CN106337624A - Method for implementing regional controller with various platform screen door control modes - Google Patents

Abstract

The invention provides a method for implementing a regional controller with various platform screen door control modes. The method comprises the following steps: A, in a system configuration file, the platform screen door control modes are set to a controllable platform screen door mode, an uncontrollable platform screen door mode and a transferring platform screen door control mode; B, whether the regional controller is in the controllable platform screen door mode or not is judged, a controllable platform screen door process is executed if the regional controller is in the controllable platform screen door mode, and the step C is executed if the regional controller is not in the controllable platform screen door mode; C, whether the regional controller is in the transferring platform screen door control mode or not is judged, different platform screen door control methods are adopted according to signal modes if the regional controller is in the transferring platform screen door control mode, and the step D is executed if the regional controller is not in the transferring platform screen door control mode; and D, whether the regional controller is in the uncontrollable platform screen door mode or not is judged, the request of a vehicle-mounted ATP for opening/closing a platform screen door is refused if the regional controller is in the uncontrollable platform screen door mode, and the regional controller goes down if the regional controller is not in the uncontrollable platform screen door mode.

Description

A kind of implementation method of the zone controller with multiple shielding gate-modes

Technical field

The present invention relates to Train Control field, more particularly, to zone controller.

Background technology

Subway signal system is all using communication-based train control system (cbtc) at present.Within the system, work as operation Train enters the station after coming to a complete stop, vehicle-mounted atp can earthward equipment send hold shield door request.When train prepares leaving from station, vehicle-mounted atp meeting Earthward equipment sends pass shield door request.Ground installation is asked according to vehicle-mounted atp, assigns shield door switch command, thus real Existing car door linkage, improves efficiency of operation.Meanwhile, ground installation real-time monitoring shield door safe condition, as handle route and Calculate one of input condition of mobile authorization.In the cbtc system of current main-stream, shield door is by zone controller (zc) or connection Lock (ci) controls.

The zone controller of prior art all can only be realized solely controlling or not control shield door, and also can not be according to area The change of domain controller signal mode and shift shield door control, therefore, the zone controller product of prior art is suitable for and deposits In certain limitation.

Additionally, because the demand of user has certain diversity, the definition of shield door non-secure states there may be necessarily Difference, such as shield door closes the door time-out, shield door enabling time-out etc..

In sum, need a kind of zone controller of the control/do not control enabling compatible shield door badly so that not only according with Close the modular design method of software, zone controller also can be made more to flexibly be adapted to different cbtc systems and user Demand, increases the product competitiveness of zone controller.

Content of the invention

Compatible in order to solve the problems, such as zone controller shield door function, the invention provides one kind has multiple shield doors The implementation method of the zone controller of control model.

In one embodiment, the method comprising the steps of:

A: in CONFIG.SYS, shielding gate-mode is set to control Platform Screen Door, does not control shield door Pattern, transfer shielding gate-mode；

B: described zone controller judges whether to be in control Platform Screen Door, if being in control Platform Screen Door, holds Row controls shield door flow process；If being not at controlling Platform Screen Door, execution step c；

C: described zone controller judges whether to be in transfer shielding gate-mode, if being in transfer shielding gate control mould Formula, then take different shield door control modes according to signal mode；If being in non-diverting shielding gate-mode, execute step Rapid d；

D: described zone controller judges whether to be in non-controlling Platform Screen Door, if being in non-controlling Platform Screen Door, Then refuse vehicle-mounted atp switch shield door request；If being not at non-controlling Platform Screen Door, zone controller is delayed machine.

In one embodiment, described transfer shielding gate-mode refers to zone controller and controls under cbtc pattern Shield door, under non-cbtc pattern, does not then control shield door

In one embodiment, described zone controller takes different shield door control mode bags according to signal mode Include:

Described zone controller judges whether described signal mode is in cbtc pattern, if being in cbtc pattern, executes Described control shield door flow process；If described zone controller is in non-cbtc pattern, described zone controller refuses vehicle-mounted atp Switch shield door request.

In one embodiment, described control shield door flow process includes:

Described vehicle-mounted atp sends switch shield door request to described zone controller, wherein comes to a complete stop when operation train enters the station Afterwards, described vehicle-mounted atp sends out shield door request to described zone controller；When runing train preparation and being leaving from station, described vehicle-mounted Atp sends pass shield door request to described zone controller；

Described zone controller assigns switch shield door order according to described switch shield door request；

Described zone controller according to shield door secure configuration file real-time judge shield door safe condition, wherein, if screen Cover and there is safety problem, then described zone controller executes troubleshooting measure；If there is not safety problem in described shield door, Then shield door control process terminates.

In one embodiment, the multiple non-safety factor of definable in described configuration file.

In one embodiment, the plurality of non-safety factor at least includes one of following or many persons: shield door opens the door Time-out, shield door are closed the door time-out.

In one embodiment, each non-safety factor all has activation or inactive two states, many under synchronization Individual non-safety factor can be state of activation, is configured according to the demand of user.

In one embodiment, described multiple shielding gate-mode each has activation and inactive two states, same When inscribe and can only have a kind of shielding gate-mode activation.

In one embodiment, between step a and b, further comprising the steps of:

Described zone controller system initialization, zone controller system reads CONFIG.SYS.

Described zone controller carries out function initialization according to CONFIG.SYS.

To sum up, the present invention has the advantage that compared to existing zone controller

First, zone controller compatible control/do not control shield door, shielding can be shifted according to zone controller signal mode Gate control is weighed, and can realize the combination of shield door non-secure states using configuration file, enhances zone controller in shield door The suitability in control function.

Secondly, according to project demands flexible configuration it is not necessary to carrying out the exploitation again of shield door control function or reducing code Modification amount.

Brief description

The above content of the invention of the present invention and detailed description below can obtain when being read in conjunction with the accompanying more preferably Understanding.It should be noted that accompanying drawing is only used as the example of claimed invention.In the accompanying drawings, identical reference Represent same or similar element.

Fig. 1 illustrates that the zone controller (zc) under single-mode controls shield door process；And

Fig. 2 illustrates the worked of the zone controller with multiple shielding gate-modes according to an embodiment of the invention Journey.

Specific embodiment

Hereinafter detailed features and the advantage of the present invention are described in a specific embodiment in detail, its content is any enough to make Skilled in the art realises that technology contents of the present invention implementing according to this, and the description according to disclosed by this specification, power Profit requires and accompanying drawing, skilled person readily understands that the related purpose of the present invention and advantage.

Fig. 1 illustrates that the zone controller (zc) under single-mode controls shield door flow process.

Step 101: earthward equipment (such as zone controller) sends switch shield door request to vehicle-mounted atp system.Specifically Ground, when run train enter the station come to a complete stop after, vehicle-mounted atp can earthward equipment send hold shield door request；When operation train prepare from When standing, vehicle-mounted atp earthward can send pass shield door request by equipment.

Step 102: zone controller receives vehicle-mounted atp switch shield door request.

Step 103: zone controller, according to the switch shield door request receiving, assigns switch shield door order.

Step 104: the safe condition of zone controller real-time monitoring shield door, and judge platform screen door whether safety.

Step 105: if platform screen door has safety problem, zone controller executes troubleshooting measure.

Step 106: if platform screen door does not have safety problem, shield door control process terminates.

Traditional zone controller is only capable of working under above-mentioned single mode of operation (controlling shield door), the present invention's Zone controller but can switch under different mode of operations and work.

In one embodiment, the present invention arranges three kinds of shielding gate-modes in configuration file.Three kinds of shielding gates Molding formula is respectively as follows:

1) control Platform Screen Door；

2) do not control Platform Screen Door

3) transfer shielding gate-mode.

For the third " transfer shielding gate-mode ", refer to zone controller and control shielding under cbtc pattern Door, under non-cbtc pattern, does not then control shield door.

The above-mentioned each own activation of three kinds of control models and inactive two states, but can only there is a kind of mould under synchronization Formula activates.When zone controller is in transfer shielding gate-mode, if signal mode changes in running, area Domain controller takes corresponding shield door control mode according to signal mode.

In another embodiment, multiple non-safety factors defined in configuration file are (such as: shield door opens the door super simultaneously When, shield door closes the door time-out etc.), each non-safety factor all has activation or inactive two states, multiple under synchronization Non-safety factor can be state of activation, is configured according to the demand of user.

In short, the invention has the characteristics that:

First, zone controller compatible control/do not control shield door, and screen can be shifted according to zone controller signal mode Cover gate control power；

Secondly, zone controller is realized control/not controlling shield door/transfer shielding gate control using CONFIG.SYS Power；

Again, zone controller realizes the combination of shield door non-secure states using configuration file.

Fig. 2 illustrates the worked of the zone controller with multiple shielding gate-modes according to an embodiment of the invention Journey.

CONFIG.SYS is read, it is right according to the control model of configuration, shield door to be taken after zone controller system start-up The control mode answered.When zone controller controls shield door, and shielding door state is the non-secure states of configuration, zone controller Execution troubleshooting measure.In conjunction with Fig. 2, specific implementation step of the present invention is as follows.

Step 201: CONFIG.SYS is configured.Shielding gate-mode is set to three kinds: control shield door Pattern；Do not control Platform Screen Door；Transfer shielding gate-mode.

Wherein, for the third " transfer shielding gate-mode ", refer to zone controller and control under cbtc pattern Shield door, under non-cbtc pattern, does not then control shield door.

Step 202: zone controller system initialization, zone controller system reads CONFIG.SYS.

Step 203: zone controller carries out function initialization according to CONFIG.SYS.

Step 204: zone controller judges whether to be in control Platform Screen Door.If being in control Platform Screen Door, Execution step 210-214.If being not at controlling Platform Screen Door, execution step 205.

Step 205: zone controller judges whether to be in transfer shielding gate-mode.If being in transfer shielding gate control Pattern, then execution step 206, that is, zone controller different shield door control modes are taken according to signal mode.If being in non- Transfer shielding gate-mode, then execution step 207.

Step 206: zone controller judges whether signal mode is in cbtc pattern, if being in cbtc pattern, executes Step 210-214；If zone controller is in non-cbtc pattern, execution step 208.

Step 207: zone controller judges whether to be in non-controlling Platform Screen Door, if be in non-controlling shield door mould Formula, then execution step 208.If being not at non-controlling Platform Screen Door, execution step 209.

Step 208: the vehicle-mounted atp switch shield door request of zone controller refusal, flow process terminates.

Step 209: when zone controller is not at above-mentioned three kinds of shielding gate-modes, then zone controller is delayed machine.

Step 210: zone controller receives the switch shield door request that vehicle-mounted atp system sends (step 211).

Step 212: zone controller assigns switch shield door order.

Step 213: zone controller judges shield door safe condition according to shield door secure configuration file.Wherein, in peace The multiple non-safety factor of definable (such as: time-out etc. that shield door enabling is overtime, shield door is closed the door), each non-peace in full configuration file Total factor all has activation or inactive two states, and under synchronization, multiple non-safety factors can be state of activation, according to The demand of user is configured.If shield door is in a safe condition, flow process terminates.If shield door is in non-security shape State, then execution step 214.

Step 214: zone controller execution troubleshooting measure.

Here the term adopting and form of presentation are only intended to describe, and the present invention should not be limited to these terms and table State.It is not meant to exclude any equivalent features illustrated and describe (or wherein part) using these terms and statement, should recognize Know various modification that may be present also should comprise within the scope of the claims.Other modifications, variations and alternatives also likely to be present. Accordingly, claim should be regarded as covering all these equivalents.

Equally it should be pointed out that although the present invention to describe with reference to current specific embodiment, this technology is led Those of ordinary skill in domain is it should be appreciated that above embodiment is intended merely to the present invention is described, without departing from the present invention Various equivalent change or replacement also can be made, therefore, as long as right in the spirit of the present invention in the case of spirit The change of above-described embodiment, modification all will fall in the range of following claims.

Claims (9)

1. a kind of implementation method of the zone controllers with multiple shielding gate-modes is it is characterised in that methods described bag Include following steps:

A: in CONFIG.SYS, by shielding gate-mode be set to control Platform Screen Door, do not control Platform Screen Door, Transfer shielding gate-mode；

B: described zone controller judges whether to be in control Platform Screen Door, if being in control Platform Screen Door, executes control Shield door flow process processed；If being not at controlling Platform Screen Door, execution step c；

C: described zone controller judges whether to be in transfer shielding gate-mode, if being in transfer shielding gate-mode, Then different shield door control modes are taken according to signal mode；If being in non-diverting shielding gate-mode, execution step d；

D: described zone controller judges whether to be in non-controlling Platform Screen Door, if being in non-controlling Platform Screen Door, refuses Vehicle-mounted absolutely atp switch shield door request；If being not at non-controlling Platform Screen Door, zone controller is delayed machine.

2. implementation method as claimed in claim 1 is it is characterised in that described transfer shielding gate-mode refers to region control Device processed controls shield door under cbtc pattern, under non-cbtc pattern, does not then control shield door.

3. implementation method as claimed in claim 1 is it is characterised in that described zone controller takes difference according to signal mode Shield door control mode include:

Described zone controller judges whether described signal mode is in cbtc pattern, if being in cbtc pattern, execution is described Control shield door flow process；If described zone controller is in non-cbtc pattern, described zone controller refuses vehicle-mounted atp switch Shield door is asked.

4. implementation method as claimed in claim 1 is it is characterised in that described control shield door flow process includes:

Described vehicle-mounted atp sends switch shield door request to described zone controller, wherein after operation train enters the station and comes to a complete stop, institute State vehicle-mounted atp and send out shield door request to described zone controller；When run train prepare leaving from station when, described vehicle-mounted atp to Described zone controller sends pass shield door request；

Described zone controller assigns switch shield door order according to described switch shield door request；

Described zone controller according to shield door secure configuration file real-time judge shield door safe condition, wherein, if shield door There is safety problem, then described zone controller executes troubleshooting measure；If described shield door does not have safety problem, shield Cover gate control process to terminate.

5. implementation method as claimed in claim 4 it is characterised in that in described configuration file definable multiple non-security because Element.

6. implementation method as claimed in claim 5 is it is characterised in that the plurality of non-safety factor at least includes following one Person or many persons: time-out that shield door enabling is overtime, shield door is closed the door.

7. implementation method as claimed in claim 5 is it is characterised in that each non-safety factor all has activation or inactive two The state of kind, under synchronization, multiple non-safety factors can be state of activation, is configured according to the demand of user.

8. implementation method as claimed in claim 1 it is characterised in that described multiple shielding gate-mode each have activation and Inactive two states, can only have a kind of shielding gate-mode activation under synchronization.

9. implementation method as claimed in claim 1 is it is characterised in that between step a and b, further comprising the steps of:

Described zone controller system initialization, zone controller system reads CONFIG.SYS.

Described zone controller carries out function initialization according to CONFIG.SYS.