CN115387263A

CN115387263A - Iron horse system and method for using same

Info

Publication number: CN115387263A
Application number: CN202211144495.6A
Authority: CN
Inventors: 张一鸣; 柏广伟; 刘晓岚; 魏宏; 李新泉
Original assignee: Communication Information Industry Co ltd
Current assignee: Communication Information Industry Co ltd
Priority date: 2022-09-20
Filing date: 2022-09-20
Publication date: 2022-11-25

Abstract

The present disclosure relates to a ferrosteel system and a method of using the same. This iron horse system includes: an iron horse bar provided with a moving bar for withdrawing and deploying the isolation belt, and having a deployed state in which the isolation belt is deployed and a retracted state in which the isolation belt is retracted; a communication unit that communicates with the hobbyhorse; and the iron horse rod responds to a command sent by the background management system through the communication unit to switch the moving rod between the unfolding state and the folding state. By providing the iron horse system and the method using the iron horse system, the setting state of the iron horse pole can be automatically calculated and adjusted, a large amount of manpower and time are saved, and the pedestrian flow passing path is quickly adjusted.

Description

Iron horse system and method for using same

Technical Field

The invention relates to an iron horse system and a method for using the same, in particular to an iron horse system with an automatic form adjustment function according to a preset scheme and a method for using the same.

Background

The iron horse is an unfixed important facility for passenger flow organization in large public places, is widely used in places with concentrated passenger flow, such as railway stations, subway stations, stadiums and the like, and mainly has the functions of dispersing and dredging the concentrated passenger flow, and can standardize the passenger flow order during peak periods to avoid the passenger flow hedging. Thereby ensuring the safety of passengers. Without the iron horse, the passenger flow is easy to be crowded, piled up and even stepped on, which causes personal, property and operation loss.

In order to avoid the above problems, different operation places need to be researched in different areas and time periods, different optimization schemes are adopted, the scheme is formulated for the number, length, placement time, placement position and the like of the iron horses, and a large amount of time and manpower are needed for repeated disassembly and assembly. In response to irregular and unplanned temporary large passenger flows, the iron horse device cannot be reasonably arranged in the operation place at the first time, and the operation place can be disordered under the conditions of large-scale activities, rainstorm, emergency and the like.

Disclosure of Invention

In order to solve at least one of the above problems, an iron horse system and a method using the iron horse system are provided, the iron horse system can automatically adjust the form according to a preset scheme, the iron horse system can adapt to various indoor places, particularly railway stations and subway stations, the orderly guidance of passenger flow is facilitated, the order of public places with large passenger flow is promoted to be good, and the operation safety is guaranteed.

According to an aspect of the present disclosure, there is provided a railway system, which may include: a bridge rod which may be provided with a moving rod to retract and deploy a barrier tape, and which may have a deployed state in which the barrier tape is deployed and a retracted state in which the barrier tape is retracted; a communication unit that can communicate with the hobbyhorse; and a back-office management system which can communicate with the communication unit, wherein the iron horse rod can make the moving rod switch between the unfolding state and the folding state in response to a command sent by the back-office management system through the communication unit.

Alternatively, the iron horse pole may include a base, a support main pole vertically arranged on the base, and a storage frame connected to the support main pole at an opposite side to the base, the storage frame having four storage grooves opened to four directions in a circumferential direction of the iron horse pole, respectively, the moving pole and the isolating band being contained in each storage groove, a lower end of the moving pole being pivotably connected to a lower end of the corresponding storage groove and an upper end of the moving pole being connected to one end of the corresponding isolating band, and the other end of the isolating band being contained inside the storage groove through an upper end of the corresponding storage groove, so that the moving pole can be switched between an expanded state in which the upper end of the moving pole is away from the corresponding storage groove and the isolating band is pulled out from the storage groove and a retracted state in which the moving pole and the isolating band are completely contained in the corresponding storage groove.

Alternatively, the moving rod can be unfolded and retracted through the action of a direct current motor, and the unfolding and retraction of the moving rod can be realized through controlling the starting and stopping of the direct current motor through wireless communication.

Alternatively, the other end of the separation belt may pass through the upper ends of the receiving grooves in a manner of straddling a driven shaft disposed at the upper ends of the respective receiving grooves, and the other end of the separation belt may be wound around the driven shaft disposed at the lower ends of the receiving grooves, and the driven shaft at the lower ends of the receiving grooves may be driven to rotate by the dc motor, thereby winding or unwinding the other end of the separation belt, and further, the moving rod may be retracted or unwound.

Optionally, the iron horse rod can be further provided with an acousto-optic indicator and a display device, and the base can be provided with an orientation mark.

Optionally, the hobbyhorse may operate the display device and/or the acousto-optic indicator in response to a command sent by the back office management system through the communication unit.

Optionally, the background management system may include a registration management module, a real-time management module, and a policy management module, and the registration management module may bind the hobby horse pole with the background management system and calibrate a set position of the hobby horse pole, thereby implementing group management and online management of the hobby horse pole; the real-time management module can set the unfolding state and the retracting state of each of the iron horse posts in real time, and calculates and adjusts the unfolding state and the retracting state of the iron horse posts in a mode of setting passenger flow passing paths; the policy management module may perform group management on a plurality of the hobby poles, and set the deployed state and the retracted state of the hobby poles according to time and a trigger condition.

According to another aspect of the present disclosure, there is provided a method of using a ferro-horse system, the method may include the steps of: binding each iron horse rod with a unique identification address in the background management system, and grouping the iron horse rods; the background management system is communicated with the iron horse post through the communication unit to inquire the state of the iron horse post; setting a preset scheme of a passenger flow passing path according to time and passenger flow change conditions through the background management system; when the preset scheme triggering condition is met, the background management system sends a corresponding command to the iron horse post through the communication unit according to the inquired state of the iron horse post; the iron horse rod may perform an action of bringing the moving rod into the deployed state or the retracted state in response to the corresponding command.

According to the iron horse system and the method using the iron horse system, the passing path can be set through the background management system, the setting state of the iron horse rod is automatically calculated and adjusted, a large amount of manpower and time are saved, and the pedestrian flow passing path is quickly adjusted.

Drawings

FIG. 1 is a schematic illustration of a ferrous horse system according to an exemplary embodiment of the present disclosure;

fig. 2 is a schematic view of a passenger flow transit path set by a hobbyhorse system according to an exemplary embodiment of the present disclosure.

FIG. 3a is a perspective view of the ferrous horse bar with the moving bar in a retracted state according to an exemplary embodiment of the present disclosure; and fig. 3b is a perspective view of the iron horse block with the moving bar in a deployed state, and showing an enlarged view toward the sign, according to an exemplary embodiment of the present disclosure;

FIG. 4 is a block schematic diagram illustrating the components of a control assembly of a Fermat rod in accordance with an exemplary embodiment of the present disclosure; and is provided with

Fig. 5 is a schematic view illustrating the principle of deploying and retracting an active rod of a horseshoe according to an exemplary embodiment of the present disclosure.

Description of reference numerals:

10. iron horse system

100. Iron horse pole

101. Base seat

102. Support main rod

103. Storage frame

104. Accommodating tank

105. Top cover

106. Acousto-optic indicator

107. Moving rod

108. Isolation belt

109. Display device

114. Orientation mark

116. Driving shaft

117. Transmission component

118. First driven shaft

119. Second driven shaft

120. Third driven shaft

300. Communication unit

400. Background management system

Detailed Description

In order that those skilled in the art will better understand the technical aspects of the present disclosure, exemplary embodiments will be described in detail below. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of systems and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Fig. 1 is a schematic illustration of a hobbyhorse system 10 according to an exemplary embodiment of the present disclosure. The iron horse system 10 includes: an iron horse bar 100 provided with a moving bar 107 retracting and deploying the isolation belt 108, and the moving bar 107 having a deployed state in which the isolation belt 108 is deployed and a retracted state in which the isolation belt 108 is retracted; a communication unit 300 communicating with the hobbyhorse 100; and a backend management system 400 in communication with the communication unit 300, the hobbyhorse 100 switching the moving bar 107 between the deployed state and the retracted state in response to a command sent by the backend management system 400 through the communication unit 300.

The background management system 400 is an operation management platform of the whole hobbyhorse system 10, and can inquire and set the real-time state of the hobbyhorse staff 100, or set different passenger flow passage path preset schemes and preset plans according to time and strategies. The management plans are set by the background management system 400, or the passenger flow passage paths are adjusted in real time through the real-time control management function, so that passages with different shapes and lengths are formed, the background management system 400 can calculate the state parameters of each iron horse post 100 in real time according to the set conditions, and the calculated control commands are transmitted to the corresponding iron horse posts 100 through the communication unit 300.

The backend management system 400 may have a graphical operating interface, for example. Background management system 400 may communicate with one or more communication units 300 over a local area network. In some embodiments, back office system 400 and communication unit 300 may also be connected to the internet.

The communication unit 300 is a communication relay apparatus managed for one or more groups of hobby poles 100, and each of the plurality of communication units 300 can communicate with a plurality of hobby poles 100. The communication unit 300 may have a wireless communication module by which the hobby horse 100 under the same network can be managed. The communication unit 300 may have a wireless internet of things communication transceiver, a wireless WiFi transceiver, and a wired network transceiver. The communication unit 300 may transmit and receive information of the background management system 400 through a local area network.

The hobbyhorse pole 100 is an intelligent fence device which is pre-installed in an operation place, can realize enclosure and enclosure release in four directions, namely front, back, left and right, and is connected with the communication unit 300 in a wireless communication mode. The iron horse posts 100 are arranged in groups, and each group of quantity can be a plurality of quantities according to the field environment and the operation requirements, and can be increased, decreased and adjusted in real time. The hobby poles 100 may have, for example, a wireless internet-of-things communication transceiver (for example, provided in a main control board to be mentioned later), and each hobby pole 100 has a unique identification address so as to be able to receive command information of the communication unit 300.

The release tape 108 may be any flexible tape such as a cloth tape, for example. When the moving rod 107 is in the unfolded state, the isolation belt 108 is unfolded to form a fence; and when the moving rod 107 is in the retracted state, the isolation belt 108 is retracted to form a passage for the passage of a passenger flow.

Referring to fig. 3a and 3b, fig. 3a is a perspective view of the iron horse bar 100 with the moving bar 107 in a retracted state according to an exemplary embodiment of the present disclosure; and fig. 3b is a perspective view of the iron horse bar 100 according to an exemplary embodiment of the present disclosure with the moving bar 107 in a deployed state, and fig. 3b shows an enlarged view toward the marker 114. In some embodiments, the hobby horse pole 100 includes a base 101, a support main pole 102 vertically arranged on the base 101, and a receiving frame 103 connected to the support main pole 102 at an opposite side to the base 101, the receiving frame 103 has four receiving grooves 104 respectively opened to four directions in a circumferential direction of the hobby horse pole 100, each receiving groove 104 receives therein a moving rod 107 and an isolation band 108, a lower end of the moving rod 107 is pivotably connected to a lower end of the corresponding receiving groove 104 and an upper end of the moving rod 107 is connected to one end of the corresponding isolation band 108, and the other end of the isolation band 108 is received inside the receiving groove 104 through an upper end of the corresponding receiving groove 104, so that the hobby horse pole 100 can switch the moving rod 107 between an expanded state in which the upper end of the moving rod 107 is away from the corresponding receiving groove 104 and the isolation band 108 is withdrawn, and a retracted state in which the moving rod 107 and the isolation band 108 are completely received in the corresponding receiving groove 104. In some embodiments, deployment and retraction of the moving rod 107 is achieved by the action of a dc motor and the deployment and retraction of the moving rod 107 is achieved by wireless communication control of the dc motor on and off.

In some embodiments, the top of the receiving frame 103 is mounted with an audible and visual indicator 106, and the outer peripheral side of the support main rod 102 is mounted with a display device 109. In some embodiments, a top cover 105 is mounted on top of the receiving frame 103 and an audible and visual indicator 106 is mounted on the top cover 105. The display device 109 may be, for example, a liquid crystal display. The back-office management system 400 may edit the text content to be displayed on the display device 109 to assist guidance of passenger flow and prompt of information when setting the management passage in a pre-arranged or real-time control manner. The acousto-optic indicator 106 is, for example, a red, yellow and green integrated three-color acousto-optic indicator, the light-up mode includes two modes of normally on and flashing, and the acousto-optic indicator includes a buzzer and is used for assisting to prompt the current state of the iron horse pole 100, including no-go, passing, warning, pole-lifting reminding and the like. In some embodiments, red normally on represents no traffic, green normally on represents traffic allowed, and yellow normally on represents a warning. For example, when the moving rod 107 of the iron horse 100 is opening, retracting, the audible indicator 106 is set to flash yellow light with a warning tone.

It should be understood that the arrangement positions of the above-mentioned acousto-optic indicator 106, display device 109 and orientation indicator 114 are not particularly limited, and may be arranged at any suitable position on the iron horse 100 as long as the respective functions thereof can be achieved.

In some embodiments, the hobbyhorse 100 can switch the moving bar 107 of each hobbyhorse 100 between the deployed state and the retracted state in response to a command sent by the back office management system 400 through the communication unit 300, for example, causing the retraction or deployment of the moving bar 107 in four directions. For example, two opposing moving bars 107 of four-directional moving bars 107 may be deployed, while the other two opposing moving bars 107 are retracted; for example, one moving bar 107 of four directions may be deployed while the other two moving bars 107 are retracted. It will be appreciated by those skilled in the art that each of the four directional moving bars 107 may be independently deployed or retracted to accommodate the requirements of the passenger flow channel path.

For example, fig. 2 shows a schematic view of a passenger flow transit path set by a railway system according to an exemplary embodiment of the present disclosure. The traffic path scheme of the background management system 400 according to time and policy setting is shown in fig. 2. According to the traffic route scheme, the hobby poles 100 need to form a winding and winding route. This circuitous path can be achieved by placing the ferrous horse bar 100 at the corresponding 14 points shown in the figure. The back office management system 400 sends commands to the respective hobby poles 100 regarding the deployment or retraction of the moving bars 107, for example, through the communication unit 300. For example, two opposing moving bars 107 of the number 07 hobbyhorse bar in fig. 2 are commanded to be deployed, while the other two opposing moving bars 107 are retracted; two adjacent moving bars 107 of the 08-iron horse bar are commanded to deploy while the other two adjacent moving bars 107 are retracted. In this way, a circuitous and tortuous path of the predetermined scheme may be accomplished.

In some embodiments, the hobbyhorse 107 may operate the display device 109 and/or the audible indicator 106 in response to commands sent by the backend management system 400 through the communication unit 300, for example, to enable text display of the display device 109 such as a liquid crystal display, enable lighting color, constant lighting, flashing and turning off of the audible indicator 106, and turning on and off of a buzzer.

The solution of the passenger flow passage path predetermined by the back office management system 400 is accomplished by the metro rod 100 causing the retraction or deployment of the four directional moving bars 107 and the operation of the display means 109 and/or the acousto-optic indicators 106 in response to commands sent by the back office management system 400 through the communication unit 300.

In some embodiments, the iron horse 100 may also include a control assembly. Fig. 5 shows a schematic diagram of a control assembly of a hobby horse 100 according to an exemplary embodiment of the present disclosure. The control assembly may be mounted, for example, on the interior of the support boom 102. The control assembly may, for example, be configured to control the moving rod 107 to switch between the deployed state and the retracted state. As shown in fig. 5, the control assembly may include a main control board, a dc motor, a transmission mechanism, and the like. In addition, a battery can be connected to the control assembly. The main control board of the control assembly may include: a single chip microcomputer; the power supply module is connected to the singlechip; a wireless communication module, a moving rod state feedback part and a dial switch which are connected to the singlechip; and a peripheral output loop connected with the singlechip. In addition, the main control board is connected to the liquid crystal display.

The following describes how the control assembly controls the moving rod 107 to switch between the deployed state and the retracted state. Referring to fig. 5, a schematic diagram of the principle of extending and retracting the moving rod 107 of the iron horse 100 is shown. The other end of the separator 108 passes through the upper end of the receiving groove 104 in such a manner as to straddle the driven shaft 119 disposed at the upper end of the corresponding receiving groove 104, and the other end of the separator 108 is wound on the driven shaft 118 disposed at the lower end of the receiving groove 104, and the driven shaft 118 at the lower end of the receiving groove 104 is rotated by the dc motor to wind or unwind the other end of the separator 108, thereby retracting or unwinding the moving rod 107.

More specifically, when the moving rod 107 is switched from the retracted state to the extended state, after the iron horse 100 receives an extension command, the main control board of the control assembly sends the extension command to a direct current motor (not shown in fig. 5), so that the direct current motor rotates, the rotation of the direct current motor drives the driving shaft 116 to rotate, and the transmission component 117 transmits the rotation of the driving shaft 116 to the first driven shaft 118. The transmission member 117 is shown in fig. 5 as a belt transmission, but it should be understood that the transmission member 117 may be any other transmission member suitable. One end of the spacer tape 108 is connected to the moving rod 107, and the other end is wound on the first driven shaft 118 across the second driven shaft 119 provided at the upper end of the accommodation groove 104. With the rotation of the first driven shaft 118 as described above, the release tape 108 wound around the first driven shaft 118 is released, so that the release tape 108 is lowered across the second driven shaft 119, thereby causing the moving rod 107 to fall around the third driven shaft 120 (only the position shown in the drawing) provided at the lower end of the accommodation groove 104. When the moving rod 107 is thus dropped into position, the moving rod 107 is in the deployed state. At this time, the unfolding state of the moving rod 107 is fed back to the main control board, and the main control board stops the operation of the dc motor, thereby completing the unfolding operation of the moving rod 107. When the moving lever 107 is switched from the deployed state to the retracted state, the above-described flow is reversely executed. That is, the main control board controls the dc motor to rotate in the opposite direction, winds the release tape 108 around the first driven shaft 118, and raises the moving rod 107, thereby putting the moving rod 107 in the retracted state. In some embodiments, the retraction and deployment of the moving rod 107 may be achieved by wirelessly controlling the start and stop of the dc motor.

In some embodiments, the background management system 400 includes a registration management module, a real-time management module, and a policy management module, and the registration management module binds the hobbyhorse 100 with the background management system 400 and numbers the hobbyhorse 100, thereby implementing group management and online management of the hobbyhorse 100; the real-time management module sets the unfolding state and the folding state of each of the metro poles 100 in real time, and calculates and adjusts the unfolding state and the folding state of the metro poles 100 in a passenger flow passing path setting mode; the strategy management module carries out grouping management on the plurality of the metro poles 100, and sets the expansion state and the retraction state of the metro poles 100 according to time and trigger conditions.

In some embodiments, the hobby horse system 10 of the present disclosure may be linked with a third party system, such as an intelligent video analysis system, a passenger flow detection system, or the like, to automatically optimize and adjust the transit route for passenger flow.

A method of using the iron horse system 10 according to the present disclosure is described in detail below. The method of using a ferrohorse system 10 according to the present disclosure generally includes the steps of: binding each hobby pole 100 with a unique identification address in the background management system 400, and grouping the hobby poles 100; the background management system 400 communicates with the hobbyhorse 100 through the communication unit 300 to inquire the state of the hobbyhorse 100; setting a preset scheme of a passenger flow passing path according to time and passenger flow change conditions through the background management system 400; when the preset scheme triggering condition is met, the background management system 400 sends a corresponding command to the iron horse pole 100 through the communication unit 300 according to the inquired state of the iron horse pole 100; the hobby bar 100 performs an action of bringing the movable bar 107 into the extended state or the retracted state in response to a corresponding command.

It should be understood that the wireless communication network between the background management system 400 and the communication unit 300, and between the communication unit 300 and the hobby horse 100 is not particularly limited, and may include one or more of a lora wireless communication network, a bluetooth wireless communication network, and a WiFi wireless communication network.

According to the metro rod intelligent control system 10, the passing path can be set through the background management system, the setting state of the intelligent metro rod is automatically calculated and adjusted, a large amount of manpower and time are saved, and the pedestrian flow passing path is quickly adjusted. The preset mode scheme can be set according to time, people flow quantity and the like, and reasonable and standard people flow guidance is quickly realized. The crowd counting data of the access control system, the gate system and the intelligent video analysis system can be collected, and the preset mode scheme is automatically executed according to the crowd quantity condition. The iron horse system 10 according to the present disclosure further has a real-time networking online function, and can perform real-time inquiry, control, management, and the like through different management terminals. The hobbyhorse pole 100 further has a wireless internet of things communication function, and network arrangement of equipment installation does not need to be considered. The invention has wide application range and can be used in railway stations, subway stations, stadiums, parks and other places.

It is to be understood that the above embodiments are merely exemplary embodiments employed to illustrate the principles of the present disclosure, and that the present disclosure is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, and these changes and modifications are to be considered within the scope of the disclosure.

Claims

1. A hobbyhorse system, characterized in that it comprises:

an iron horse bar provided with a moving bar to retract and deploy a separation belt, and the moving bar having a deployed state in which the separation belt is deployed and a retracted state in which the separation belt is retracted;

a communication unit in communication with the hobbyhorse; and

a background management system in communication with the communication unit,

the iron horse rod responds to a command sent by the background management system through the communication unit to enable the moving rod to be switched between the unfolding state and the folding state.

2. The iron horse system according to claim 1, characterized in that the iron horse bar comprises a base, a supporting main bar vertically arranged on the base, and a receiving frame connected to the supporting main bar at an opposite side to the base, the receiving frame having four receiving grooves respectively opened to four directions in a circumferential direction of the iron horse bar, each receiving groove receiving therein the moving bar and the isolating band, a lower end of the moving bar being pivotably connected to a lower end of the corresponding receiving groove and an upper end of the moving bar being connected to one end of the corresponding isolating band, and the other end of the separation tape is received inside the receiving groove through the upper end of the corresponding receiving groove, so that the moving rod can be switched between the expanded state in which the upper end of the moving rod is away from the corresponding receiving groove and the separation tape is pulled out from the receiving groove, and the retracted state in which the moving rod and the separation tape are completely received in the corresponding receiving groove.

3. The iron horse system according to claim 2, wherein the moving rod is deployed and retracted by action of a dc motor, and deployment and retraction of the moving rod is achieved by wireless communication control of the dc motor on and off.

4. A hobbyhorse system according to claim 3, wherein the other end of the separator passes through the upper ends of the receiving grooves in a manner straddling the driven shaft disposed at the upper end of the corresponding receiving groove, and the other end of the separator is wound around the driven shaft disposed at the lower end of the receiving groove, and the driven shaft at the lower end of the receiving groove is rotated by the dc motor to wind or unwind the other end of the separator, thereby retracting or unwinding the moving rod.

5. An iron horse system according to any one of claims 2 to 4, characterized in that the iron horse pole is further mounted with an acousto-optic indicator and display device, the base being provided with orientation markings.

6. A hobbyhorse system according to claim 5, wherein the hobbyhorse pole operates the display device and/or the acousto-optic indicator in response to commands sent by the back office management system through the communication unit.

7. The iron horse system according to claim 1, wherein the background management system comprises a registration management module, a real-time management module and a policy management module, the registration management module binds the iron horse post with the background management system and calibrates the set position of the iron horse post, thereby realizing the grouping management and online management of the iron horse post; the real-time management module sets the unfolding state and the retracting state of each of the iron horse posts in real time, and calculates and adjusts the unfolding state and the retracting state of the iron horse posts in a mode of setting passenger flow passing paths; the strategy management module carries out grouping management on the plurality of the ironclad rods, and the unfolding state and the folding state of the ironclad rods are set according to time and trigger conditions.

8. A method of using a ferro-horse system according to any one of the preceding claims, characterized in that the method comprises the steps of:

binding each iron horse rod with a unique identification address in the background management system, and grouping the iron horse rods;

the background management system is communicated with the iron horse pole through the communication unit so as to inquire the state of the iron horse pole;

setting a preset scheme of a passenger flow passing path according to time and passenger flow change conditions through the background management system;

when the preset scheme triggering condition is met, the background management system sends a corresponding command to the iron horse post through the communication unit according to the inquired state of the iron horse post;

the iron horse bar performs an action of bringing the moving bar into the deployed state or the retracted state in response to the corresponding command.