CN107168260A - A kind of store management scheduling system of electric-power metering production - Google Patents
A kind of store management scheduling system of electric-power metering production Download PDFInfo
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- CN107168260A CN107168260A CN201710413888.5A CN201710413888A CN107168260A CN 107168260 A CN107168260 A CN 107168260A CN 201710413888 A CN201710413888 A CN 201710413888A CN 107168260 A CN107168260 A CN 107168260A
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM]
- G05B19/41865—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM] characterised by job scheduling, process planning, material flow
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/30—Nc systems
- G05B2219/32—Operator till task planning
- G05B2219/32252—Scheduling production, machining, job shop
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
Abstract
System, including task management layer, storehouse dispatch layer and equipment key-course are dispatched the invention discloses a kind of store management of electric-power metering production;What task management layer reception upper system was issued goes out storage task, will go out storage task and carries out refinement decomposition, and the mission bit stream refined after decomposing is saved in database;Storehouse dispatch layer is scheduled tactful configuration, is calculated by flow scheduling, generates outbound transport operation;Equipment key-course reports automatically controlled information to storehouse dispatch layer, receives the transport operation that storehouse dispatch layer is issued, hardware device is managed.The present invention meets individual demand of the user to store management, it is ensured that the storage that goes out of storehouse is stablized, and improves storehouse handling capacity.
Description
Technical field
System is dispatched the present invention relates to a kind of store management of electric-power metering production, belongs to industrial intelligent technical field.
Background technology
Currently, electric-power metering storehouse is related to polytype and goes out storage business, and electric-power metering storehouse hardware device is general
Wide variety, substantial amounts, if controlled without unified task management and rational management, it will cause tasks carrying it is chaotic,
Transmit that line use ratio is low or transmission line congestion, and then influence metering production;If treasury management system separation of software and hardware is inadequate
Thoroughly, the flexibility of system will be substantially reduced, and the extension and transformation of system will be extremely difficult.
The content of the invention
The technical problems to be solved by the invention are to overcome the defect of prior art there is provided the storehouse that a kind of electric-power metering is produced
Room management and dispatching method, complicated software algorithm is performed with simple hardware task and is combined, and software systems are flowed
Journey is decomposed, and is accomplished flexibly match somebody with somebody, that is, be can guarantee that system versatility, users ' individualized requirement is disclosure satisfy that again.
In order to solve the above technical problems, the present invention provides a kind of store management scheduling system of electric-power metering production, from upper
To lower including task management layer, storehouse dispatch layer and equipment key-course;
What the task management layer reception upper system was issued goes out storage task, will go out storage task and carries out refinement decomposition, and will
Mission bit stream after refinement is decomposed is saved in database;
The storehouse dispatch layer is scheduled tactful configuration, is calculated by flow scheduling, generates outbound transport operation, and outbound is carried
After operation generation, storehouse dispatch layer assigns carrying instruction by web Service interface mode to equipment key-course;
The flow scheduling, which is calculated, includes the calculating of task allocation schedule and transmission line allocation schedule is calculated;
The task allocation schedule, which is calculated, to be referred to according to parallel outbound number of tasks and task priority, determines outbound tasks carrying
Sequence;
The transmission line allocation schedule, which is calculated, refers to that calculating transmission line maximum capacity is Qmax and is currently executing operation number Qc
Difference be Qt, if Qt=0, storehouse dispatch layer stops generation outbound transport operation, waits pending operating room every after frequency R,
Judged again, until Qt>0, regenerate outbound transport operation;
It is described perform operation spacing frequency R calculating formula be:R=μ÷V
Wherein, μ is operation coefficient, is certain value, and V is transmission line rate flow;
The equipment key-course reports automatically controlled information to storehouse dispatch layer, receives the outbound transport operation that storehouse dispatch layer is issued,
Hardware device is managed.
The storage task that goes out that foregoing task management layer reception upper system is issued is classified by business, including storehouse proparea comes in and goes out
Storehouse, examine and determine out storage and seal and go out storage.
Foregoing storehouse proparea goes out to be put in storage refinement and is decomposed into FCL arrival equipment storage, empty van arrival storage and equipment dispatching hair
Goods outbound;It is described examine and determine out storage refinement and be decomposed into calibration equipment return storehouse, calibration equipment outbound and calibrating empty van outbound;The envelope
Storage refinement is printed off to be decomposed into seal equipment and return storehouse, the outbound of seal equipment and seal empty van outbound.
Foregoing task allocation schedule, which is calculated, to be included according to priority calculating and task piece wheel Conversion Calculation, for priority not
With parallel outbound task, according to priority calculate, it is high to first carry out priority, if parallel outbound task priority is identical, adopt
With task piece wheel Conversion Calculation, parallel outbound task is divided into operation fragment, outbound task is performed by unit rotation of operation.
Foregoing is scheduled tactful configuration for each outbound task, and scheduling strategy configuration includes six parameters:Task is excellent
First level, parallel outbound number of tasks, operation coefficient, execution operation spacing frequency, transmission line rate flow and transmission line maximum capacity.
Foregoing outbound transport operation includes herein below:The time started is carried, the end time is carried, outbound pile need to be carried
Source address is storehouse storage space numbering, carries destination address, the affiliated receipt lot number of assets when bar code, carrying source address outbound.
Interface between foregoing storehouse dispatch layer and equipment key-course uses semiduplex mode, and storehouse dispatch layer is received
After the automatically controlled information that equipment key-course is reported, replied in time, new thread be then individually enabled and carries out flow scheduling calculating,
Outbound transport operation is generated, then calling interface will generate result and notify equipment key-course again, and equipment key-course receives storehouse
The outbound transport operation that dispatch layer is issued, is replied in time, and issues carrying command to each hardware device.
Foregoing hardware device includes piler, elevator, shuttle, radio frequency door, control panel and conveying equipment.
Foregoing is scheduled preview in store management scheduling system, and scheduling preview includes flow path match, scheduling and calculated
With three steps of Job execution, wherein, flow path match refer to from task management layer obtain according to specific business by refinement decompose
Task afterwards, matching task flow, matching task flow, which refers to go out in the task according to acquisition, is put in storage type field, judges affiliated
Go out to be put in storage type, go out to be put in storage type be to after decomposition task carry out type definition, if belong to equipment dispatching delivery outbound,
Calibration equipment outbound, the outbound of calibrating empty van, the outbound of seal equipment or seal empty van outbound flow, then need to call dispatching algorithm to give birth to
Into outbound transport operation;
Scheduling calculating refers to that storehouse scheduling carry out task allocation schedule is calculated and transmission line allocation schedule is calculated, and ultimately generates outbound
Transport operation;
Job execution namely performs carrying according to outbound transport operation;
By analyzing preview result, scheduling policy configuration parameter is adjusted according to analysis result.
Beneficial effects of the present invention are:
(1)Clear layer of the present invention, the division of labor is clear and definite, and software and hardware is thoroughly peeled off, and software upgrading is transformed without hardware modifications
Debugging, hardware update, which is regenerated, need not change software program, so as to ensure the independence and spirit and property of software and equipment, meet software
Customized user demand;Storehouse scheduling feature is added in store management software view, it is ensured that storehouse goes out storage balance, by providing tune
The tactful configuration feature of degree, ensure that dispatching algorithm adapts to different production environments, meets the versatility of store management scheduling.
(2)The dispatching algorithm of the present invention can be improved transmission line use ratio, improved with reasonable coordination storehouse Delivery flow
Storehouse turnover rate.
Brief description of the drawings
Fig. 1 is the store management scheduling system block diagram that electric-power metering is produced;
Fig. 2 is task allocation algorithm schematic diagram;
Fig. 3 is equipment key-course process chart;
Fig. 4 is scheduling preview example.
Embodiment
The invention will be further described below.Following examples are only used for clearly illustrating the technical side of the present invention
Case, and can not be limited the scope of the invention with this.
The store management scheduling system of the electric-power metering production of the present invention is as shown in figure 1, as can be seen from the figure storehouse pipe
Reason task management, storehouse scheduling and equipment control three aspects composition, and task management is responsible for receiving that upper system issues goes out
Storage task, will go out storage task and classifies, and refine to a certain class and goes out to be put in storage operation flow;Storehouse scheduling is according to specific discrepancy
Storehouse operation flow, Mobile state setting is entered to scheduling strategy, by dispatching algorithm, carries out the distribution of storehouse task and transmission line distribution;
Unified management storehouse hardware device is responsible in equipment control, and passes through interface and software systems interaction data.Specific implementation process is such as
Under:
1) task management
The purpose of store management scheduling exactly basis goes out storage task and instructs assets to go out storage, so the first step is sought in reception
What layer system was issued goes out storage task, and assets are gone out into storage task is specifically classified by business, including storehouse proparea goes out storage, inspection
Make storage and seal go out storage, receive that upper system issues go out storage task after, based on flowsheet simulation mechanism, according to
Specific business will receive out storage task and further refine, and storehouse proparea such as is gone out into storage be subdivided into FCL arrival equipment
Storehouse, empty van arrival storage and equipment dispatching delivery outbound, will examine and determine out storage and are subdivided into calibration equipment and return storehouse, calibration equipment outbound
With calibrating empty van outbound, seal is gone out into storage it is subdivided into seal equipment to return storehouse, the outbound of seal equipment and seal empty van outbound, and will
Mission bit stream after refinement is saved in database, is used for storehouse scheduling.It can also be gone out according to the production status of oneself
Storage task is further segmented, by being decomposed to going out storage task, is calculated for storehouse scheduling and is provided scientific basis.
2) storehouse is dispatched
The core of store management scheduling is that flow scheduling is calculated, because store management storage is type of drive in kind, material object exists
During being flowed on transmission line, automatically controlled information, generation storage request slip, so storage production can be reported automatically by reaching special platform
Raw transport operation, ensure that storage is carried out in order, congestion is not resulted in, without being scheduled.Store management outbound is carried
Operation needs timing to produce, if without scheduling, it will cause chaotic tasks carrying, the congestion of storehouse transmission line or transmission line empty
Put, these three situations can all cause production efficiency low, so being scheduled control for storehouse outbound operation flow, timing is raw
Just become very necessary into outbound transport operation.
Outbound transport operation timing create-rule employs flow scheduling computational methods, including task allocation algorithm and
The aspect of transmission line allocation algorithm two.The factor of influence task distribution includes task priority and parallel outbound number of tasks, appoints
Business priority reflects the urgency level of task, and priority is high to be first carried out.So that parallel task number is 2 as an example, if two are appointed
Priority of being engaged in is different, and priority is high to be first carried out;If two task priorities are identical, at this time two tasks will be in order
Perform, task allocation algorithm is as shown in Figure 2.
Figure it is seen that task allocation algorithm includes priority algorithm and task piece round-robin.For preferential
The different task of level, using priority algorithm, it is ensured that the high outbound task of priority first carries out generation outbound transport operation, if
Task priority is identical, using task piece round-robin, task is divided into operation fragment, each task rotation performs generation outbound
Transport operation.By that analogy, user can need to set priority of task according to production for three or more than three task allocation schedules
Level and parallel outbound number of tasks, carry out task dynamically distributes, flexibly control storehouse outbound.
Outbound transport operation is not unconfined generation, in addition it is also necessary to carried with reference to the control outbound of transmission line allocation algorithm
Operation generates rhythm, and the factor of influence transmission line distribution includes:Transmission line rate flow, transmission line maximum capacity, operation coefficient
With execution operation spacing frequency, perform operating room is every frequency calculation method:
R=μ÷V
Wherein, R is performs operation spacing frequency, and μ is ensures the operation coefficient for transmitting line use ratio highest and normally running, and V is
Transmission line rate flow,
Wherein, operation coefficient μ is fixed, if improving transmission line rate flow, needs reduction to perform operation spacing frequency
R.The operation coefficient μ of such as transmission line of equipment dispatching delivery outbound is 10, and transmission line rate flow is 1m/s, then calculates and hold
1=the 10s of ÷ of row operation spacing frequency R=μ ÷ V=10, it will be optimal scheduling scheme that will perform operation spacing frequency and be set to 10s.
Assuming that transmission line maximum capacity is Qmax, operation number Qc is currently executing, difference is Qt, i.e.,:
Qt=Qmax-Qc
If Qt=0, illustrate that transmission line is carrying out operation number Qc and has reached transmission line maximum capacity Qmax, at this time storehouse
Scheduling just stops generation outbound transport operation, after the stand-by period (performing operation spacing frequency R), is judged again, until Qt>
0, operation number is carrying out less than transmission line maximum capacity, is just regenerated outbound transport operation, only in this way just be can guarantee that biography
Defeated line use ratio is maximized.
After the generation of outbound transport operation, storehouse dispatch layer is assigned by web Service interface mode to equipment key-course
Instruction is carried, storehouse dispatch layer only need to assign transport operation to equipment key-course, it is not necessary to hardware device direct interaction itself, letter
Store management workload is changed.
Carry out task allocation schedule is calculated and the calculating of transmission line allocation schedule needs to be scheduled tactful configuration in advance.It is in office
Storehouse outbound task of the management level of being engaged in after refinement include equipment dispatching delivery outbound, calibration equipment outbound, the outbound of calibrating empty van,
The outbound of seal equipment and seal empty van outbound, are scheduled tactful configuration, including set priority of task for each outbound task
Level, parallel outbound number of tasks, operation coefficient, execution operation spacing frequency, transmission line rate flow and transmission line maximum capacity six
Individual parameter, and be saved in database, according to metering condition of production configuration parameter default value.
Exemplified by dispensing delivery outbound flow, generation transport operation process is as follows:Delivery is dispensed firstly the need of equipment is set
The scheduling strategy configuration item of outbound, including set task priority, parallel outbound number of tasks, operation coefficient, perform operating room every
Frequency, transmission line rate flow and transmission line maximum capacity;Next needs opening timing to dispense library button of delivering out, it is ensured that timing is appointed
Business is performed;Finally, dispatching delivery outbound strategy is performed, to delivering outbound task according to task priority in executory dispatching
Descending sort is carried out, priority maximum that is taken, if there is a plurality of, then N bars dispatching outbound task before taking(N=parallel outbound
Number of tasks), and reaching(Perform operation spacing frequency)Shi Zhihang dispatching delivery outbound transport operation generations.Removed when executory
When operating industry number more than or equal to transmission line maximum capacity, stop the generation of outbound transport operation immediately, wait(Operating room is performed every frequency
Rate)After time, restart.Dispatching outbound task to meeting execution condition, plans to provide when having applied for that assets number is more than or equal to
When producing number, the dispatching outbound task will be skipped and carry out next task dispatching Delivery.Outbound transport operation content includes:Carry
Time started, carry the end time, need to carry outbound pile bar code, carry source address(Source address is compiled for storehouse storage space during outbound
Number), carry destination address, affiliated receipt lot number of assets etc..
Other outbound flow transport operation generating process are similar with dispatching outbound.
3) equipment is controlled
Metering production storehouse hardware device includes piler, elevator, shuttle, radio frequency door, control panel and conveying equipment,
In store management scheduling, hardware device is uniformly controlled by equipment key-course, storehouse dispatch layer only need to be to equipment control
Layer assigns transport operation, it is not necessary to hardware device body direct interaction, simplify store management workload.Ensure storehouse pipe simultaneously
When managing system reform upgrading, without carrying out hardware debugging again, debug time is saved, it is ensured that software systems and hardware device
Independence.
The present invention is isolated by web Service interface mode to storehouse dispatch layer and hardware device.Storehouse is dispatched
Interface between layer and equipment key-course uses semiduplex mode, and storehouse dispatch layer receives the automatically controlled letter that equipment key-course is reported
After breath, replied in time, new thread is then individually enabled and carries out flow scheduling calculating, transport operation is generated, then again
Calling interface will generate result and notify equipment key-course, and equipment key-course receives the transport operation that storehouse dispatch layer is issued, in time
Replied, and carrying command is issued to each hardware device, handling process is as shown in Figure 3.
This semiduplex mode can reduce the equipment key-course stand-by period, and equipment key-course receives management level reply and connect
Receive after successful information, can continue to go to next node, it is not necessary to wait management level result, in addition this interface processing side
Formula can also reduce the probability of interface interchange error, the quick running efficiency for improving storehouse.
4) scheduling preview
Scheduling preview example is referring to Fig. 4, in order to further correct the scheduling strategy configuration parameter of storehouse dispatch layer, it is ensured that parameter exists
In one reasonable interval, scheduling preview function is added in the present invention, scheduling preview includes flow path match, scheduling and calculated and operation
Three steps are performed, wherein, flow path match refers to obtain the appointing after refinement is decomposed according to specific business from task management layer
Business, matching task flow;Matching task flow, which refers to go out in the task according to acquisition, is put in storage type field, judges affiliated discrepancy
Storehouse type, it is to carry out type definition to the task after decomposition to go out to be put in storage type, is set if belonging to equipment dispatching delivery outbound, calibrating
Standby outbound, the outbound of calibrating empty van, the outbound of seal equipment or seal empty van outbound flow, then need to call dispatching algorithm to generate outbound
Transport operation.
Scheduling calculating refers to that storehouse scheduling carry out task allocation schedule is calculated and transmission line allocation schedule is calculated, and ultimately generates
Outbound transport operation;Job execution namely performs carrying according to outbound transport operation.By analyzing preview result, root
Scheduling policy configuration parameter is adjusted according to analysis result.
Exemplified by dispensing delivery outbound, because executory dispatching delivery outbound task can be dropped according to task priority
Sequence sorts, and takes maximum that of priority, in scheduling preview, if we want to perform same comparison simultaneously urgent for control
Outbound task A, in strategy configuration, A task priorities are adjusted to maximum by us, and parallel outbound number of tasks is set to 1, transmission
Line maximum capacity is set to 10 piles, and the spacing frequency R for performing operation is set to 9 seconds, and the average rate flow V of transmission line is set to
0.2 meter per second, according to formula R=μ ÷ V, the value that can extrapolate operation coefficient μ is R*V=9*0.2=1.8, if now analysis knot
Fruit finds that transmission line use ratio is not also high, and the spacing frequency R for performing operation can be set to smaller value by us, until storehouse
Maximum throughput is reached, the μ at this time extrapolated value can be used as the work for ensureing transmission line use ratio highest and normally running
Industry coefficient.
By taking seal equipment outbound as an example, task priority is equal, and parallel outbound number of tasks is set to 3, if existing a plurality of
Priority identical seal equipment outbound task, then perform first 3, transmission line maximum capacity is set to 8 piles, between execution operation
It is set to 7 seconds every frequency R, the average rate flow V of transmission line is set to 0.2 meter per second, according to formula R=μ ÷ V, can extrapolate
Operation coefficient μ value is R*V=7*0.2=1.4, if now analysis result finds that transmission line has congestion, Wo Menke
So that the spacing frequency R for performing operation is set into bigger value, until the congestion of storehouse seal outbound circuit is released, operate steadily,
The μ at this time extrapolated value can be used as the operation coefficient for ensureing transmission line use ratio highest and normally running.
Described above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, without departing from the technical principles of the invention, some improvement and deformation can also be made, these improve and deformed
Also it should be regarded as protection scope of the present invention.
Claims (9)
1. the store management scheduling system of a kind of electric-power metering production, it is characterised in that from top to bottom including task management layer, storehouse
Room dispatch layer and equipment key-course;
What the task management layer reception upper system was issued goes out storage task, will go out storage task and carries out refinement decomposition, and will
Mission bit stream after refinement is decomposed is saved in database;
The storehouse dispatch layer is scheduled tactful configuration, is calculated by flow scheduling, generates outbound transport operation, and outbound is carried
After operation generation, storehouse dispatch layer assigns carrying instruction by web Service interface mode to equipment key-course;
The flow scheduling, which is calculated, includes the calculating of task allocation schedule and transmission line allocation schedule is calculated;
The task allocation schedule, which is calculated, to be referred to according to parallel outbound number of tasks and task priority, determines outbound tasks carrying
Sequence;
The transmission line allocation schedule, which is calculated, refers to that calculating transmission line maximum capacity is Qmax and is currently executing operation number Qc
Difference be Qt, if Qt=0, storehouse dispatch layer stops generation outbound transport operation, waits pending operating room every after frequency R,
Judged again, until Qt>0, regenerate outbound transport operation;
It is described perform operation spacing frequency R calculating formula be:R=μ÷V
Wherein, μ is operation coefficient, is certain value, and V is transmission line rate flow;
The equipment key-course reports automatically controlled information to storehouse dispatch layer, receives the outbound transport operation that storehouse dispatch layer is issued,
Hardware device is managed.
2. the store management scheduling system of a kind of electric-power metering production according to claim 1, it is characterised in that described
Business management level receive the storage task that goes out that issues of upper system and classified by business, including storehouse proparea go out storage, examine and determine out storage and
Seal goes out storage.
3. a kind of store management scheduling system of electric-power metering production according to claim 2, it is characterised in that the storehouse
Proparea goes out to be put in storage refinement and is decomposed into FCL arrival equipment storage, empty van arrival storage and equipment dispatching delivery outbound;The calibrating
Go out to be put in storage refinement and be decomposed into calibration equipment to return storehouse, calibration equipment outbound and calibrating empty van outbound;The seal goes out storage refinement point
Solve and return storehouse, the outbound of seal equipment and seal empty van outbound for seal equipment.
4. the store management scheduling system of a kind of electric-power metering production according to claim 1, it is characterised in that described
Allocation schedule of being engaged in, which is calculated, to be included according to priority calculating and task piece wheel Conversion Calculation, is appointed for the different parallel outbound of priority
Business, is according to priority calculated, and it is high to first carry out priority, if parallel outbound task priority is identical, is converted using task piece wheel
Calculate, parallel outbound task is divided into operation fragment, outbound task is performed by unit rotation of operation.
5. the store management scheduling system of a kind of electric-power metering production according to claim 1, it is characterised in that be each
Outbound task is scheduled tactful configuration, and scheduling strategy configuration includes six parameters:Task priority, parallel outbound number of tasks,
Operation coefficient, execution operation spacing frequency, transmission line rate flow and transmission line maximum capacity.
6. a kind of store management scheduling system of electric-power metering production according to claim 1, it is characterised in that it is described go out
Storehouse transport operation includes herein below:The time started is carried, the end time is carried, outbound pile bar code need to be carried, source address is carried
Source address is storehouse storage space numbering, carries destination address, the affiliated receipt lot number of assets during outbound.
7. a kind of store management scheduling system of electric-power metering production according to claim 1, it is characterised in that the storehouse
Interface between room dispatch layer and equipment key-course uses semiduplex mode, and storehouse dispatch layer receives what equipment key-course was reported
After automatically controlled information, replied in time, new thread is then individually enabled and carries out flow scheduling calculating, generation outbound, which is carried, to be made
Industry, then calling interface will generate result and notify equipment key-course again, and what equipment key-course reception storehouse dispatch layer was issued goes out
Storehouse transport operation, is replied in time, and issues carrying command to each hardware device.
8. the store management scheduling system of a kind of electric-power metering production according to claim 7, it is characterised in that described hard
Part equipment includes piler, elevator, shuttle, radio frequency door, control panel and conveying equipment.
9. the store management scheduling system of a kind of electric-power metering production according to claim 1, it is characterised in that in storehouse
Preview is scheduled on management scheduling system, scheduling preview includes flow path match, scheduling and calculated and three steps of Job execution, its
In, flow path match refers to from task of the task management layer acquisition according to specific business after refinement is decomposed, matching task flow,
Matching task flow, which refers to go out in the task according to acquisition, is put in storage type field, goes out to be put in storage type belonging to judgement, goes out to be put in storage class
Type is to carry out type definition to the task after decomposition, if belonging to equipment dispatching delivery outbound, calibration equipment outbound, calibrating empty van
Outbound, the outbound of seal equipment or seal empty van outbound flow, then need to call dispatching algorithm to generate outbound transport operation;
Scheduling calculating refers to that storehouse scheduling carry out task allocation schedule is calculated and transmission line allocation schedule is calculated, and ultimately generates outbound
Transport operation;
Job execution namely performs carrying according to outbound transport operation;
By analyzing preview result, scheduling policy configuration parameter is adjusted according to analysis result.
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CN108960379A (en) * | 2018-08-15 | 2018-12-07 | 广东电网有限责任公司 | A kind of mobile terminal and system of processing measuring asset dispatching business |
CN112093356A (en) * | 2020-09-23 | 2020-12-18 | 北京合众伟奇科技股份有限公司 | Intelligent scheduling method for power metering production concurrency |
CN113506071A (en) * | 2021-09-13 | 2021-10-15 | 深圳海带宝网络科技股份有限公司 | Commodity transfer method, transfer device and storage medium |
CN116433176A (en) * | 2023-03-24 | 2023-07-14 | 宁波市计量测试研究院(宁波新材料检验检测中心) | 5G-based metering sample library intelligent management system and method |
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