module setting characteristic parameter the amount of deflection with The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of the highest level of the functional module, is selected from the result of multiplication It is maximized, the amount of deflection as the functional module；

Third determines submodule, for by the power of the amount of deflection of each functional module and each functional module Heavy phase multiplies, and by the results added of multiplication, the amount of deflection of the result of addition as the GIL system at runtime.

In the present embodiment, first computational submodule specifically can be used for:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is right The multiplied by weight answered, and to the results added of multiplication, the variation that sets characteristic parameter of the result of addition as a upper level Value.

In the present embodiment, each functional module respectively can be with are as follows: straightway unit module, shaft element module, 90 Spend corner units module, low-angle corner units module, telescopic joint module, isolated location module and removable unit module.

It should be noted that all the embodiments in this specification are described in a progressive manner, each embodiment weight Point explanation is the difference from other embodiments, and the same or similar parts between the embodiments can be referred to each other. For device class embodiment, since it is basically similar to the method embodiment, so being described relatively simple, related place ginseng See the part explanation of embodiment of the method.

Finally, it is to be noted that, herein, relational terms such as first and second and the like be used merely to by One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant meaning Covering non-exclusive inclusion, so that the process, method, article or equipment for including a series of elements not only includes that A little elements, but also including other elements that are not explicitly listed, or further include for this process, method, article or The intrinsic element of equipment.In the absence of more restrictions, the element limited by sentence "including a ...", is not arranged Except there is also other identical elements in the process, method, article or apparatus that includes the element.

For convenience of description, it is divided into various units when description apparatus above with function to describe respectively.Certainly, implementing this The function of each unit can be realized in the same or multiple software and or hardware when application.

As seen through the above description of the embodiments, those skilled in the art can be understood that the application can It realizes by means of software and necessary general hardware platform.Based on this understanding, the technical solution essence of the application On in other words the part that contributes to existing technology can be embodied in the form of software products, the computer software product It can store in storage medium, such as ROM/RAM, magnetic disk, CD, including some instructions are used so that a computer equipment (can be personal computer, server or the network equipment etc.) executes the certain of each embodiment of the application or embodiment Method described in part.

Detailed Jie has been carried out to the operating status appraisal procedure and system of a kind of GIL system provided herein above It continues, specific examples are used herein to illustrate the principle and implementation manner of the present application, and the explanation of above embodiments is only It is to be used to help understand the method for this application and its core ideas；At the same time, for those skilled in the art, according to this Shen Thought please, there will be changes in the specific implementation manner and application range, in conclusion the content of the present specification should not manage Solution is the limitation to the application.

Claims (10)

1. a kind of operating status appraisal procedure of GIL system characterized by comprising

Determine the Evaluation threshold of the respective setting characteristic parameter of each functional module, each functional module is in advance to GIL It is obtained after system progress module division；

In GIL system operation, the operation data of the respective setting characteristic parameter of each functional module is obtained；

Calculating is compared to the Evaluation threshold and operation data of each respective setting characteristic parameter of functional module, is obtained The amount of deflection of each respective setting characteristic parameter of the functional module；

According to the amount of deflection of each respective setting characteristic parameter of functional module, the GIL system is determined at runtime The amount of deflection；

According to the amount of deflection of the GIL system at runtime, whether the operating status for assessing the GIL system is reliable shape State.

2. the method according to claim 1, wherein the respective setting feature ginseng of each functional module of the determination Several Evaluation thresholds, comprising:

Obtain the respective setting characteristic parameter of each functional module each stage in life cycle management corresponding criterion numeral Value；

According to each setting characteristic parameter in life cycle management each stage corresponding standard figures, determine each described Set the Evaluation threshold of characteristic parameter.

3. the method according to claim 1, wherein described special according to each respective setting of functional module The amount of deflection for levying parameter, determines the amount of deflection of the GIL system at runtime, comprising:

According to for the hierarchical relationship that divides in advance of setting characteristic parameter, each functional module of step-by-step calculation it is each The amount of deflection of the setting characteristic parameter of level, until calculating the setting feature ginseng of the highest level of each functional module Several amounts of deflection；

By the highest level of the amount of deflection of the setting characteristic parameter of the highest level of the functional module and the functional module The corresponding relative Link Importance matrix multiple of setting characteristic parameter, maximum value is chosen from the result of multiplication, as the function The amount of deflection of module；

By the multiplied by weight of the amount of deflection of each functional module and each functional module, and by the result phase of multiplication Add, the amount of deflection of the result of addition as the GIL system at runtime.

4. according to the method described in claim 3, it is characterized in that, each layer of each functional module of the step-by-step calculation The amount of deflection of the setting characteristic parameter of grade, comprising:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is corresponding Multiplied by weight, and to the results added of multiplication, the amount of deflection that sets characteristic parameter of the result of addition as a upper level.

5. the method according to claim 1, wherein each functional module is respectively as follows: straight line segment unit mould Block, shaft element module, 90 degree of corner units modules, low-angle corner units module, telescopic joint module, isolated location module and Removable unit module.

6. a kind of operating status assessment system of GIL system characterized by comprising

First determining module, for determining the Evaluation threshold of the respective setting characteristic parameter of each functional module, each function Energy module obtains after carrying out module division to GIL system in advance；

Module is obtained, in GIL system operation, obtaining the respective setting characteristic parameter of each functional module Operation data；

Comparing calculation module, for the Evaluation threshold and operation data to each respective setting characteristic parameter of functional module Calculating is compared, the amount of deflection of the respective setting characteristic parameter of each functional module is obtained；

Second determining module determines institute for the amount of deflection according to each respective setting characteristic parameter of functional module State the amount of deflection of GIL system at runtime；

Evaluation module assesses the operating status of the GIL system for the amount of deflection according to the GIL system at runtime It whether is reliable behavior.

7. system according to claim 6, which is characterized in that first determining module, comprising:

First acquisition submodule, it is each in life cycle management for obtaining the respective setting characteristic parameter of each functional module A stage corresponding standard figures；

First determines submodule, for according to each setting characteristic parameter in life cycle management each stage corresponding mark Quasi- numerical value determines the Evaluation threshold of each setting characteristic parameter.

8. system according to claim 6, which is characterized in that second determining module, comprising:

First computational submodule, for according to the hierarchical relationship divided in advance for the setting characteristic parameter, step-by-step calculation to be each The amount of deflection of the setting characteristic parameter of each level of a functional module, until calculating each functional module The amount of deflection of the setting characteristic parameter of highest level；

Second determine submodule, for by the highest level of the functional module setting characteristic parameter the amount of deflection with it is described The corresponding relative Link Importance matrix multiple of the setting characteristic parameter of the highest level of functional module, chooses most from the result of multiplication Big value, the amount of deflection as the functional module；

Third determines submodule, for by the weight phase of the amount of deflection of each functional module and each functional module Multiply, and by the results added of multiplication, the amount of deflection of the result of addition as the GIL system at runtime.

9. system according to claim 8, which is characterized in that first computational submodule is specifically used for:

Step by step by each functional module it is respective belong to same level setting characteristic parameter the amount of deflection with it is corresponding Multiplied by weight, and to the results added of multiplication, the amount of deflection that sets characteristic parameter of the result of addition as a upper level.

10. system according to claim 6, which is characterized in that each functional module is respectively as follows: straight line segment unit mould Block, shaft element module, 90 degree of corner units modules, low-angle corner units module, telescopic joint module, isolated location module and Removable unit module.