CN108268984A - A kind of nuclear power plant's labour inspection plan automatically generates the method with verification - Google Patents

Abstract

The present invention relates to nuclear power plant's inservice inspection technical fields, specifically disclose a kind of method that nuclear power plant's labour inspection plan is automatically generated and verified.This method includes：1st, according to nuclear power relevant laws and regulations standard and nuclear power plant's In-service testing data characteristics, nuclear power plant's labour inspection planning model is established；Step 2 examines plan server by labour, completes the automatic editing of labour inspection long period plan；3rd, after the plan of labour inspection long period is adjusted manually, automatic Verification is completed by labour inspection plan server.A kind of nuclear power plant's labour inspection plan of the present invention automatically generates the method with verification, can be achieved nuclear power plant's labour inspection long period plan it is automatic work out, manually adjust after automatic inspection, and can inspection long period plan use as a servant nuclear power plant with key-value pair Collection data structures by character string dimension and be stored and handled, improve planning data storage, lookup and versus speed.

Description

A kind of nuclear power plant's labour inspection plan automatically generates the method with verification

Technical field

The invention belongs to nuclear power plant's inservice inspection technical fields, and in particular to a kind of labour inspection plan of nuclear power plant automatically generate with The method of verification.

Background technology

Nuclear power plant's inservice inspection activity refer to nuclear power plant operation the phase in longevity in, to nuclear safety 1,2,3 grades of systems, component and its The planned periodic inspection (hereinafter referred to as " long period plan ") carried out is supported, which must follow strictly nuclear power plant's construction Statutory standard used in stage, such as：RSE-M or ASME.

At present, for the plan of nuclear power plant's labour inspection long period by the manual layout of manual type with checking, heavy workload, efficiency are low Under, error rate it is high, need to adjust plan repeatedly according to nuclear power plant's actual conditions during particularly all previous overhaul, easily make Adjustment into plan violates the situation of statutory standard.

Invention content

The purpose of the present invention is to provide a kind of labour inspection plans of nuclear power plant to automatically generate the method with verification, can complete The automatic establishment and verification of nuclear power plant's each machine set of long-period labour inspection plan, effectively solve the in-service planning efficiency of nuclear power plant it is low, The problems such as error rate is high.

Technical scheme is as follows：A kind of nuclear power plant's labour inspection plan automatically generates the method with verification, this method tool Body includes：

Step 1, according to nuclear power relevant laws and regulations standard and nuclear power plant's In-service testing data characteristics, establish nuclear power plant's labour inspection meter Draw model；

Nuclear power plant's refueling outage is numbered in step 1.1；

Step 1.2, labour inspection long period plan carry out layout by overhaul number；

Step 1.3 establishes refueling outage time interval constraints and Item Constrains condition；

Step 2 examines plan server by labour, completes the automatic editing of labour inspection long period plan

All inspection projects that step 2.1, input labour inspection long period plan include；

Step 2.2 determines constraints, establishes constraints set；

Step 2.3, each inspection corresponding constraints of project configuration, form inspection project and the constraints table of comparisons, Wherein, an inspection project can match multiple constraintss；

Step 2.4, input need to automatically generate the time span L of long period plan；

Long period plan is divided into L/120 comprehensive inservice inspection periods by step 2.5, is completed one by one successively each complete The plan automatic editing of face inservice inspection period span scope；

The plan in arbitrary single comprehensive inservice inspection period is worked out automatically, based on constraints, is sequentially completed each The plan automatic editing for the inspection project that constraints is related to；

After step 3, labour inspection long period plan are adjusted manually, automatic Verification is completed by labour inspection plan server.

The plan automatic editing step for the inspection project that each constraints is related to is in the step 2.5：

Set comprehensive corresponding the m times overhaul of inservice inspection, overhaul in this period in a comprehensive inservice inspection period It has been carried out to the m+r times overhaul, includes constraints C_iAll inspection projects be P_j(j=1,2,3 ..., m)；

Step 2.5.1, it calculates and obtains current constraints C_iIn with the presence or absence of effective zeros constrained, if in the presence of jumping Step 2.5.2 is gone to, if being not present, jumps to step 2.5.3；

Step 2.5.2, it according to zeros constrained, calculates and obtains inspection project P_jInitial overhaul number value e_iFor：

Step 2.5.3, it calculates and obtains current constraints C_iIn with the presence or absence of effective deviation constraint, if in the presence of jumping Step 2.5.4 is gone to, if being not present, jumps to step 2.5.6；

Step 2.5.4, according to deviation constraint, inspection project P is calculated_jAllow the Overhaul-Work Scope [x arranged_i,y_i]；

Step 2.5.5, statistics includes C_iConstraints (and deviation constraint is effective) examines number of entry ∑ P_j, by random Principle of equipartition layout plan, in [x_i,y_i] in Overhaul-Work Scope, from xth_iSecondary overhaul starts, and is distributed under each overhaulIt is a Inspection project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.6, current constraints C is calculated_iIn with the presence or absence of effective deviation spacing constraint, if in the presence of jumping Step 2.5.7 is gone to, if being not present, jumps to step 2.5.9；

Step 2.5.7, setting is counted there are the interval zero of the inspection project of effective spacing constraint if non-establishment for the first time It draws, then it is interval zero to examine overhaul number with last time, is otherwise set as follows：Statistics includes C_iConstraints (and It is effective every being constrained to) examine number of entry ∑ P_j, by random principle of equipartition layout plan, [1, s_i] in Overhaul-Work Scope, Mei Ge great Repair lower distributionA inspection project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.8, according to interval zero establishment follow-up plan, by corresponding overhaul number section l₀+s_iK (k=1, 2,3 ...) scheduled flag symbol be updated to P, wherein, l₀For examine project for the first time/last time examine overhaul number；

Step 2.5.9, terminate current constraints C_iThe plan of inspection project being related to is worked out automatically；According to above-mentioned steps 2.5.1~step 2.5.8 is sequentially completed the plan layout for the inspection project that remaining constraints is related to.

In the step 3 after planned regulation examine automatically the specific steps are：

Step 3.1 manually adjusts long period inspection program；

Step 3.2, labour inspection plan server obtain the inspection project P that there is adjustment_j(j=1,2,3 ..., m) and its it is right The constraints C answered_i(i=1,2,3 ..., n)；

Step 3.3, the inspection project P for each presence adjustment_j, the plan frequency value before being adjusted and after adjustment Str_jWith Str '_jKey-value pair set is converted to, and is compared；

Step 3.4 calculates this adjustment with the presence or absence of inspection project is cancelled, if in the presence of step 3.5 being jumped to, if not In the presence of then the adjustment is unrelated with statutory standard, and verification terminates；

Step 3.5 obtains inspection project P_jOverhaul number value h after adjustment_kWith the overhaul number value f to cancel a plan_l；

Step 3.6 calculates inspection project P_jWith the presence or absence of effective deviation constraint, if in the presence of, step 3.7 is jumped to, Step 3.9 is jumped to if being not present；

Step 3.7, foundation examine project P_jDeviation constraint, calculate and obtain d group tolerance ranges [x_i,y_i] (i=1, 2,3,...,d)；

Step 3.8 judges each h successively_kWhether value is fallen in any one of the above-mentioned d group tolerance ranges being calculated Group, if so, the adjustment meets statutory standard requirement, verification terminates, and otherwise, is unsatisfactory for statutory standard requirement, verification terminates；

Step 3.9 calculates inspection project P_jWith the presence or absence of effective spacing constraint, if in the presence of, step 3.10 is jumped to, If being not present, this adjustment is unrelated with statutory standard, and verification terminates；

Step 3.10, foundation examine project P_jSpacing constraint, judge each f_lScheduled flag is the overhaul generation of P before and after value Number spacing value getB (f_l)-getA(f_l)≤s_i, if so, the adjustment meets statutory standard requirement, verification terminates, otherwise, no Meet statutory standard requirement, verification terminates.

The remarkable result of the present invention is：A kind of nuclear power plant's labour inspection plan of the present invention automatically generates the side with verification Method, it can be achieved that nuclear power plant's labour inspection long period plan it is automatic work out, manually adjust after automatic inspection, and character string can be passed through Array uses as a servant nuclear power plant inspection long period plan with key-value pair Collection data structures and is stored and handled, and improves planning data and deposits Storage, lookup and versus speed.

Specific embodiment

A kind of nuclear power plant's labour inspection plan automatically generates the method with verification, and this method specifically comprises the following steps：

Step 1, according to nuclear power relevant laws and regulations standard and nuclear power plant's In-service testing data characteristics, establish nuclear power plant's labour inspection meter Draw model；

Nuclear power plant's refueling outage is numbered in step 1.1；

Overhaul is numbered by nuclear power plant's overhaul number, time between overhaul, T are calculated as unit of calendar month_curFor Preset time interval between current inservice inspection adjacent twice, T_nThe practical time interval T between inservice inspection twice_n(n For inservice inspection number, i.e. T₁For first time refueling outage and the time interval of preservice inspection reality)；

Step 1.2, labour inspection long period plan carry out layout by overhaul number；

The plan of setting labour inspection long period then arbitrarily examines project P altogether comprising m inspection project_j(j=1,2,3 ..., m) Inspection frequency by a specific format (" overhaul number "+"："+" scheduled flag "+" _ " combination) and character string Str_jTable Show；

Step 1.3 establishes refueling outage time interval constraints and Item Constrains condition；

The constraints of refueling outage time interval is：

The requirements of plan for specifically examining project can be divided into statutory standard：Zeros constrained, deviation constraint and spacing constraint； Above-mentioned constraints is combined, set certain unit has n for the constraints of all inspection projects,

The arbitrary constraints C for examining project_i(i=1,2,3 ..., n) it is as follows：

Above-mentioned constraints is calculated with comprehensive inservice inspection period (repeating the water pressure test period), works as z_iWhen=0, table Show C_iMiddle inferred-zero constraint, works as a_i=0 and b_iWhen=0, C is represented_iMiddle zero deflection constraint, works as s_iWhen=0, C is represented_iIt is middle without interval about Beam；

Step 2 examines plan server by labour, completes the automatic editing of labour inspection long period plan；

All inspection projects that step 2.1, input labour inspection long period plan include；

Step 2.2 determines constraints, establishes constraints set；

Step 2.3, each inspection corresponding constraints of project configuration, form inspection project and the constraints table of comparisons, Wherein, an inspection project can match multiple constraintss；

Step 2.4, input need to automatically generate the time span L of long period plan；

Long period plan is divided into L/120 comprehensive inservice inspection periods by step 2.5, is completed one by one successively each complete The plan automatic editing of face inservice inspection period span scope；

The plan in arbitrary single comprehensive inservice inspection period is worked out automatically, based on constraints, is sequentially completed each The plan automatic editing for the inspection project that constraints is related to；

Set comprehensive corresponding the m times overhaul of inservice inspection, overhaul in this period in a comprehensive inservice inspection period It has been carried out to the m+r times overhaul, includes constraints C_iAll inspection projects be P_j(j=1,2,3 ..., m)；

Step 2.5.1, it calculates and obtains current constraints C_iIn with the presence or absence of effective zeros constrained, if in the presence of jumping Step 2.5.2 is gone to, if being not present, jumps to step 2.5.3；

Step 2.5.2, it according to zeros constrained, calculates and obtains inspection project P_jInitial overhaul number value e_iFor：

Step 2.5.3, it calculates and obtains current constraints C_iIn with the presence or absence of effective deviation constraint, if in the presence of jumping Step 2.5.4 is gone to, if being not present, jumps to step 2.5.6；

Step 2.5.4, according to deviation constraint, inspection project P is calculated_jAllow the Overhaul-Work Scope [x arranged_i,y_i]；

Step 2.5.5, statistics includes C_iConstraints (and deviation constraint is effective) examines number of entry ∑ P_j, by random Principle of equipartition layout plan, in [x_i,y_i] in Overhaul-Work Scope, from xth_iSecondary overhaul starts, and is distributed under each overhaulIt is a Inspection project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.6, current constraints C is calculated_iIn with the presence or absence of effective deviation spacing constraint, if in the presence of jumping Step 2.5.7 is gone to, if being not present, jumps to step 2.5.9；

Step 2.5.7, setting is counted there are the interval zero of the inspection project of effective spacing constraint if non-establishment for the first time It draws, then it is interval zero to examine overhaul number with last time, is otherwise set as follows：Statistics includes C_iConstraints (and It is effective every being constrained to) examine number of entry ∑ P_j, by random principle of equipartition layout plan, [1, s_i] in Overhaul-Work Scope, Mei Ge great Repair lower distributionA inspection project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.8, according to interval zero establishment follow-up plan, by corresponding overhaul number section l₀+s_iK (k=1, 2,3 ...) scheduled flag symbol be updated to P, wherein, l₀For examine project for the first time/last time examine overhaul number；

Step 2.5.9, terminate current constraints C_iThe plan of inspection project being related to is worked out automatically；According to above-mentioned steps 2.5.1~step 2.5.8 is sequentially completed the plan layout for the inspection project that remaining constraints is related to；

After step 3, labour inspection long period plan are adjusted manually, automatic Verification is completed by labour inspection plan server；

Step 3.1 manually adjusts long period inspection program；

Step 3.2, labour inspection plan server obtain the inspection project P that there is adjustment_j(j=1,2,3 ..., m) and its it is right The constraints C answered_i(i=1,2,3 ..., n)；

Step 3.3, the inspection project P for each presence adjustment_j, the plan frequency value before being adjusted and after adjustment Str_jWith Str '_jKey-value pair set is converted to, and is compared；

Step 3.4 calculates this adjustment with the presence or absence of inspection project is cancelled, if in the presence of step 3.5 being jumped to, if not In the presence of then the adjustment is unrelated with statutory standard, and verification terminates；

Step 3.5 obtains inspection project P_jOverhaul number value h after adjustment_kWith the overhaul number value f to cancel a plan_l；

Step 3.6 calculates inspection project P_jWith the presence or absence of effective deviation constraint, if in the presence of, step 3.7 is jumped to, Step 3.9 is jumped to if being not present；

Step 3.7, foundation examine project P_jDeviation constraint, calculate and obtain d group tolerance ranges [x_i,y_i] (i=1, 2,3,...,d)；

Step 3.8 judges each h successively_kWhether value is fallen in any one of the above-mentioned d group tolerance ranges being calculated Group, if so, the adjustment meets statutory standard requirement, verification terminates, and otherwise, is unsatisfactory for statutory standard requirement, verification terminates；

Step 3.9 calculates inspection project P_jWith the presence or absence of effective spacing constraint, if in the presence of, step 3.10 is jumped to, If being not present, this adjustment is unrelated with statutory standard, and verification terminates；

Step 3.10, foundation examine project P_jSpacing constraint, judge each f_lScheduled flag is the overhaul generation of P before and after value Number spacing value getB (f_l)-getA(f_l)≤s_i, if so, the adjustment meets statutory standard requirement, verification terminates, otherwise, no Meet statutory standard requirement, verification terminates.

Claims (3)

1. a kind of nuclear power plant's labour inspection plan automatically generates the method with examining, it is characterised in that：This method specifically includes：

Step 1, according to nuclear power relevant laws and regulations standard and nuclear power plant's In-service testing data characteristics, establish nuclear power plant's labour inspection plan mould Type；

Nuclear power plant's refueling outage is numbered in step 1.1；

Step 1.2, labour inspection long period plan carry out layout by overhaul number；

Step 1.3 establishes refueling outage time interval constraints and Item Constrains condition；

Step 2 examines plan server by labour, completes the automatic editing of labour inspection long period plan；

All inspection projects that step 2.1, input labour inspection long period plan include；

Step 2.2 determines constraints, establishes constraints set；

Step 2.3, each inspection corresponding constraints of project configuration, form inspection project and the constraints table of comparisons, wherein, One inspection project can match multiple constraintss；

Step 2.4, input need to automatically generate the time span L of long period plan；

Long period plan is divided into L/120 comprehensive inservice inspection periods by step 2.5, completes each comprehensively to exist successively one by one Use as a servant the plan automatic editing of inspection cycle span scope；

The plan in arbitrary single comprehensive inservice inspection period is worked out automatically, based on constraints, is sequentially completed each constraint The plan automatic editing for the inspection project that condition is related to；

After step 3, labour inspection long period plan are adjusted manually, automatic Verification is completed by labour inspection plan server.

2. a kind of nuclear power plant's labour inspection plan according to claim 1 automatically generates the method with examining, it is characterised in that：Institute The plan automatic editing step for the inspection project that each constraints is related to is in the step 2.5 stated：

Comprehensive corresponding the m times overhaul of inservice inspection in a comprehensive inservice inspection period is set, overhaul is real in this period It applies to the m+r times overhaul, includes constraints C_iAll inspection projects be P_j(j=1,2,3 ..., m)；

Step 2.5.1, it calculates and obtains current constraints C_iIn with the presence or absence of effective zeros constrained, if in the presence of step is jumped to Rapid 2.5.2 if being not present, jumps to step 2.5.3；

Step 2.5.2, it according to zeros constrained, calculates and obtains inspection project P_jInitial overhaul number value e_iFor：

Step 2.5.3, it calculates and obtains current constraints C_iIn with the presence or absence of effective deviation constraint, if in the presence of step is jumped to Rapid 2.5.4 if being not present, jumps to step 2.5.6；

Step 2.5.4, according to deviation constraint, inspection project P is calculated_jAllow the Overhaul-Work Scope [x arranged_i,y_i]；

Step 2.5.5, statistics includes C_iConstraints (and deviation constraint is effective) examines number of entry ∑ P_j, divide equally by random Principle layout plan, in [x_i,y_i] in Overhaul-Work Scope, from xth_iSecondary overhaul starts, and is distributed under each overhaulA inspection Project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.6, current constraints C is calculated_iIn with the presence or absence of effective deviation spacing constraint, if in the presence of step is jumped to Rapid 2.5.7 if being not present, jumps to step 2.5.9；

Step 2.5.7, setting works out plan, then for the first time there are the interval zero of the inspection project of effective spacing constraint if non- It is interval zero to examine overhaul number with last time, is otherwise set as follows：Statistics includes C_iConstraints (and spacing constraint It is effective) examine number of entry ∑ P_j, by random principle of equipartition layout plan, [1, s_i] in Overhaul-Work Scope, lower point of each overhaul MatchA inspection project, and by Str_jThe scheduled flag symbol of middle corresponding overhaul number section is updated to P；

Step 2.5.8, according to interval zero establishment follow-up plan, by corresponding overhaul number section l₀+s_iK (k=1,2, 3 ...) scheduled flag symbol be updated to P, wherein, l₀For examine project for the first time/last time examine overhaul number；

Step 2.5.9, terminate current constraints C_iThe plan of inspection project being related to is worked out automatically；According to above-mentioned steps 2.5.1 ~step 2.5.8 is sequentially completed the plan layout for the inspection project that remaining constraints is related to.

3. a kind of nuclear power plant's labour inspection plan according to claim 1 automatically generates the method with examining, it is characterised in that：Institute In the step 3 stated after planned regulation examine automatically the specific steps are：

Step 3.1 manually adjusts long period inspection program；

Step 3.2, labour inspection plan server obtain the inspection project P that there is adjustment_j(j=1,2,3 ..., m) and its it is corresponding about Beam condition C_i(i=1,2,3 ..., n)；

Step 3.3, the inspection project P for each presence adjustment_j, the plan frequency value Str before being adjusted and after adjustment_jWith Str′_jKey-value pair set is converted to, and is compared；

Step 3.4 calculates this adjustment with the presence or absence of cancellation inspection project, if in the presence of, step 3.5 is jumped to, if being not present, Then the adjustment is unrelated with statutory standard, and verification terminates；

Step 3.5 obtains inspection project P_jOverhaul number value h after adjustment_kWith the overhaul number value f to cancel a plan_l；

Step 3.6 calculates inspection project P_jWith the presence or absence of effective deviation constraint, if in the presence of step 3.7 being jumped to, if not depositing Then jumping to step 3.9；

Step 3.7, foundation examine project P_jDeviation constraint, calculate and obtain d group tolerance ranges [x_i,y_i] (i=1,2, 3,...,d)；

Step 3.8 judges each h successively_kWhether value is fallen in above-mentioned any one group of d group tolerance ranges be calculated, if It is that the then adjustment meets statutory standard requirement, and verification terminates, otherwise, is unsatisfactory for statutory standard requirement, verification terminates；

Step 3.9 calculates inspection project P_jWith the presence or absence of effective spacing constraint, if in the presence of step 3.10 being jumped to, if not In the presence of then this adjustment is unrelated with statutory standard, and verification terminates；

Step 3.10, foundation examine project P_jSpacing constraint, judge each f_lScheduled flag is the overhaul code name of P before and after value Spacing value getB (f_l)-getA(f_l)≤s_i, if so, the adjustment meets statutory standard requirement, verification terminates, and otherwise, is unsatisfactory for Statutory standard requirement, verification terminate.