CN115402382A - Logic inspection system for occupation of unattended station area and use method - Google Patents

Abstract

The invention discloses an occupancy logic check system of an unattended station area and a using method thereof, wherein the occupancy logic check system comprises: the interval comprehensive monitoring system is arranged at the unattended station and is used for carrying out interval occupation logical check on the unattended station; the remote manual unlocking disc is arranged at the manned station, is connected with the comprehensive interval monitoring system and is used for sending a first occupation detection command to the comprehensive interval monitoring system so as to remotely control the logical interval occupation detection of the unmanned station; and the local manual unlocking disc is arranged at the unattended station, is connected with the interval comprehensive monitoring system and is used for sending a second occupation command to the interval comprehensive monitoring system when the remote manual unlocking disc is abnormally connected with the interval comprehensive monitoring system so as to locally control the interval occupation logic inspection of the unattended station. The invention can complete the logic check of the interval occupation of the unattended station on the basis of not additionally arranging the staff of the unattended station.

Description

Logic inspection system for occupation of unattended station area and use method

Technical Field

The invention relates to the technical field of rail transit, in particular to a logic inspection system for occupation of an unmanned vehicle-guarding station region and a using method thereof.

Background

For the ordinary speed railway, stations with a section occupation logic check function are usually arranged along the railway to judge whether trains occupy the track sections, so that the running safety of the trains is ensured. A manual unlocking disc is generally arranged in the station, so that station workers can control the interval occupation logic inspection function by operating the manual unlocking disc.

However, for some railway stations, especially for stations without shunting or train operation requirement in most cases, in order to achieve the purpose of reducing personnel and increasing efficiency, the station workers can not be arranged on the stations, and the stations become unattended stations. For an unattended station, no worker operates the manual unlocking disc, the control of the interval occupation logic check function cannot be realized, and the adverse effect on the safe operation of the train is easily caused.

Disclosure of Invention

The invention aims to provide a system and a method for logically checking the occupation of an unattended station interval, which can complete logical checking of the occupation of the unattended station interval on the basis of not additionally arranging workers of the unattended station, thereby reducing the number of workers and improving the efficiency and simultaneously ensuring the safe operation of a train.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an occupancy logic check system for an unattended bus station area, comprising:

the comprehensive interval monitoring system is arranged at an unattended station and is used for carrying out interval occupation logical check on the unattended station;

the remote manual unlocking disc is arranged at the manned station, is connected with the interval comprehensive monitoring system and is used for sending a first occupation detection command to the interval comprehensive monitoring system so as to remotely control the interval occupation logic inspection of the unmanned station; and

and the local manual unlocking disc is arranged in the unattended station, is connected with the interval comprehensive monitoring system and is used for sending a second occupation and detection command to the interval comprehensive monitoring system when the remote manual unlocking disc is abnormally connected with the interval comprehensive monitoring system so as to locally control the interval occupation logic inspection of the unattended station.

Preferably, when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication, the remote manual unlocking disc acquires the control right of the interval comprehensive monitoring system so as to remotely control the interval occupation logic check of the unattended station;

and when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system, the local manual unlocking disc acquires the control right of the interval comprehensive monitoring system so as to locally control the interval occupation logic check of the unattended station.

Preferably, a first authorization button and a first occupation and inspection button are arranged on the remote manual unlocking disc;

the first authorization button is used for sending a remote control command or a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system;

the first occupation and inspection button is used for sending the first occupation and inspection command to the interval comprehensive monitoring system; and the first occupation detection command comprises a first occupation detection starting command and a first occupation detection closing command.

Preferably, a second authorization button, a second occupation and inspection button and an occupation and inspection relay are arranged on the local manual unlocking disk;

the second authorization button is used for sending a second local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system;

the second occupation detection button is used for controlling the state of the occupation detection relay, so that the interval comprehensive monitoring system can obtain the second occupation detection command according to the state of the occupation detection relay.

Preferably, the state of the occupancy relay includes drop and suck; the second occupation detection command comprises a second occupation detection starting command or a second occupation detection closing command; and the interval comprehensive monitoring system acquires the second opening occupation detection command according to the falling state of the occupation detection relay and acquires the second closing occupation detection command according to the sucking state of the occupation detection relay.

Preferably, the remote control command enables the remote manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

the first local control command and the second local control command enable the local manual unlocking disk to acquire the control right of the interval comprehensive monitoring system;

the first starting occupation detection command and the second starting occupation detection command enable the interval comprehensive monitoring system to start interval occupation logical inspection on the unattended station;

and the first occupation closing command and the second occupation closing command enable the interval comprehensive monitoring system to finish the interval occupation logic check of the unattended station.

Preferably, a first manual unlocking button is further arranged on the remote manual unlocking disc, and a second manual unlocking button is further arranged on the local manual unlocking disc;

the first manual unlocking button and the second manual unlocking button are both used for sending manual unlocking commands to the comprehensive interval monitoring system, so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

Preferably, the remote manual unlocking disk and the local manual unlocking disk are in communication connection with the interval comprehensive monitoring system through RS-422 cables.

In another aspect, the present invention further provides a method for using the above system for checking occupancy logic of an unattended station area, including:

enabling a remote manual unlocking disc to send a first occupation detection command to an interval comprehensive monitoring system so as to remotely control interval occupation logic inspection of an unattended station when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication;

and sending a second occupation detection command to the interval comprehensive monitoring system by using a local manual unlocking disc so as to locally control the interval occupation logic check of the unattended station when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system.

Preferably, the step of enabling the remote manual unlocking disk to send the first occupation detection command to the interval comprehensive monitoring system includes:

enabling the remote manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

pressing a first occupation and inspection button, and sending a first occupation and inspection starting command to the comprehensive inter-zone monitoring system so that the comprehensive inter-zone monitoring system starts to carry out logical inter-zone occupation inspection on the unattended station;

and lifting the first occupation detection button, and sending a first occupation detection closing command to the interval comprehensive monitoring system so as to enable the interval comprehensive monitoring system to finish the interval occupation logical check of the unattended station.

Preferably, the step of enabling the remote manual unlocking disk to send the first occupation detection command to the interval comprehensive monitoring system further includes:

and pressing a first manual unlocking button, and sending a first manual unlocking command to the comprehensive interval monitoring system so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

Preferably, the step of enabling the local manual unlocking disk to send the second occupation detection command to the interval comprehensive monitoring system includes:

enabling the local manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

pressing a second occupation detection button to control an occupation detection relay to fall down, so that the interval comprehensive monitoring system obtains a second occupation detection starting command to start interval occupation logical detection on the unattended station;

and lifting the second occupation detection button, controlling the occupation detection relay to suck up, and enabling the interval comprehensive monitoring system to acquire a second occupation detection closing command so as to finish the interval occupation logical check of the unattended station.

Preferably, the step of enabling the local manual unlocking disk to send the second occupation detection command to the section comprehensive monitoring system further includes:

and pressing a second manual unlocking button, and sending a second manual unlocking command to the comprehensive interval monitoring system so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

Preferably, the communication priority between the remote manual unlocking disk and the interval integrated monitoring system is higher than the communication priority between the local manual unlocking disk and the interval integrated monitoring system.

Preferably, when the remote manual unlocking disk and the comprehensive interval monitoring system are in normal communication, the remote manual unlocking disk automatically acquires the control right of the comprehensive interval monitoring system;

and when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system, a second authorization button is pressed on the local manual unlocking disc, and a second local control command is sent to the interval comprehensive monitoring system, so that the local manual unlocking disc acquires the control right of the interval comprehensive monitoring system.

Preferably, the use method of the unattended station inter-zone occupancy logic check system further includes: when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication, switching the control right of the interval comprehensive monitoring system between the remote manual unlocking disc and the local manual unlocking disc; and the step of switching comprises:

pressing a first authorization button on the remote manual unlocking disc, and sending a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system from the remote manual unlocking disc to the local manual unlocking disc;

and lifting the first authorization button, and sending a remote control command to the comprehensive interval monitoring system so as to switch the control right of the comprehensive interval monitoring system from the local manual unlocking disk to the remote manual unlocking disk.

Compared with the prior art, the invention has at least one of the following advantages:

according to the logic checking system and the using method for the occupation of the unattended station interval, provided by the invention, the remote manual unlocking disc arranged on the manned station can send a first occupation checking command to the interval comprehensive monitoring system arranged on the unmanned station so as to remotely control the logic checking of the occupation of the unattended station interval, so that the logic checking of the occupation of the unattended station interval can be completed on the basis of not adding workers of the unattended station, and the safe operation of a train can be effectively ensured while the efficiency is increased by reducing the number of workers.

The unattended station is also provided with a local manual unlocking disc, and a second occupation detection command can be sent to the comprehensive interval monitoring system when the remote manual unlocking disc is abnormally communicated with the comprehensive interval monitoring system so as to locally control the logic detection of the occupation of the interval of the unattended station, thereby improving the reliability of the logic detection system of the occupation of the interval of the unattended station and further ensuring the safe operation of the train.

According to the invention, the control rights of the remote manual unlocking disk and the local manual unlocking disk to the comprehensive interval monitoring system are mutually exclusive, so that the source of the comprehensive interval monitoring system for receiving the occupation detection command, the control command or the manual unlocking command has uniqueness, and the safety of the logic occupation inspection system in the unattended station area is ensured.

According to the invention, the remote manual unlocking disc is connected with the interval comprehensive monitoring system in a communication mode, a first opening occupation detection command or a first closing occupation detection command can be directly sent to the interval comprehensive monitoring system, and an occupation detection relay does not need to be additionally arranged, so that the effect of saving the relay and the cable can be achieved while the interval occupation logic detection function is controlled.

Drawings

Fig. 1 is a schematic structural diagram of an occupancy logic check system for an unattended bus station area according to an embodiment of the present invention.

Detailed Description

The following describes in detail an occupancy logic check system and a usage method for an unattended bus-station area according to the present invention with reference to the accompanying drawings and the detailed description. The advantages and features of the present invention will become more apparent from the following description. It is to be noted that the drawings are in a very simplified form and are all used in a non-precise scale for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention. To make the objects, features and advantages of the present invention comprehensible, reference is made to the accompanying drawings. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the implementation conditions of the present invention, so that the present invention has no technical significance, and any structural modification, ratio relationship change or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

As shown in fig. 1, the present embodiment provides a system for checking occupancy logic of an unattended bus station area, including: the comprehensive interval monitoring system is arranged at an unattended station and is used for carrying out interval occupation logical check on the unattended station; the remote manual unlocking disc is arranged at the manned station, is connected with the interval comprehensive monitoring system and is used for sending a first occupation detection command to the interval comprehensive monitoring system so as to remotely control the interval occupation logic inspection of the unmanned station; and the local manual unlocking disc is arranged at the unattended station, is connected with the interval comprehensive monitoring system and is used for sending a second occupation detection command to the interval comprehensive monitoring system when the remote manual unlocking disc is abnormally connected with the interval comprehensive monitoring system so as to locally control the interval occupation logic detection of the unattended station. Preferably, the remote manual unlocking disk and the local manual unlocking disk are in communication connection with the interval comprehensive monitoring system through RS-422 cables; the manned vehicle-keeping station is adjacent to the unmanned vehicle-keeping station, and workers reside in the manned vehicle-keeping station.

Referring to fig. 1, when the remote manual unlocking dial is in normal communication with the section integrated monitoring system, the remote manual unlocking dial obtains the control right of the section integrated monitoring system to remotely control the section occupation logic check of the unattended station; and when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system, the local manual unlocking disc acquires the control right of the interval comprehensive monitoring system so as to locally control the interval occupation logic check of the unattended station.

It can be understood that a first authorization button and a first occupation and inspection button are arranged on the remote manual unlocking disc; the first authorization button is used for sending a remote control command or a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system; the first occupation and inspection button is used for sending the first occupation and inspection command to the interval comprehensive monitoring system; and the first occupation detecting command comprises a first opening occupation detecting command and a first closing occupation detecting command.

The remote control command enables the remote manual unlocking disc to obtain the control right of the interval comprehensive monitoring system; the first local control command enables the local manual unlocking disk to acquire the control right of the interval comprehensive monitoring system; the first occupation starting command enables the comprehensive interval monitoring system to start to carry out interval occupation logical inspection on the unattended station; and the first occupation closing command enables the interval comprehensive monitoring system to finish the logical examination of the interval occupation of the unattended station.

Specifically, the communication priority between the remote manual unlocking disk and the regional integrated monitoring system is higher than that between the local manual unlocking disk and the regional integrated monitoring system, when the remote manual unlocking disk and the regional integrated monitoring system are in normal communication, the regional integrated control system can automatically select to communicate with the remote manual unlocking disk, so that the remote manual unlocking disk automatically acquires the control right of the regional integrated monitoring system, the remote manual unlocking disk can remotely control the regional integrated monitoring system, and the remote control of the regional occupation logic check of the unattended station is realized; and the local manual unlocking disk has no control right at this time, but the invention is not limited thereto.

In this embodiment, long-range artifical unblock dish acquires after regional integrated monitoring system's the control right, staff in the manned guard station is through the operation long-range artifical unblock dish can be right the interval of unmanned on duty station occupies the logic inspection and carries out remote control to can accomplish the interval of unmanned on duty station and occupy the logic inspection on the basis of the staff who does not add unmanned on duty station, and then effectively guarantee the safe operation of train when reducing the increase of personnel. More specifically, a worker presses the first occupation detection button on the remote manual unlocking disc in the manned station, and the first occupation detection starting command can be sent to the interval comprehensive monitoring system arranged in the unmanned station through a first communication interface; after the comprehensive interval monitoring system receives the first occupation starting command, the comprehensive interval monitoring system starts to perform logical interval occupation check on the unattended station; after the check is finished, the first occupation detection button is lifted by the staff in the manned station, and the first occupation detection closing command can be sent to the interval comprehensive monitoring system; and after receiving the first occupation closing command, the comprehensive interval monitoring system finishes logical interval occupation checking on the unattended station.

Specifically, in this embodiment, a first manual unlocking button is further disposed on the remote manual unlocking disk, and is used for sending a first manual unlocking command to the comprehensive interval monitoring system, so that the comprehensive interval monitoring system relieves a poor shunting state of the segment. More specifically, after the remote manual unlocking disk obtains the control right of the comprehensive inter-zone monitoring system, if a bad inter-zone shunting section needs to be unlocked, a worker in the manned station can press a first manual unlocking button of a corresponding section on the remote manual unlocking disk so as to send the first manual unlocking command to the comprehensive inter-zone monitoring system through the first communication interface; and after receiving the first manual unlocking command, the comprehensive interval monitoring system releases the bad shunting state of the corresponding section, but the invention is not limited to this.

With continued reference to fig. 1, a second authorization button, a second occupation and inspection button and an occupation and inspection relay are arranged on the local manual unlocking disk; the second authorization button is used for sending a second local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system; the second occupation detection button is used for controlling the state of the occupation detection relay, so that the interval comprehensive monitoring system can obtain the second occupation detection command according to the state of the occupation detection relay.

It is understood that the states of the occupancy relay include drop and suck; the second occupation detection command comprises a second occupation detection starting command or a second occupation detection closing command; and the interval comprehensive monitoring system acquires the second opening occupation detection command according to the falling state of the occupation detection relay and acquires the second closing occupation detection command according to the sucking state of the occupation detection relay.

It can be understood that the second local control command enables the local manual unlocking disk to acquire the control right of the inter-zone integrated monitoring system; the second starting occupation detection command enables the interval comprehensive monitoring system to start interval occupation logical detection on the unattended station; and the second occupation closing command enables the interval comprehensive monitoring system to finish the interval occupation logical check of the unattended station.

Specifically, when the remote manual unlocking disc is abnormal or fails in communication with the comprehensive interval monitoring system, the remote manual unlocking disc cannot remotely control the comprehensive interval monitoring system, and cannot continuously remotely control the logic check of the interval occupation of the unattended station; at this time, a person may be temporarily assigned to the unattended station to operate the local manual unlocking disk, so that the local manual unlocking disk obtains the control right of the section comprehensive monitoring system, and can locally control the section comprehensive monitoring system, thereby implementing local control on section occupation logic inspection of the unattended station, and further effectively improving reliability of the section occupation logic inspection system of the unattended station, but the invention is not limited thereto.

More specifically, after the temporarily-increased personnel reach the unattended station, the second authorization button may be pressed on the local manual unlocking disk to send the second local control command to the inter-zone comprehensive monitoring system; when the comprehensive interval monitoring system receives the second local control command, the local manual unlocking disk is authorized, so that the local manual unlocking disk can acquire the control right of the comprehensive interval monitoring system; and the remote manual unlocking disk has no control right at the moment. Preferably, the second authorization button is a non-self-resetting button with a lead seal and a light indicator, but the invention is not limited thereto.

In this embodiment, after the local manual unlocking disk obtains the control right of the comprehensive inter-zone monitoring system, temporarily added personnel press the second occupancy detection button on the local manual unlocking disk in the unattended station to control the occupancy detection relay to fall down; the section comprehensive monitoring system acquires the second starting occupation detection command when acquiring the falling state of the occupation detection relay so as to start section occupation logical detection on the unattended station; after the inspection is finished, temporarily increasing and dispatching personnel lift the second inspection button to control the inspection relay to suck; and the interval comprehensive monitoring system acquires the second occupation closing command if acquiring the suction state of the occupation detection relay so as to finish the interval occupation logic inspection of the unattended station.

Specifically, in this embodiment, a second manual unlocking button is further disposed on the local manual unlocking disk, and is used for sending a second manual unlocking command to the comprehensive interval monitoring system, so that the comprehensive interval monitoring system can relieve a poor shunting state of the section. More specifically, after the local manual unlocking disk obtains the control right of the comprehensive interval monitoring system, if a bad shunting section of an interval needs to be unlocked, temporarily distributed personnel press a second manual unlocking button of a corresponding section on the remote manual unlocking disk in the unattended station so as to send a second manual unlocking command to the comprehensive interval monitoring system through a second communication interface; and after receiving the second manual unlocking command, the comprehensive interval monitoring system releases the bad shunting state of the corresponding section, but the invention is not limited to this.

Specifically, in this embodiment, after the inspection of each item of the unattended station is completed or the communication fault between the remote manual unlocking disk and the section integrated monitoring system is solved, the personnel temporarily assigned to the unattended station may be removed and the second authorization button may be lifted up to be reset. More specifically, after the communication between the remote manual unlocking dial and the comprehensive interval monitoring system is recovered to normal, because the communication priority between the remote manual unlocking dial and the comprehensive interval monitoring system is higher, the control right of the comprehensive interval monitoring system is automatically switched from the local manual unlocking dial to the remote manual unlocking dial, but the invention is not limited thereto.

In addition, when the remote manual unlocking disk and the interval comprehensive monitoring system are in normal communication, the control right of the interval comprehensive monitoring system can be switched between the remote manual unlocking disk and the local manual unlocking disk according to actual requirements. More specifically, if the control right of the regional integrated monitoring system needs to be temporarily given to the local manual unlocking disk, a worker in the manned duty station can press the first authorization button on the remote manual unlocking disk to send the first local control command to the regional integrated monitoring system through the first communication interface; and when the interval comprehensive monitoring system receives the first local control command, authorizing the local manual unlocking disk, so that the control right of the interval comprehensive monitoring system is switched from the remote manual unlocking disk to the local manual unlocking disk, and at the moment, the remote manual unlocking disk has no control right. If the control right of the comprehensive interval monitoring system needs to be returned to the remote manual unlocking disk, a worker in the manned garage can lift the first authorization button on the remote manual unlocking disk so as to send the remote control command to the comprehensive interval monitoring system through the first communication interface; when the interval comprehensive monitoring system receives the remote control command, the local manual unlocking disk is subjected to authorization removal, the control right of the interval comprehensive monitoring system is switched back to the remote manual unlocking disk from the local manual unlocking disk, and at the moment, the local manual unlocking disk has no control right. Preferably, the first authorization button is also a non-self-resetting button with a lead seal and a light, but the invention is not limited thereto.

In this embodiment, the remote manual unlocking disk and the local manual unlocking disk are both provided with authorization lamps; when the remote manual unlocking disc has the control right of the interval comprehensive monitoring system, the authorization lamps on the remote manual unlocking disc and the local manual unlocking disc are all turned on to be green; when the local manual unlocking disc has the control right of the regional comprehensive monitoring system, red lights are turned on by authorization lights on the remote manual unlocking disc and the local manual unlocking disc, so that workers in the manned station and workers temporarily added to the unmanned station can know the specific control conditions of the remote manual unlocking disc and the local manual unlocking disc on the regional comprehensive monitoring system in time, misoperation is prevented, and the reliability of the logic inspection system occupied by the regional unattended station is effectively improved, but the invention is not limited by the situation.

On the other hand, the embodiment further provides a method for using the above unattended station inter-zone occupancy logic check system, including: s1, enabling a remote manual unlocking disc to send a first occupation detection command to an interval comprehensive monitoring system so as to remotely control interval occupation logic inspection of an unattended station when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication; and S2, enabling the local manual unlocking disc to send a second occupation detection command to the interval comprehensive monitoring system so as to locally control the interval occupation logic check of the unattended station when the communication between the remote manual unlocking disc and the interval comprehensive monitoring system is abnormal.

It is understood that the step S1 includes: enabling the remote manual unlocking disc to acquire the control right of the interval comprehensive monitoring system; pressing a first occupation and inspection button, and sending a first occupation and inspection starting command to the comprehensive inter-zone monitoring system so that the comprehensive inter-zone monitoring system starts to carry out logical inter-zone occupation inspection on the unattended station; and lifting the first occupation detection button, and sending a first occupation detection closing command to the interval comprehensive monitoring system so as to enable the interval comprehensive monitoring system to finish the interval occupation logical check of the unattended station.

In some embodiments, the step S1 further comprises: and pressing a first manual unlocking button, and sending a first manual unlocking command to the comprehensive interval monitoring system so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

Specifically, in this embodiment, the communication priority between the remote manual unlocking dial and the integrated inter-zone monitoring system is higher than the communication priority between the local manual unlocking dial and the integrated inter-zone monitoring system; when the remote manual unlocking disc is normally communicated with the interval comprehensive monitoring system, the interval comprehensive control system can automatically select to communicate with the remote manual unlocking disc, so that the remote manual unlocking disc automatically acquires the control right of the interval comprehensive monitoring system.

It is understood that the step S2 includes: enabling the local manual unlocking disc to acquire the control right of the interval comprehensive monitoring system; pressing a second occupation detection button to control an occupation detection relay to fall down, so that the interval comprehensive monitoring system obtains a second occupation detection starting command to start interval occupation logical detection on the unattended station; and lifting the second occupation detection button, controlling the occupation detection relay to suck up, and enabling the interval comprehensive monitoring system to acquire a second occupation detection closing command so as to finish the interval occupation logical check of the unattended station.

In some embodiments, the step S2 further comprises: and pressing a second manual unlocking button, and sending a second manual unlocking command to the comprehensive interval monitoring system so as to enable the comprehensive interval monitoring system to relieve the bad shunting state of the section.

Specifically, in this embodiment, when the remote manual unlocking dial is in abnormal communication with the integrated monitoring system for an interval, the second authorization button is pressed on the local manual unlocking dial, and a second local control command is sent to the integrated monitoring system for an interval, so that the local manual unlocking dial obtains the control right of the integrated monitoring system for an interval.

In addition, in this embodiment, when the remote manual unlocking disk and the section integrated monitoring system are in normal communication, the control right of the section integrated monitoring system can be switched between the remote manual unlocking disk and the local manual unlocking disk according to actual requirements; and the specific step of switching the control right of the interval comprehensive monitoring system between the remote manual unlocking disk and the local manual unlocking disk comprises the following steps: pressing a first authorization button on the remote manual unlocking disc, and sending a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system from the remote manual unlocking disc to the local manual unlocking disc; and lifting the first authorization button, and sending a remote control command to the comprehensive interval monitoring system so as to switch the control right of the comprehensive interval monitoring system from the local manual unlocking disk to the remote manual unlocking disk.

In summary, the present embodiment provides a system and a method for checking an occupancy logic of an unattended station area, where an area comprehensive monitoring system disposed at the unattended station can perform an area occupancy logic check on the unattended station; set up in the long-range artifical unblock dish of having the guard station of people can to the interval integrated monitoring system sends first occupation of inspection order to occupy the logic inspection and carry out remote control to the interval of unmanned on duty station, thereby can accomplish the interval of unmanned on duty station and occupy the logic inspection on the basis of the staff who does not add unmanned on duty station, and then effectively guarantee the safe operation of train when reducing the increase of personnel. In this embodiment, the unattended station is further provided with a local manual unlocking disc, and a second occupation detection command can be sent to the comprehensive interval monitoring system when the remote manual unlocking disc and the comprehensive interval monitoring system are abnormally communicated, so that the logic examination of occupation of the interval of the unattended station is locally controlled, the reliability of the logic examination system of occupation of the interval of the unattended station is improved, and the safe operation of a train is further ensured. In addition, in this embodiment, the control right of the remote manual unlocking disk and the control right of the local manual unlocking disk to the comprehensive inter-zone monitoring system are mutually exclusive, so that the source of the comprehensive inter-zone monitoring system receiving the occupation detection command, the control command or the manual unlocking command has uniqueness, thereby ensuring the safety of the logic inspection system for occupation of the unattended station inter-zone.

While the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above description should not be taken as limiting the invention. Various modifications and alterations to this invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be determined from the following claims.

Claims (16)

1. An occupancy logic check system for an unattended bus station area, comprising:

the comprehensive interval monitoring system is arranged at an unattended station and is used for carrying out interval occupation logical check on the unattended station;

the remote manual unlocking disc is arranged at the manned station, is connected with the interval comprehensive monitoring system and is used for sending a first occupation detection command to the interval comprehensive monitoring system so as to remotely control the interval occupation logic inspection of the unmanned station; and

and the local manual unlocking disc is arranged at the unattended station, is connected with the interval comprehensive monitoring system and is used for sending a second occupation and detection command to the interval comprehensive monitoring system when the remote manual unlocking disc is abnormally connected with the interval comprehensive monitoring system so as to locally control the interval occupation logic inspection of the unattended station.

2. The unattended station bay occupancy logic check system of claim 1,

when the remote manual unlocking disc is in normal communication with the interval comprehensive monitoring system, the remote manual unlocking disc acquires the control right of the interval comprehensive monitoring system so as to remotely control the interval occupation logic check of the unattended station;

and when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system, the local manual unlocking disc acquires the control right of the interval comprehensive monitoring system so as to locally control the interval occupation logic check of the unattended station.

3. The system according to claim 2, wherein the remote manual unlocking disk is provided with a first authorization button and a first occupation check button;

the first authorization button is used for sending a remote control command or a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system;

the first occupation and inspection button is used for sending the first occupation and inspection command to the interval comprehensive monitoring system; and the first occupation detecting command comprises a first opening occupation detecting command and a first closing occupation detecting command.

4. The system according to claim 3, wherein a second authorization button, a second occupancy check button and an occupancy check relay are arranged on the local manual unlocking disk;

the second authorization button is used for sending a second local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system;

and the second occupation and detection button is used for controlling the state of the occupation and detection relay so that the interval comprehensive monitoring system can obtain the second occupation and detection command according to the state of the occupation and detection relay.

5. The unattended station inter-bay occupancy logic inspection system according to claim 4, wherein the status of the occupancy relay includes drop and suck; the second occupation detection command comprises a second occupation detection starting command or a second occupation detection closing command; and the interval comprehensive monitoring system acquires the second opening occupation detection command according to the falling state of the occupation detection relay and acquires the second closing occupation detection command according to the sucking state of the occupation detection relay.

6. The unattended station bay occupancy logic check system of claim 5,

the remote control command enables the remote manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

the first local control command and the second local control command enable the local manual unlocking disk to acquire the control right of the interval comprehensive monitoring system;

the first starting occupation detection command and the second starting occupation detection command enable the interval comprehensive monitoring system to start interval occupation logical inspection on the unattended station;

and the first occupation closing and inspection command and the second occupation closing and inspection command enable the interval comprehensive monitoring system to finish the interval occupation logical inspection of the unattended station.

7. The system according to claim 6, wherein the remote manual unlocking dial further comprises a first manual unlocking button, and the local manual unlocking dial further comprises a second manual unlocking button;

the first manual unlocking button and the second manual unlocking button are both used for sending manual unlocking commands to the comprehensive interval monitoring system, so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

8. The system of claim 1, wherein the remote manual unlocking disk and the local manual unlocking disk are both communicatively coupled to the zonal integrated monitoring system via RS-422 cabling.

9. A method of using the unattended bus station inter-zone occupancy logic check system according to any one of claims 1 to 8, comprising:

enabling a remote manual unlocking disc to send a first occupation detection command to an interval comprehensive monitoring system so as to remotely control interval occupation logic inspection of an unattended station when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication;

and sending a second occupation detection command to the interval comprehensive monitoring system by using a local manual unlocking disc so as to locally control the interval occupation logic check of the unattended station when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system.

10. The method of using the unattended station inter-zone occupancy logic check system according to claim 9, wherein the step of causing the remote manual unlock disk to send the first occupancy command to the inter-zone integrated monitoring system comprises:

enabling the remote manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

pressing a first occupation and inspection button, and sending a first occupation and inspection starting command to the comprehensive inter-zone monitoring system so that the comprehensive inter-zone monitoring system starts to carry out logical inter-zone occupation inspection on the unattended station;

and lifting the first occupation detection button, and sending a first occupation detection closing command to the interval comprehensive monitoring system so as to enable the interval comprehensive monitoring system to finish the interval occupation logical check of the unattended station.

11. The method of using the unattended station inter-zone occupancy logic inspection system according to claim 10, wherein the step of causing the remote manual unlocking dial to send the first occupancy check command to the inter-zone integrated monitoring system further comprises:

and pressing a first manual unlocking button, and sending a first manual unlocking command to the comprehensive interval monitoring system so that the comprehensive interval monitoring system can relieve poor shunting states of the sections.

12. The method of using the unattended station inter-zone occupancy logic check system according to claim 9, wherein the step of causing the local manual unlock disk to send a second occupancy check command to the inter-zone integrated monitoring system comprises:

enabling the local manual unlocking disc to acquire the control right of the interval comprehensive monitoring system;

pressing a second occupation detection button to control an occupation detection relay to fall down, so that the interval comprehensive monitoring system obtains a second occupation detection starting command to start interval occupation logical detection on the unattended station;

and lifting the second occupation detection button, controlling the occupation detection relay to suck up, and enabling the interval comprehensive monitoring system to acquire a second occupation detection closing command so as to finish the interval occupation logic inspection of the unattended station.

13. The method of using the unattended station inter-zone occupancy logic inspection system according to claim 12, wherein the step of causing the local manual unlocking dial to send the second occupancy command to the inter-zone integrated monitoring system further comprises:

and pressing a second manual unlocking button, and sending a second manual unlocking command to the comprehensive interval monitoring system so as to enable the comprehensive interval monitoring system to relieve the bad shunting state of the section.

14. The method of claim 1, wherein the communication priority between the remote manual unlocking dial and the regional integrated monitoring system is higher than the communication priority between the local manual unlocking dial and the regional integrated monitoring system.

15. The method of using the unattended station inter-zone occupancy logic inspection system according to claim 14,

when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication, the remote manual unlocking disc automatically acquires the control right of the interval comprehensive monitoring system;

and when the remote manual unlocking disc is abnormally communicated with the interval comprehensive monitoring system, a second authorization button is pressed on the local manual unlocking disc, and a second local control command is sent to the interval comprehensive monitoring system, so that the local manual unlocking disc acquires the control right of the interval comprehensive monitoring system.

16. The method of using the unattended station bay occupancy logic check system according to claim 15, further comprising: when the remote manual unlocking disc and the interval comprehensive monitoring system are in normal communication, switching the control right of the interval comprehensive monitoring system between the remote manual unlocking disc and the local manual unlocking disc; and the step of switching comprises:

pressing a first authorization button on the remote manual unlocking disc, and sending a first local control command to the interval comprehensive monitoring system so as to switch the control right of the interval comprehensive monitoring system from the remote manual unlocking disc to the local manual unlocking disc;

and lifting the first authorization button, and sending a remote control command to the comprehensive interval monitoring system so as to switch the control right of the comprehensive interval monitoring system from the local manual unlocking disk to the remote manual unlocking disk.

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