CN107256314B - A kind of cable connection directory automatic generation method of configuration type moving die system - Google Patents
A kind of cable connection directory automatic generation method of configuration type moving die system Download PDFInfo
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- CN107256314B CN107256314B CN201710449218.9A CN201710449218A CN107256314B CN 107256314 B CN107256314 B CN 107256314B CN 201710449218 A CN201710449218 A CN 201710449218A CN 107256314 B CN107256314 B CN 107256314B
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Abstract
A kind of cable connection directory automatic generation method of configuration type moving die system, including step:Each element in moving die system is modeled, forms element table, the content of element table includes:The installation site of screen body position, the configuration interface of element in screen where element number, component type, element;The network topology figure for intending configuration is drawn, and network topology figure is expressed as a network connection table comprising node number with terminal correspondence;Cable connection directory is generated according to the correspondence between the graphic elements and respective element of network connection table and the network topology figure.By the cable connection of generation lead table draw can quickly, easy the network for organizing the formation of needs, reduce the competency profiling of configuration personnel, and the probability to malfunction is greatly lowered.
Description
Technical field
The present invention relates to the moving die system technical field in electric system, and in particular to a kind of electricity of configuration type moving die system
Cable connects directory automatic generation method.
Background technology
The research institution of electric system is to carry out research and experiment to electric system, often in the physics of use for laboratory reality
Device builds Experimental Network, to verify whether some control methods or component can reach actual application effect, this system
Referred to as moving die system.
Connection relation between physical component is referred to as topological structure.The topological structure of electric system, especially power distribution network
It is diversified, it is necessary to be changed according to experiment purpose with demand to these structures, to realize the configuration of corresponding topological structure.
The method of configuration is at present:By veteran electrical engineer, according to the topological structure of target grid, use by hand
Cable link is attached component, and whole workload is very big, and connection procedure often malfunctions, some serious mistakes
Misunderstanding causes equipment damage.To avoid the occurrence of these problems, these moving die systems are in practical applications by the number of configuration again
It is very limited, it is difficult to reach the requirement of actual configuration type dynamic model.
The content of the invention
The application provides a kind of cable connection directory automatic generation method of configuration type moving die system, including step:
Each element in moving die system is modeled, forms element table, the content of element table includes:Element number, member
Screen body position, element correspond to installation site of the configuration interface in screen where part type, element;
The network topology figure for intending configuration is drawn, and network topology figure is expressed as one and includes node number and terminal number
The network connection table of correspondence;
Electricity is generated according to the correspondence between the graphic elements and respective element of network connection table and network topology figure
Cable connects directory.
In a kind of embodiment, component type includes impedor, switch element, bus bar elements and load cell.
In a kind of embodiment, the quantity of the configuration interface of impedor and switch element is respectively 6, the group of bus bar elements
The quantity of state interface is 9, and the quantity of the configuration interface of load cell is 3.
In a kind of embodiment, configuration interface is unified to concentrate deployment in a manner of group screen.
In a kind of embodiment, impedor and switch element include the first terminal and Second terminal respectively, the first terminal and
The quantity of the configuration interface of Second terminal is 3.
In a kind of embodiment, according to pair between the graphic elements and respective element of network connection table and network topology figure
It should be related to generation cable connection directory, specifically include:
Take out all records of the node number and terminal correspondence in network connection table;
The identical terminal of node number is formed by a chained list according to record, forms chained list group, and be successively read in chained list group
Chained list, chained list includes the node number belonging to it, and all terminals identical with node number;
Two terminals being successively read in chained list;
The corresponding element of two terminals is searched, and a untapped configuration interface is distributed respectively for two elements;
The element number of two elements, configuration interface number are added separately in cable connection directory.
In a kind of embodiment, cable connection directory includes sequence number, the element number of the first element of cable connection, first
The configuration interface number of element, the element number of the second element of cable connection, the configuration interface number of the second element.
In a kind of embodiment, a untapped configuration interface is distributed respectively for two elements, is specially:
If element is bus bar elements or load cell, the element that bus bar elements or load cell are obtained from element table is compiled
Number, and distribute a untapped configuration interface number for bus bar elements or load cell;
If element is switch element or impedor, switch element or the corresponding member of impedor are taken out from element table
Part, judges whether the corresponding node number of node number belonging to chained list and element is identical, if differing, the chain is added to element
Node number belonging to table, if identical, judge node number belonging to chained list whether the corresponding node with first terminal of element
It is number whether equal, if equal, to the untapped configuration interface number of first terminal assignment one of element, otherwise, to element
The untapped configuration interface number of second terminal assignment one.
In a kind of embodiment, further included while distributing a untapped configuration interface number by the configuration interface number of distribution
Indicate for use state the step of.
According to the cable connection directory automatic generation method of above-described embodiment, due to can be with according to cable connection directory
Configuration interface position is quickly found out, i.e., can by the cable connection directory of generation with cable connection counter element configuration interface
With quick, the easy network for organizing the formation of needs, the competency profiling of configuration personnel is reduced, and the probability to malfunction greatly drops
It is low.
Brief description of the drawings
Fig. 1 automatically generates flow chart for cable connection directory;
Fig. 2 is impedor configuration interface diagram;
Fig. 3 is switch element configuration interface diagram;
Fig. 4 is bus bar elements configuration interface diagram;
Fig. 5 is load cell configuration interface diagram;
Fig. 6 is configuration screen structure diagram;
Fig. 7 is the specific product process figure of cable connection directory;
Fig. 8 is the configuration screen schematic diagram of applicating example;
Fig. 9 is the power system network topology schematic diagram of the plan configuration of applicating example;
Figure 10 is the graphic elements result schematic diagram corresponding with the element in element table for the network topology for intending configuration;
Figure 11 is the plan configuration network topological diagram that tissue is connected according to cable connection directory.
Embodiment
The present invention is described in further detail below by embodiment combination attached drawing.
This example provides a kind of cable connection directory automatic generation method of configuration type moving die system, according to target grid
Topological structure automatically generates cable connection directory, and cable connection is carried out according to cable connection directory, can quick, simplicity group
The topological structure to form the target grid is knitted, reduces the competency profiling of configuration personnel, and the probability to malfunction is greatly lowered, cable
The flow chart of directory automatic generation method is connected as shown in Figure 1, specifically comprising the following steps.
S1:Each element in moving die system is modeled, forms element table.
The content of element table includes:Screen body position, element correspond to configuration interface where element number, component type, element
Installation site in screen;Wherein, element number is unique, which show the element, i.e., by element number with regard to that can identify its institute
The element of category, the main element type of moving die system include impedor (ZK), switch element (KG), bus bar elements (MX) and bear
Lotus element (FH), specifically, impedor is used for dummycable and circuit, switch element is used for mimic-disconnecting switch and disconnecting link, female
Set of pieces is used for analog bus, and load cell is used to simulate load;Screen body position is that finger element corresponds to configuration interface where element
The screen number at place, wherein, every kind of element provides a kind of access interface, which is referred to as configuration interface, configuration interface with
Pass through fixed cable connection between corresponding element.
In this example, the quantity of the configuration interface of impedor and switch element is respectively 6, the numbering of 6 configuration interfaces
It is followed successively by:1st, 2,3,4,5,6, as shown in Figures 2 and 3, wherein, impedor and switch element include the first terminal and the respectively
The quantity of the configuration interface of two-terminal, the first terminal and Second terminal is 3, and e.g., the numbering of configuration interface is 1,2,3 to connect
Mouthful it is the configuration interface of the first terminal, the interface that the numbering of configuration interface is 4,5,6 is the configuration interface of Second terminal;Busbar member
The quantity of the configuration interface of part is 9, its schematic diagram is as shown in figure 4, bus bar elements can be by connecting electricity by these interfaces
Cable accesses 9 other elements;The quantity of the configuration interface of load cell is 3, its schematic diagram is as shown in figure 5, load cell leads to
These interfaces are crossed to be connected with other elements by connecting cable.
In addition, each interface has A, B, C three-phase in above-mentioned configuration interface, and, these interfaces are unified to shield the side of body
Formula concentrates deployment, and the combination of these screen bodies is referred to as configuration screen, as shown in fig. 6, position of the screen body in configuration screen with shield number come
Represent, screen number is more close, and distance is nearer between shielding body.
Element corresponds to the specific mounting means of installation site of the configuration interface in screen:Whole screen body is divided into 10 from up to down
A installation site, the configuration interface of element are installed on the corresponding installation site in screen body.
S2:The network topology figure for intending configuration is drawn, and network topology figure is expressed as one and includes node number and end
The network connection table of son correspondence.
The network topology figure for intending configuration is drawn, the connection between each member terminals is split into by either manually or automatically mode
Relation, a network connection table comprising node number with terminal correspondence is expressed as by the connection relation;In this example, network
Graphic elements in topology are corresponded with the element in the element table in step 1, i.e. the figure in each network topology structure
Element must correspond to the element in an element table, and the element in each element table can only be with the pattern primitive in a network topology
Part corresponds to.
S3:Generated according to the correspondence between the graphic elements and respective element of network connection table and network topology figure
Cable connection directory.
The particular flow sheet of step S3 is as shown in fig. 7, specifically comprise the following steps.
S31:Take out all records of the node number and terminal correspondence in network connection table.
S32:The identical terminal of node number is formed by a chained list according to record, chained list group is formed and is successively read chained list group
In chained list.
In this example, the number of chained list number and node number in chained list group corresponds, and chained list includes the node belonging to it
Number, and all terminals identical with node number, wherein, the identical all terminals of node number be by cable connection together,
That is, all terminals in a chained list be by cable connection together.
S33:Two terminals being successively read in chained list.
Two terminals are included at least in chained list, if chained list includes N number of terminal, when N is more than 2, are successively read in chained list
The reading manner of two terminals is:(1,2), (2,3) ... (n-2, n-1), (n-1, n).
S34:The corresponding element of two terminals is searched, and a untapped configuration interface is distributed respectively for two elements.
Element according to belonging to terminal number can search the terminal number, if the element is bus bar elements or load cell, from
The element number of bus bar elements or load cell is obtained in element table, and distributes one for bus bar elements or load cell and is not used
Configuration interface number, meanwhile, be use state by the configuration interface number mark of the distribution;
If element is switch element or impedor, switch element or the corresponding element of impedor are taken out from element table
Numbering, judges whether the corresponding node number of node number belonging to chained list and element is identical, if differing, illustrates that the element is not provided with
Node number, then add the element node number belonging to chained list, if identical, judge whether is node number belonging to chained list again again
It is whether equal with the corresponding node number of first terminal of element, if equal, to first terminal assignment one of element not
The configuration interface number used, otherwise, to the untapped configuration interface number of second terminal assignment one of element, likewise, will
The configuration interface number mark of distribution is use state.
S35:The element number of two elements, configuration interface number are added separately in cable connection directory.
The cable connection directory of this example includes sequence number, the element number of the first element of cable connection, the first element
Configuration interface number, cable connection the second element element number, the configuration interface number of the second element, can be sentenced by sequence number
The usage quantity of cable is powered off, is compiled by the element of the element number of the first element, the configuration interface number of the first element, the second element
Number and the second element configuration interface number with regard to place screen body position and the cable connection location of two elements of two elements can be obtained.
Repeat step S33-S35, until completing the cable connection guiding of all terminals in the chained list, repeat step S32-
S35, until the chained list in chained list group is run through, the cable connection directory of the network topology of the plan configuration, which is formed, to be completed.
For ease of understanding, the process that cable connection directory automatically forms is exemplified below.
Laboratory is mounted with 10 impedors, 10 switch elements, 10 bus bar elements and 10 load cells, is formed
4 configuration screens, as shown in figure 8, being modeled to each element, form element table, which includes 40 data storehouses note
Record, recording the element number of each element, (impedor numbering is 1-10, and switch element numbering is 11-20, bus bar elements numbering
For 21-30, load cell numbering is 31-40), component type, configuration screen number (1-4), and location number (1-10).
Intend the power system network topology of configuration as shown in figure 9, wherein, solid lines represent bus bar elements, thick dashed line bar
Represent impedor, rectangle represents switch element, and arrow represents load cell.
The network topology figure for intending configuration is drawn, and the graphic elements in network topology figure are corresponded in element table,
The respective action can be manual progress, can also be according to the one-to-one relationship between graphic elements type and component type certainly
Dynamic to correspond to, its is corresponding, and the results are shown in Figure 10.
Electricity is generated according to the correspondence system between the graphic elements and respective element of network connection table and network topology figure
Cable connects directory, its cable connection directory is as shown in the table, according to cable guide table, passes through the corresponding screen number of element interface
Interface position is quickly found out for location number, with cable connection counter element configuration interface, forms plan configuration as shown in figure 11
Electric power networks topology.
Sequence number | First element number | First element interface | Second element number | Second element interface |
1 | 21 | 1 | 11 | 1 |
2 | 11 | 4 | 1 | 1 |
3 | 1 | 4 | 12 | 1 |
4 | 12 | 4 | 22 | 1 |
5 | 22 | 2 | 13 | 1 |
6 | 13 | 4 | 2 | 1 |
7 | 2 | 4 | 14 | 1 |
8 | 14 | 4 | 23 | 1 |
9 | 23 | 2 | 18 | 1 |
10 | 18 | 4 | 31 | 1 |
11 | 23 | 3 | 15 | 1 |
12 | 15 | 4 | 3 | 1 |
13 | 3 | 4 | 16 | 1 |
14 | 16 | 4 | 24 | 1 |
15 | 24 | 2 | 19 | 1 |
16 | 19 | 4 | 32 | 1 |
17 | 24 | 3 | 17 | 1 |
18 | 17 | 4 | 4 | 1 |
19 | 4 | 4 | 20 | 1 |
20 | 20 | 4 | 25 | 1 |
Therefore, the network for organizing the formation of needs that can quickly, easy by cable connection directory, reduces configuration people
The competency profiling of member, and the probability to malfunction is greatly lowered.
Use above specific case is illustrated the present invention, is only intended to help and understands the present invention, not limiting
The system present invention.For those skilled in the art, according to the thought of the present invention, can also make some simple
Deduce, deform or replace.
Claims (8)
1. the cable connection directory automatic generation method of a kind of configuration type moving die system, it is characterised in that including step:
Each element in moving die system is modeled, forms element table, the content of the element table includes:Element number, member
The installation site of screen body position, the configuration interface of element in screen where part type, element;
The network topology figure for intending configuration is drawn, and the network topology figure is expressed as one and includes node number and terminal number
The network connection table of correspondence;
Electricity is generated according to the correspondence between the pel and respective element of the network connection table and the network topology figure
Cable connects directory, and the generating mode of the cable connection directory is:
Take out all records of the node number and terminal correspondence in the network connection table;
The identical terminal of node number is formed by a chained list according to the record, forms chained list group, and be successively read the chained list
Chained list in group, the chained list include the node number belonging to it, and all terminals identical with the node number;
Two terminals being successively read in the chained list;
The corresponding element of described two terminals is searched, and a untapped configuration interface is distributed respectively for two elements;
The element number of two elements, configuration interface number are added separately in cable connection directory.
2. cable connection directory automatic generation method as claimed in claim 1, it is characterised in that the component type includes
Impedor, switch element, bus bar elements and load cell.
3. cable connection directory automatic generation method as claimed in claim 2, it is characterised in that the impedor and open
The quantity for closing the configuration interface of element is respectively 6, and the quantity of the configuration interface of the bus bar elements is 9, the load member
The quantity of the configuration interface of part is 3.
4. cable connection directory automatic generation method as claimed in claim 3, it is characterised in that the configuration interface is unified
Deployment is concentrated in a manner of shielding body, several described screen bodies are combined into configuration screen.
5. cable connection directory automatic generation method as claimed in claim 4, it is characterised in that the impedor and open
Close element includes the first terminal and Second terminal respectively, and the quantity of the configuration interface of the first terminal and Second terminal is 3
It is a.
6. cable connection directory automatic generation method as claimed in claim 1, it is characterised in that the cable connection guiding
Table include sequence number, the element number of the first element of cable connection, the configuration interface number of the first element, second yuan of cable connection
The configuration interface number of the element number of part, the second element.
7. cable connection directory automatic generation method as claimed in claim 1, it is characterised in that described is two elements point
Not Fen Pei a untapped configuration interface, be specially:
If the element is bus bar elements or load cell, the bus bar elements or load cell are obtained from the element table
Element number, and distribute a untapped configuration interface number for the bus bar elements or load cell;
If the element is switch element or impedor, the switch element or impedor pair are taken out from the element table
The element number answered, judges whether the node number belonging to the chained list is identical with the corresponding node number of the element, if differing,
The node number belonging to the chained list is then added to the element, if identical, judge node number belonging to the chained list whether with
Whether the corresponding node number of first terminal of the element is equal, if equal, to first terminal assignment of the element
One untapped configuration interface number, otherwise, to the untapped configuration interface number of second terminal assignment one of the element.
8. cable connection directory automatic generation method as claimed in claim 7, it is characterised in that the distribution one does not make
Further included while configuration interface number by the configuration interface number mark of distribution for use state the step of.
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CN114113754B (en) * | 2021-11-08 | 2023-09-01 | 浙江华电器材检测研究院有限公司 | Intelligent wiring guiding method for configuration movable mould system and related components |
CN114063501B (en) * | 2021-11-10 | 2024-03-08 | 珠海格力电器股份有限公司 | Automatic connection method and device for configuration elements and configuration equipment |
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