CN116467768A - Automatic generation method of interlocking wiring installation diagram of track signal system - Google Patents

Abstract

The invention provides an automatic generation method of an interlocking wiring installation diagram of a track signal system, which comprises the following steps: acquiring a global configuration file of a wiring installation project to obtain interlocking equipment requirements and distribution cabinet wiring information, combining a pre-stored primitive circuit diagram and a combined cabinet primitive block in a primitive library to obtain a mapping relation between a principle circuit diagram and each cabinet wiring, and determining cabinet layout; screening out the combined cabinet primitive blocks related to the functions of all the devices in the cabinet layout from the primitive library, and determining the combined side surfaces corresponding to the combined cabinet primitive blocks and the terminal definition identifiers of the branching cabinets; and acquiring configuration information of the interlocking area, and generating a wiring diagram on the basis of the cabinet layout by combining the terminal definition mark. Compared with the current conditions that the manual design and installation of the drawing consume a long time and require more personnel, the invention can shorten the working period of the drawing of the construction drawing, improve the productivity of the personnel, reduce the terminal error rate of the construction drawing and improve the delivery quality of the drawing by means of the invention.

Description

Automatic generation method of interlocking wiring installation diagram of track signal system

Technical Field

The invention belongs to the technical field of rail transit signal systems, and particularly relates to an automatic generation method of an interlocking wiring installation diagram of a rail transit signal system.

Background

The interlocking device of the rail transit signal system refers to a device for controlling turnouts, routes and signals of stations and realizing interlocking relation between the turnouts, the routes and the signals, and wiring diagrams are usually required to be designed when the interlocking device is installed so as to realize the installation of the interlocking device. At present, most signal integrators or design houses still draw wiring diagrams manually, namely, manually design based on CAD software, and output drawings. Because the number of wiring terminals of the indoor and outdoor signal installation interlocking equipment of the rail transit signal system is large, the terminal number similarity is high, confusion is easy to occur during manual design checking, the design and checking difficulty is high, the drawing design and checking work period is long, and the wiring efficiency of the interlocking equipment is further affected.

Disclosure of Invention

In order to solve the defects and defects of lower wiring efficiency of interlocking equipment caused by long drawing design and auditing working cycle of an artificially designed interlocking equipment wiring diagram in the prior art, the invention provides an automatic interlocking wiring installation diagram generation method of a track signal system, which comprises the following steps:

acquiring a global configuration file of a wiring installation project to obtain interlocking equipment requirements and distribution cabinet wiring information, combining a pre-stored primitive circuit diagram and a combined cabinet primitive block in a primitive library to obtain a mapping relation between a principle circuit diagram and each cabinet wiring, and determining cabinet layout;

screening out combined cabinet primitive blocks related to functions of all equipment in the cabinet layout from a primitive library, and determining a combined side face corresponding to the combined cabinet primitive blocks and a terminal definition identifier of a branching cabinet;

and acquiring configuration information of the interlocking area, and generating a wiring diagram on the basis of the cabinet layout by combining the terminal definition mark.

Optionally, the global configuration file includes equipment statistics information, distribution cabinet wiring relation information and equipment requirement information;

the equipment statistical information is used for configuring an interlocking equipment list to be wired and attribute information of the interlocking equipment;

the distribution cabinet wiring relation information is used for processing wiring mapping rules of the distribution cabinets and other cabinets of the all-line equipment;

the equipment requirement information is used as a judging condition, and the primitives related to the wiring installation project are screened in the primitive library and positioned to the corresponding wiring preset program.

Optionally, the obtaining the global configuration file of the wiring installation project obtains the requirement of the interlocking device and the wiring information of the branching cabinet, and combines the pre-stored primitive diagram and the primitive block of the combined cabinet in the primitive library to obtain the mapping relationship between the schematic diagram and the wiring of each cabinet, so as to determine the layout of the cabinet, including:

determining an interlocking equipment list in the interlocking area according to the equipment statistical information, and determining equipment attributes;

finding out the mapped combined arrangement primitive blocks in a pre-stored primitive library according to the equipment requirements corresponding to the interlocking equipment list and the equipment attributes, and determining the default layout of the initial interface combined cabinet;

determining the default layout of the initial interface branching cabinet according to the interlocking equipment list, equipment requirements and branching cabinet wiring information;

and determining the layout of the cabinet body after the user adjusts the movable layout interface, and placing the primitive blocks according to a preset arrangement rule when outputting the drawing.

Optionally, the primitive library comprises a principle circuit diagram and combined side wiring relation information;

the principle circuit diagram is a primitive block with a base point aiming at different interlocking equipment requirements;

the combined side wiring relationship information is used to configure wiring rule definitions for combined sides and other cabinets.

Optionally, the method searches the coordinates of the primitive block base point and the terminal definition identifier base point for the combined side surface table through a preset program, calculates the position of the combined side surface terminal, and outputs the wiring of the combined side surface and other cabinets.

Optionally, the configuration file of the interlocking area comprises a catalog configuration page, an angle mark configuration page, a code position table and a terminal input configuration page of manufacturer equipment;

the catalog configuration page comprises drawing names and used primitive block names and is used for defining the sequence of outputting the drawings;

the corner mark configuration page is used for supplementing design, auditing, responsible person, drawing number, date and version information;

the manufacturer terminal input configuration page comprises terminals input by equipment manufacturers and wiring rule definitions conforming to special functions in a preset program.

Optionally, the obtaining the configuration information of the interlocking area and the terminal definition identifier are combined to generate the wiring diagram on the basis of the cabinet layout, including:

judging whether to generate a wiring installation diagram based on the general functions of the interlocking equipment, if so, generating wiring between the cabinet bodies according to the preset general function rules of wiring corresponding to the terminal definition identifiers and combining the catalogue, the code position table and the wiring mapping relation to form the wiring diagram; if the wiring installation diagram is not generated based on the general function of the interlocking equipment, terminal definition and wiring rules of terminal input configuration pages of manufacturer equipment are obtained, wiring among cabinets is generated according to special function rules of a preset program and by combining the catalogue, the code position table and the wiring mapping relation, and the wiring diagram is formed.

Optionally, the primitive block of the schematic circuit diagram further includes a circulation identifier, which is used for configuring the interlocking device corresponding to the primitive block to be arranged according to an expected circulation mode.

Optionally, the interlocking device related to the method comprises a combined cabinet, a lightning protection junction box, an interface cabinet, a power supply cabinet, a shaft counting cabinet, an LEU cabinet, a turnout notch, an IBP disc, a filament alarm instrument and an outdoor device.

The technical scheme provided by the invention has the beneficial effects that:

compared with the current conditions that the manual design and installation of the drawing is long in time and needs more personnel, the invention can be used for carrying out the design work of the drawing, thereby achieving the purposes of shortening the working period of the drawing of the construction drawing, improving the productivity of the personnel, reducing the terminal error rate of the construction drawing and improving the delivery quality of the drawing.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of an automatic generation method of an interlocking wiring installation diagram of a track signal system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of the primary wiring relationship of the interlock device.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, and means that three relationships may exist, for example, and/or B may mean: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.

It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

Examples

As shown in fig. 1, the embodiment provides an automatic generation method of an interlock wiring installation diagram of a track signal system, which includes:

s1: acquiring a global configuration file of a wiring installation project to obtain interlocking equipment requirements and distribution cabinet wiring information, combining a pre-stored primitive circuit diagram and a combined cabinet primitive block in a primitive library to obtain a mapping relation between a schematic diagram and each cabinet wiring, and determining cabinet layout;

s2: screening out combined cabinet primitive blocks related to functions of all equipment in the cabinet layout from a primitive library, and determining a combined side face corresponding to the combined cabinet primitive blocks and a terminal definition identifier of a branching cabinet;

s3: and acquiring configuration information of the interlocking area, and generating a wiring diagram on the basis of the cabinet layout by combining the terminal definition mark.

Aiming at indoor and outdoor signal equipment installation diagrams of subway relay interlocking, the embodiment provides a design scheme of an automatic drawing generation tool based on a visual operation interface, and the tool is programmed by using C# language. The present embodiment concentrates the wiring relationship related data in the combined side and junction box. The key parts such as the schematic diagram, the combination side surface and the like are made into primitive blocks, and the wiring relation of the branching cabinets is configured in a table. The wiring relation between the combined side face, the branching cabinet, the IBP disk, the power supply screen and other equipment is defined by setting the wiring relation identification with a fixed format, and the corresponding terminals are filled in the schematic diagram, so that the universality of software is ensured. The terminal number of the combined side face is judged by the base point and the data coordinates, and the terminal number of the branching cabinet is determined by the interface arrangement result of the branching cabinet.

In this embodiment, the input files for automatically generating the interlock wiring installation map mainly include a global profile, an interlock area profile, and a primitive library. And taking the whole project as a unit, the global configuration file and the primitive library only need to be configured once, and the configuration files of the interlocking areas need to be configured respectively for each interlocking area.

The global configuration file comprises equipment statistics information, distribution cabinet wiring relation information and equipment requirement information;

the equipment statistical information is used for configuring an interlocking equipment list to be wired and attribute information of the interlocking equipment, so that software obtains the equipment list to be processed and the equipment attribute information;

the distribution cabinet wiring relation information is used for processing distribution cabinet wiring of all-line equipment and can process the distribution cabinet wiring of the all-line equipment; the equipment requirement information is used as a judging condition, the primitives related to the wiring installation project are screened in the primitive library, and after the project requirement is confirmed, the equipment requirement is used as the judging condition, and the corresponding primitives are screened and output.

In this embodiment, the global configuration file is preferably an EXCLE form, imported to the tool through the visual interface, and the data is provided to the software in a fixed format.

The primitive library comprises a principle circuit diagram and combined side wiring relation information;

the principle circuit diagram is a primitive block with a base point aiming at different interlocking equipment requirements;

the combined side wiring relation information is used for configuring terminal definition of the combined side, and is embodied in a combined side graphic element block, and principle circuit diagrams under different interlocking equipment requirements correspond to a unique combined side graphic element block, wherein the graphic element block is provided with a base point and contains a special identifier for replacing information.

In this embodiment, the primitive library is preferably a CAD file in dxf format.

The interlocking area configuration file comprises a catalog configuration page, an angle sign configuration page, a code position table and a manufacturer equipment terminal input configuration page;

the catalog configuration page comprises drawing names and used primitive block names, and primitives used for projects can be flexibly adjusted according to the page and complete drawings are output;

the corner mark configuration page is used for supplementing design, auditing, responsible person, drawing number, date and version information;

the terminal input configuration page of the manufacturer comprises terminals input by equipment manufacturers and wiring rule definitions conforming to special functions in preset programs, such as transponders, axle counting, turnout notches, power supply screens and the like.

In this embodiment, the interlock area configuration file is preferably an EXCLE form, imported to the tool through the visual interface, and data is provided to the software in a fixed format.

Aiming at the characteristics of indoor and outdoor installation diagrams of the signal system, the drawings can be mainly divided into two major categories of schematic diagrams and wiring drawings of key cabinet bodies, the circuit part of the schematic diagrams needs to be prevented from being modified by mistake after the requirements and the layout are confirmed, and only the arrangement of the cabinet bodies needs to be allowed to be adjusted in a tool visual interface. Thus, the arrangement of the combination and the arrangement of the lightning protection junction box determines the vast majority of the wiring traces.

In this embodiment, the interlocking device related to the method includes a combined cabinet, a lightning protection branching cabinet, an interface cabinet, a power supply cabinet, a shaft counting cabinet, an LEU cabinet, a turnout notch cabinet, an IBP disc, a filament alarm and an outdoor device, wherein the main wiring relationship is as shown in fig. 2, the side surface of the combined cabinet is connected with the power supply screen through a zero layer of the combined cabinet, and meanwhile, the combined cabinet is respectively connected with the interface cabinet, the lightning protection branching cabinet, the filament alarm and the shaft counting cabinet, and the lightning protection branching cabinet is respectively connected with the IBP disc, the turnout notch and the outdoor device.

The core cabinet body is a combined cabinet and a branching cabinet. For the combined cabinet, mainly relate to the three parts of wiring of combined arrangement, combined side and combined zero layer. The relay interlocking of the subway signal system is mature at present, and the principle circuit diagram used by each function requirement is basically stable. After the project requirements are confirmed, the schematic circuit diagram can be directly confirmed, and at the moment, the combination arrangement, the combination interior, the combination side face and the like used are corresponding and unique to each other, and other devices can be respectively distributed according to the device characteristics. Thus, the arrangement of the combination and the arrangement of the lightning protection junction box determines the vast majority of the wiring traces.

And providing an interface of the combination cabinet arrangement and the lightning protection junction cabinet on a visual operation interface of the tool. After the data of the interlocking area is imported, an initial layout is generated by one key according to a wiring rule, and a user is allowed to drag each function to adjust the cabinet layout based on the initial layout, so that wiring is quickly adjusted.

On the basis of the input file, the obtaining the global configuration file of the wiring installation project obtains the requirement of interlocking equipment, and the determining the cabinet layout by combining the mapping relation among the original circuit diagram, the branching cabinet and the combined cabinet in the pre-stored primitive library comprises the following steps:

determining an interlocking equipment list in the interlocking area according to the equipment statistical information, and determining equipment requirements;

finding out the mapped combined arrangement primitive blocks in a pre-stored primitive library according to the equipment requirements corresponding to the interlocking equipment list and the equipment attributes, and determining the default layout of the initial interface combined cabinet;

determining the default layout of the initial interface branching cabinet according to the interlocking equipment list, equipment requirements and branching cabinet wiring information;

and determining the layout of the cabinet body after the user adjusts the movable layout interface, and placing the primitive blocks according to a preset arrangement rule when outputting the drawing.

In this embodiment, the user clicks the "initialization cabinet" on the visual interface, the software starts to read the configuration file, obtains the device list and the attribute, searches the configuration page of the branching cabinet, obtains the information such as the used combined block name, the schematic block name branching cabinet arrangement mode, and the like, then reads the combined primitive block in the primitive library, and reads the number identifier of the devices that can be placed in the combination. And the user moves the combined position in the combined cabinet interface, the software reads the power supply information of the combined side surface graphic element, when the combined zero-layer capacity meets the requirement, the user is allowed to move the combined position on the combined cabinet interface, and otherwise, the software prompts that the zero-layer capacity is not met.

In the wiring process, the method searches the coordinates of the primitive block base point and the terminal definition identifier base point for the combined side surface table through a preset program, calculates the position of the combined side surface terminal, and outputs the wiring of the combined side surface and other cabinets.

The wiring part of the indoor signal installation diagram is mainly concentrated on the lightning protection branching cabinets and the combined side surfaces, the wiring relates to a plurality of cabinets, and corresponding terminal positions and wiring tables are also arranged on the principle circuit diagram. In this embodiment, the data of the wiring terminals and the wiring relationships are mainly concentrated on the combined side surfaces, the branching cabinets, and the schematic diagrams, and the data arrangement is performed on the wiring relationships.

For the combined side, the related terminal wiring is provided with a combined side jumper wire, a branching cabinet, an interface cabinet, a filament alarm instrument, a section reset, a shaft counting cabinet and the like, and the data configuration of the wiring relationship is in the form of CAD blocks, and the terminal definition identification is directly supplemented at the corresponding terminal position in the combined side table. Wherein the combined side also defines the power required for the combination, thereby creating a combined zero layer and combined side power ring connection. The power identifier needs to be introduced into special calculation characters containing the sequence meaning of the station serial numbers, and is used for marking the condition that the power numbers are changed when different stations use the same combination.

The terminal definition format of the side of the combination contains information of what equipment, connected equipment/cabinet, mapping identification and the like the terminal is used for. The program can directly search the coordinates of the base points of the primitive blocks and the base points of the terminal definition identifiers for the combined side surface table, calculate the positions of the terminals of the combined side surface, and output the wiring of the combined side surface and other cabinets. The terminal definitions on the combined sides are shown in table 1.

TABLE 1

For the lightning protection branching cabinet, the data configuration is in the form of EXCLE table, the wiring mode of each equipment function is described, a fixed table format is set, and each unit cell corresponds to one terminal of the branching cabinet. The data format in the unit cell is divided into two types, wherein the first type is wiring data of other devices such as a combined side surface and an IBP disk, and the second type is a common text directly output into a terminal of the branching cabinet. Because the relay signal has a function that a plurality of equipment buttons are needed, the distribution cabinet wiring logic of the same button is similar, in order to reduce the workload of user data configuration, the circulation is added in the definition of the terminal, the same button is configured only once, and the equipment is circularly wired according to the circulation identifier. The terminal definitions on the lightning protection junction box are shown in table 2.

TABLE 2

The data configuration of the lightning protection branching cabinet comprises information such as the name of a combined graphic primitive, the name of a schematic diagram of function mapping, whether cables of a signal equipment room of a non-centralized station pass through the branching cabinet of the non-centralized station, whether functions are respectively distributed according to station areas, and the like, and is used for linking and mapping the schematic diagram, the combined cabinet and the branching cabinet of each equipment by software.

For the schematic circuit diagram, when the schematic diagram graphic primitive block is manufactured, the combined side terminals are contained as fixed data, and the data to be replaced mainly comprises information such as a branching cabinet, an IBP, an interface cabinet wiring table, a combined position, a station name and the like. And repeatedly drawing the same circuit diagram for a plurality of devices of the same type of relay interlocking or drawing a plurality of the same devices in one circuit diagram, wherein the terminal wiring identifier of the schematic diagram needs to contain cabinet information and mapping identifiers, and also needs to contain a circulation mode and the number of devices aimed at by the terminals. If there is no need for a loop or a number of loops, the corresponding identification may not be configured. The terminal definitions in the schematic circuit diagram are shown in table 3.

TABLE 3 Table 3

The mapping identifiers should be identical for terminals having wiring relationships that are simultaneously disposed on the sides of the combination, the distribution cabinet, and the schematic diagram, to represent the same terminal.

The obtaining of the configuration information of the interlocking area and the generation of the wiring diagram on the basis of the cabinet layout by combining the terminal definition mark comprise the following steps: judging whether to generate a wiring installation diagram based on the general functions of the interlocking equipment, if so, generating wiring between the cabinet bodies according to the preset general function rules of wiring corresponding to the terminal definition identifiers and combining the catalogue, the code position table and the wiring mapping relation to form the wiring diagram; if the wiring installation diagram is not generated based on the general function of the interlocking equipment, terminal definition and wiring rules of terminal input configuration pages of manufacturer equipment are obtained, wiring among cabinets is generated according to special function rules of a preset program and by combining the catalogue, the code position table and the wiring mapping relation, and the wiring diagram is formed.

In this embodiment, the indoor and outdoor installation diagrams of the signal system include main devices and functions: signaling machine, turnout, axle counting, section resetting, transponder (or dynamic beacon), emergency stop, platform door, car buckling, turning back, passenger clearing, platform door reclosing and opening, personnel protection, tie line, flood gate, departure timer, filament alarm, fuse alarm, car washing line, etc. The devices and functions can be broadly divided into the following two categories according to the wiring characteristics of each device:

(1) The wiring range is smaller, and all or most of the wiring exists among the side surface of the combined cabinet, the lightning protection branching cabinet, the interface cabinet and the IBP disk. The equipment has the functions of tightly stopping, platform doors, buckling, turning back, fuse alarming, scattered alarming, total resetting, temporary speed limiting, personnel protection, passenger clearing, reclosing and opening, departure timer, platform door alignment and isolation and the like. This class is collectively referred to as a general function, for which software does not need to separately write processing code and can share a function. For the first kind of signal function, software can flexibly set configuration files according to requirements according to the mapping relation and rules among the set lightning protection branching cabinets, the combination cabinets, the IBP discs and the schematic diagrams, and output the schematic diagrams and cabinet wiring tables.

(2) Wiring involves other cabinets, equipment, or equipment where wiring is more flexible to the presence of a particular jumper. The equipment is mainly concentrated on functions of turnout and track gauge lamps, annunciators and filament alarms, axle counting and section resetting, tie-line interfaces, dynamic beacons and the like. For the second class signal function, besides the mapping relation and rules among the set lightning protection branching cabinets, the combination cabinets, the IBP disk and the schematic diagram, the data of equipment manufacturers are also required to be configured, and related drawings are output.

In this embodiment, the configuration page input by the manufacturer equipment terminal is an EXCLE form or a dwg file of CAD input by manufacturers such as a transponder, a shaft, a turnout notch, a power supply screen and the like, wherein the CAD file can export characters by means of a plug-in tool, is converted into an EXCLE form in a fixed format which can be read by the tool, and is imported into software from a visual interface. The fixed format mainly comprises two parts, namely a header configuration item in an arrangement mode on the branching cabinet and a filling part of a manufacturer input terminal.

In this embodiment, the primitive block of the schematic circuit diagram further includes a circulation identifier, which is used to configure the interlocking device corresponding to the primitive block to be arranged according to an expected circulation mode, so as to achieve the effect that the device can be arranged on the schematic diagram in an expected circulation mode, and output in an expected repetition mode and number of times of the schematic diagram. The definition of the loop identifier is as follows:

(1) XS (this figure applies only to upstream devices): the device for which the identifier in "{ }" on this figure is indicated is only the upstream (even numbered) device of the station to which this figure belongs, and there is no identifier in this figure for which the same function is repeated, but there may be multiple identifiers for one function. When more than one terminal of the uplink equipment is configured at the branching cabinet, the function of the station repeats the drawing until the uplink equipment is used.

(2) XX (this figure applies only to downstream equipment): the device for which the identifier in "{ }" on this figure is indicated is only the downstream (odd numbered) device of the station to which this figure belongs, and there is no identifier in this figure for which the same function is repeated, but there may be multiple identifiers for one function. When more than one terminal of the downlink equipment is configured at the branching cabinet, the station function circulates the drawing until the terminal of the downlink equipment is configured.

(3) XA (this figure applies for both up and down, but the up and down need to be separated): the identifier in "{ }" on this figure is represented and loops through the cabinet configuration page. And circulating the drawing until the corresponding identifier of the branching cabinet is circularly configured. Repeating the sequence: the number is from small to large, and the same drawing is not used for the downlink and the uplink. In one block, there are two repetition cases:

A. a plurality of identifiers with the same name are not arranged in one primitive block, and suffix identification is not required to be added;

B. there are multiple identifiers of the same name in a primitive block, and a suffix can be added to distinguish "%1/2/3 …", such as {% xa%1}, {% xa%2}.

(4) XB (this figure is applicable to only the uplink and downlink, and the uplink and downlink are not required to be separated in one figure): the identifier in "{ }" on this figure is represented and loops through the cabinet configuration page. The drawing is repeated until the corresponding identifier of the branching cabinet is circularly configured. Repeating the sequence: the number is from small to large, and the number is not divided into uplink and downlink. In one block, there are two repetition cases:

i, a primitive block does not have a plurality of identifiers with the same name, and suffix identification is not required to be added;

II there are multiple identifiers of the same name in a primitive block, and a suffix can be added to distinguish "%1/2/3 …", such as {% XA%1}, and {% XA%2}.

The various numbers in the above embodiments are for illustration only and do not represent the order of assembly or use of the various components.

The foregoing is illustrative of the present invention and is not to be construed as limiting thereof, but rather, the present invention is to be construed as limited to the appended claims.

Claims (9)

1. An automatic generation method of an interlocking wiring installation diagram of a track signal system, which is characterized by comprising the following steps:

acquiring a global configuration file of a wiring installation project to obtain interlocking equipment requirements and distribution cabinet wiring information, combining a pre-stored primitive circuit diagram and a combined cabinet primitive block in a primitive library to obtain a mapping relation between a principle circuit diagram and each cabinet wiring, and determining cabinet layout;

screening out combined cabinet primitive blocks related to functions of all equipment in the cabinet layout from a primitive library, and determining a combined side face corresponding to the combined cabinet primitive blocks and a terminal definition identifier of a branching cabinet;

and acquiring configuration information of the interlocking area, and generating a wiring diagram on the basis of the cabinet layout by combining the terminal definition mark.

2. The method for automatically generating an interlocking wiring installation diagram of a track signaling system according to claim 1, wherein the global configuration file includes equipment statistics, distribution cabinet wiring relation information and equipment requirement information;

the equipment statistical information is used for configuring an interlocking equipment list to be wired and attribute information of the interlocking equipment;

the distribution cabinet wiring relation information is used for processing wiring mapping rules of the distribution cabinets and other cabinets of the all-line equipment;

the equipment requirement information is used as a judging condition, and the primitives related to the wiring installation project are screened in the primitive library and positioned to the corresponding wiring preset program.

3. The method for automatically generating an interlock wiring installation diagram of a track signal system according to claim 2, wherein the obtaining a global configuration file of a wiring installation project to obtain interlock equipment requirements and distribution cabinet wiring information, combining a pre-stored primitive circuit diagram and a combined cabinet primitive block in a primitive library to obtain a mapping relationship between the primitive circuit diagram and each cabinet wiring, and determining a cabinet layout comprises:

determining an interlocking equipment list in the interlocking area according to the equipment statistical information, and determining equipment requirements;

finding out the mapped combined arrangement primitive blocks in a pre-stored primitive library according to the equipment requirements corresponding to the interlocking equipment list and the equipment attributes, and determining the default layout of the initial interface combined cabinet;

determining the default layout of the initial interface branching cabinet according to the interlocking equipment list, equipment requirements and branching cabinet wiring information;

and determining the layout of the cabinet body after the user adjusts the movable layout interface, and placing the primitive blocks according to a preset arrangement rule when outputting the drawing.

4. The method for automatically generating an interlocking wiring installation diagram of a track signal system according to claim 1, wherein the primitive library comprises a schematic circuit diagram and combined side wiring relation information;

the principle circuit diagram is a primitive block with a base point aiming at different interlocking equipment requirements;

the combined side wiring relationship information is used to configure wiring rule definitions for combined sides and other cabinets.

5. The method for automatically generating an interlock wiring installation diagram of a track signaling system according to claim 4, wherein the method searches the coordinates of the primitive block base point and the terminal definition identifier base point for the combined side table by a preset program, calculates the combined side terminal position, and outputs the wiring of the combined side and other cabinets.

6. The method for automatically generating an interlock wiring installation diagram of a track signal system according to claim 1, wherein the interlock area configuration file comprises a catalog configuration page, an angle mark configuration page, a code position table and a manufacturer equipment terminal input configuration page;

the catalog configuration page comprises drawing names and used primitive block names and is used for defining the sequence of outputting the drawings;

the corner mark configuration page is used for supplementing design, auditing, responsible person, drawing number, date and version information;

the manufacturer terminal input configuration page comprises terminals input by equipment manufacturers and wiring rule definitions conforming to special functions in a preset program.

7. The method for automatically generating an interlock wiring installation diagram of a track signaling system according to claim 6, wherein said obtaining interlock area configuration information, in combination with terminal definition identification, generates a wiring diagram on the basis of a cabinet layout, comprises:

judging whether to generate a wiring installation diagram based on the general functions of the interlocking equipment, if so, generating wiring between the cabinet bodies according to the preset general function rules of wiring corresponding to the terminal definition identifiers and combining the catalogue, the code position table and the wiring mapping relation to form the wiring diagram;

if the wiring installation diagram is not generated based on the general function of the interlocking equipment, terminal definition and wiring rules of terminal input configuration pages of manufacturer equipment are obtained, wiring among cabinets is generated according to special function rules of a preset program and by combining the catalogue, the code position table and the wiring mapping relation, and the wiring diagram is formed.

8. The method for automatically generating the interlocking wiring installation diagram of the track signal system according to claim 1, wherein the primitive block of the schematic circuit diagram further comprises a circulation identifier, and the circulation identifier is used for configuring the interlocking equipment corresponding to the primitive block to be arranged according to an expected circulation mode.

9. The method for automatically generating the interlocking wiring installation diagram of the track signal system according to claim 1, wherein the interlocking equipment related to the method comprises a combined cabinet, a lightning protection branching cabinet, an interface cabinet, a power supply cabinet, a shaft counting cabinet, an LEU cabinet, a turnout notch cabinet, an IBP disc, a filament alarm and outdoor equipment.