WO2004005101A1 - Light automatized elevated guideway transit system - Google Patents

Light automatized elevated guideway transit system Download PDF

Info

Publication number
WO2004005101A1
WO2004005101A1 PCT/CN2003/000432 CN0300432W WO2004005101A1 WO 2004005101 A1 WO2004005101 A1 WO 2004005101A1 CN 0300432 W CN0300432 W CN 0300432W WO 2004005101 A1 WO2004005101 A1 WO 2004005101A1
Authority
WO
WIPO (PCT)
Prior art keywords
rail
track
ultra
light
overhead
Prior art date
Application number
PCT/CN2003/000432
Other languages
French (fr)
Chinese (zh)
Inventor
Nanzheng Yang
Original Assignee
Ren, Hua
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ren, Hua filed Critical Ren, Hua
Priority to AU2003242199A priority Critical patent/AU2003242199A1/en
Publication of WO2004005101A1 publication Critical patent/WO2004005101A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61BRAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
    • B61B13/00Other railway systems

Definitions

  • the invention relates to an ultra-light overhead automatic rail transit system managed by a computer.
  • the existing urban transportation system faces a dilemma: a car transportation system that meets the requirements of door-to-door transportation and personalized travel (such as family cars, business cars, taxis, etc.), because it occupies more road resources, lower passenger carrying efficiency, and fuel consumption Large, serious environmental pollution, its unsustainable development, and does not meet the principle of "priority of efficiency, fairness and reasonable economic development”; while the integrated passenger transportation system (such as subway, etc.) with fast and large-capacity rail transportation as its main body, although in line with The above development principles are not conducive to sustainable development, but due to its large capital investment and long construction cycle, it is difficult to achieve a high coverage of the travel network by the line network, and it is impossible to achieve a "seamless service" between two or more modes of transportation. Meet door-to-door and personalized travel requirements.
  • the object of the present invention is to provide a brand-new ultra-light overhead automated rail transit system.
  • This brand-new transport mode has the advantages of both a car and a rail passenger transport mode, and can overcome the limitations of both. .
  • An ultra-light overhead automated rail transportation system includes: a rail car for carrying people or objects; an overhead rail system for carrying and guiding the rail car; a station connected to the overhead rail system; a garage, and The overhead rail system is connected for parking the rail car; the computer control system communicates with the rail car, the overhead rail system, the station and the garage, and controls the entire transportation system.
  • the rail car is composed of a carriage, an information processing device, an execution mechanism, and a driving device.
  • the information processing device communicates with the computer control system and receives an instruction from the computer control system.
  • the execution mechanism makes the driving device according to the instruction.
  • the overhead track system is composed of an overhead track, a track support, an information sensor, a track changing guide, a traveling guide, a steering guide and a translation guide;
  • the computer control system is composed of a central computer and a communication network.
  • the information processing device is a microcomputer connected to the communication network of the transportation system by wireless or wired communication; the driving device is a roller driven on the track by a motor; the actuator is a microcomputer that can change the speed of the driving device. Processors and electromechanical devices.
  • the driving device may also be a magnetic levitation device matched with the track.
  • the overhead rail is hung on the rail support, and the cross section of the overhead rail is an outer-shaped “mouth” shape or other similar shape that is open at the bottom, and the driving device of the rail car can be embedded therein. Its cross section can also be lined "I" or other similar shapes, the driving device of the railcar can be clamped on both sides.
  • the overhead track is covered with an airflow fairing, and the cover is filled with a sound-absorbing filler.
  • the information sensor includes an information-sensing mobile terminal and an information-sensing fixed terminal.
  • the mobile terminal is placed in the rail car close to the overhead track, and the fixed terminal is provided at multiple places at equal or unequal distances along the overhead track line.
  • Each fixed terminal is assigned an address by the central computer, and each mobile terminal is assigned an identification code.
  • the rail changing guide, the travel guide, the steering guide and the translation guide are respectively connected to the central computer through a communication network, and are driven by the driving mechanism according to the instructions of the central computer, wherein: the rail changing guide is translationally juxtaposed
  • the guide rail and the curved guide rail are both rotatable linear or curved guide rail segments;
  • the translation guide rail is a linear or curved guide rail segment that can be translated.
  • the station is divided into two types, the ground type and the floor type, wherein: the ground type station includes an outer cover and a spiral or inclined track or a lift for lifting a rail car placed in the cover; a floor type station includes a track and a parking space; An outer door flush with the exterior wall of the building is set on the outside of the room, and an inner door communicating with the building is set on the inside.
  • the invention is designed according to the principles of system engineering and operations research. Under the unified management of the computer, it realizes door-to-door transportation of a single vehicle, low traffic jam rate, low traffic accident rate, low environmental pollution rate, low ground occupation rate, all-weather Barrier-free operation, comfortable personalized travel, automatic delivery of small-scale decentralized delivery, and automatic adjustment of the entire system's transportation capacity make the comprehensive utilization of resources greatly higher.
  • Existing urban transportation systems thereby significantly improving the residents' travel and living environment, and realizing the city Sustainable development.
  • FIG. 1 is a system configuration diagram of the present invention
  • Figure 2 is a structural diagram of a rail car
  • FIGS 3 and 4 are structural diagrams of overhead rails
  • Figure 5 is a schematic diagram of an overhead track system
  • Figure 6 is a diagram of the track support
  • Figures 7 and 8 are schematic diagrams of the structure and operation of the rail changing rail
  • Figures 9 and 10 are schematic diagrams of the structure and operation of the guide rails
  • FIG. 11-14 shows the structure and operation of the steering guide
  • Figure 15-17 shows the structure and operation of the translation guide
  • Figure 18-20 is a structural diagram of a ground station
  • FIG. 21 is a structural diagram of a floor type station
  • Figures 22 and 23 are garage structure diagrams
  • Figure 24 is a control program diagram of the central computer system; 25 is a front view structural view of a tubular track in an embodiment of the present invention; and a front view of an ultra-light railcar; FIG. 26 is a schematic view of a position and a relationship structure of an upward and downward tubular track in an embodiment of the present invention; FIG. 27-FIG. 28 is a schematic structural view of a front view of a single support column and a front view of a double support column of an overhead track system according to an embodiment of the present invention;
  • 29-32 are schematic top views of the structure of the track converter of the present invention and the movement of the railcar between a rigid track and a flexible track;
  • FIG. 33-34 are schematic side-view and top-view structural diagrams of an ultra-light railcar according to an embodiment of the present invention
  • Figs. 35-37 are side-view, front-view, and top-view structural diagrams of the ultra-light railcar guide mechanism of the present invention
  • Fig. 38- FIG. 41 is an operation schematic view of a guide mechanism for an ultralight railcar of the present invention.
  • the present invention consists of an ultralight railcar for carrying people or objects 1, an ultralight overhead rail system for carrying and guiding the railcar 1, an omnidirectional station 3 connected to the overhead rail system 2, and overhead
  • the track system 2 is connected to the low-consumption garage 4 and the central computer control system 5 for parking the track car 1.
  • the computer control system 5 communicates with the track car 1, the ultra-light overhead track system 2, the station 3 and the garage 4, and controls the entire traffic. system. Of which-I. Ultra Light Rail Car
  • the ultra-light railcar 1 is composed of a carriage 11, an information processing device 12, a driving device 13, and an actuator 14.
  • the carriage 11 is made of ultra-lightweight materials (such as FRP, aluminum-magnesium alloy, or carbon fiber, etc.).
  • the weight of an empty car does not exceed 200 kg, and the maximum load can reach 350 kg.
  • the driving device 13 uses a motor 15 to drive the roller 16 traveling on the track, or a magnetic levitation device matched with the track.
  • the information processing device 12 is a microcomputer that is wirelessly connected to the communication network of the entire transportation system. It transmits radio information through the information-sensing mobile terminal 24 "and the information-sensing fixed terminal 24 'on the elevated track 21 (see Figure 3, 4).
  • the actuator 14 is a microprocessor and electromechanical device (such as thyristor, relay, gear set, etc.) that can change the speed of the driving device.
  • the microcomputer 12 receives the instruction from the central computer 5 from the communication network Then, the driving device 13 is actuated by the actuator 14, and the carriage is moved for starting, accelerating, uniform speed, decelerating, stopping, etc.
  • Each ultralight railcar 1 is assigned an identification code, the identification code and the ultralight Data such as the running state, time, start and end of the rail car are automatically recorded in the microcomputer, and can be sensed by the information sensor 24 on the ultra-light overhead rail system 2.
  • the ultra-light overhead rail system is composed of an overhead rail 21, a rail support 25, an information sensor 24, a rail changing rail 26, a traveling rail 27, a steering rail 28, and a translation rail 29.
  • the ultralight railcar 1 travels unidirectionally on each of the ultralight overhead rails 21.
  • the overhead track 21 is made of ultra-lightweight materials (such as aluminum-magnesium alloy, carbon fiber, and nano-materials) with good rigidity and low temperature change, and is suspended and supported by the support 25 so that its horizontal height is 3-40 meters above the ground.
  • the cross-sectional shape is matched with the driving device 13 of the ultra-light railcar 1 and can be made into an outer track or a lined track. As shown in Fig.
  • the cross section of the outsourced track 21 is an outsourced "mouth” shape or other similar shape with an open bottom, and the roller 16 of the railcar can be embedded therein.
  • the section of the lined track may also be lined “I” or other similar shapes, and the pair of rollers 16 of the railcar may be clamped on both sides thereof.
  • the overhead track 21 may be covered with an airflow fairing 23, and the cover 23 is filled with a sound-absorbing filler 22.
  • the airflow fairing 23 can reduce the lateral pressure of the wind on the track, and fill the noise-reducing filler 22 therein to reduce the noise pollution caused by the railcar traveling on the track 21.
  • the overhead track is divided into a main line, a secondary line, and a branch line.
  • the speed of an ultra-light railcar is higher on the main line than on the secondary line, and higher on the secondary line than on the branch line.
  • the branch line connects to all-round stations and low-cost garages.
  • Ultra-light railcars gradually accelerate when starting from omnidirectional stations or low-consumption garages, and then enter the branch line, sub-trunk line, and main line in sequence; when they reach their destination, they gradually decelerate, and then enter the sub-trunk and branch lines from the main line in turn and enter the omni-directional station or Stop after consuming the garage.
  • track supports such as single column (see Figure 6), multiple columns, and building attachments. It can be laid along existing roads or converted from existing road lighting pole systems.
  • the main line, sub-main line, and branch line can be made into multiple overhead rails to integrate and use a row of rail supports according to transportation capacity requirements. Trunk rails have more integrated overhead tracks than secondary rails, and secondary trunks have more integrated overhead rails than branch lines.
  • the information sensor 24 may adopt radio frequency identification (RFID) technology or computer digital wireless transmission (Bluetooth) technology, and the information transmission both ends are respectively made into an information sensing mobile terminal and an information sensing fixed terminal.
  • RFID radio frequency identification
  • Bluetooth computer digital wireless transmission
  • the information sensing fixed terminal 24' can sense the identification code of the ultra-light railcar 1 through the information-sensing mobile terminal 24 "and pass it through the computer network.
  • the central computer control system senses the address of the fixed terminal 24 'according to the information of the ultra-light railcar identification code, and can determine the position of each ultra-light rail car on the track system, and senses it at different times At the position of the same identification code, the running speed of the ultra-light railcar is calculated.
  • the rail changing rail, the traveling rail, the steering rail and the translation rail are respectively connected to the central computer 5 through a wired or wireless communication network, and can accept instructions from the central computer and be driven by the driving mechanism to perform corresponding actions.
  • the driving mechanism may be an electromagnet, a servo motor, and other electromechanical devices controlled by the instructions of the central computer.
  • Rail changing rails are used to change ultra-light railcars from one track to another.
  • the track is composed of a translating juxtaposed linear guide section 26 'and a curved guide section 26 ", which can be moved under the control of a computer. If the rail changing guide is in the position where the linear guide section 26' coincides with the linear track 21, the ultra-light railcar You can drive from the 1st position to the 2nd position. As shown in Figure 8, if the rail changing rail is in the curved track section 26 "and the curved track 21, the super light railcar can drive from the 1st position to the 3rd position.
  • the guide rail is a rotatable straight or curved guide rail segment, which is used to make two or more ultra-light railcars crossing in the same plane crossing each other.
  • the running guide 27 is in the lateral position, which coincides with the lateral track 21 ”.
  • the A ultralight railcar moves from the 1st position to the 2nd position; the B ultralight railcar moves from the 3rd position.
  • the passing rail 27 quickly rotated 90 degrees counterclockwise from the horizontal position to the vertical position, which coincided with the vertical track 21, so that the B ultralight railcar could drive from position 3 to position 4.
  • the computer-controlled crossing guide rails can complete the movement within 5 seconds.
  • the ultra-light railcars on the horizontal track can pass in the horizontal interval (about 6 seconds), allowing the vehicle to travel on the vertical track.
  • the ultra-light railcar passes by 1. Vehicles in both directions do not need to be decelerated, so that the plane crossing track achieves the effect of three-dimensional crossing.
  • the steering guide is a linear guide segment that can be rotated from 0 to 360 degrees. It is used to turn the ultra-light railcar in place.
  • the steering guide rail 28 is in a longitudinal position and coincides with the linear track 21, and the ultra-light railcar moves forward from the No. 1 position.
  • the ultra-light railcar stopped at position 2.
  • the turning rail 28 rotates 90 degrees clockwise and coincides with the transverse track 21 ", and the ultra-light rail car also rotates 90 degrees clockwise following the turning rail 28.
  • the ultra-light rail car travels to position 3.
  • the pan guide is a linear or curved track section that can be translated. It is used to translate an ultra-light railcar into a certain track. As shown in FIG. 15, the ultra-light railcar and the translation guide 29 are in the No. 1 position, and move horizontally to one side along with the translation guide. As shown in Figure 16, the pan guide moves to coincide with the linear track, and the ultra-light railcar reaches the No. 2 position. As shown in Figure 17, the ultra-light railcar moves forward from position 2 to position 3 and enters the track.
  • the overhead rail may also be erected above the rail support.
  • the contact surface between the overhead rail and the driving device of the railcar may be designed above the rail, and the front shape of the railcar shall be designed as an inverted "U” shape or other similar shape to make it "ride” on the rail.
  • the existing sightseeing monorail Such as the existing sightseeing monorail.
  • the complexity and implementation cost of this design are greater than the hanging method.
  • Omni-directional stations are divided into ground station and floor station.
  • the ground station includes a weatherproof cover 31, a rail support post 32 placed inside the cover, and a spiral track 33 or a slanted track or elevator for lifting the railcar. '
  • Ground station lifts ultralight railcars to ultralight overhead rails with circling, inclined rails or lifts The cruising altitude of the road, or descending from this altitude to the ground.
  • the ultra-light railcar 1 climbs to the height of the branch track along the spiral track 33 by its own power, and uses the track changing guide to enter the branch track 21 to travel.
  • the action is reversed.
  • the translation guide 29 is translated and raised under the action of the track support column elevator, and the ultra-light railcar rises accordingly.
  • the translation guide 29 rises to the height of the branch line track and coincides with it, the ultra-light railcar enters the branch line track.
  • the action is reversed.
  • a floor-type station is located directly on any floor of the building from the 2nd to the 20th floor. It includes the track 21 and the parking space.
  • the outer sliding door 36 is flush with the exterior wall 37 of the building.
  • the inner sliding door 35 communicating with the building.
  • the floor-type station can be matched with the elevator room 34 of the building; the ultra-light rail car can enter the floor horizontally along the ultra-light overhead rail, and the ultra-light rail car is separated from the internal and external space by an automatic door. Passengers can use the elevator to reach the station floor and directly enter and exit the ultra-light railcar. 38 is the floor.
  • Ultra-light overhead rail system and omni-directional station achieve high coverage due to its low price.
  • BP Dedicated line to the building, station to the door, to achieve personalized transportation without leaving the building.
  • the cargo station in the station is divided into a distribution center station and a delivery station.
  • the distribution center station can automatically load ultralight rail cars under the computer management of the commercial center.
  • the delivery station is located at the pick-up point of the purchaser.
  • the ultra-light railcar can be delivered to the door automatically through the ultra-light overhead rail and the delivery station.
  • the weather-resistant cover 31 described above may not be provided, but the appearance and comfort of the station may be deteriorated.
  • the above-mentioned outer sliding door 36 and inner sliding door 35 may not be provided, but the appearance of the station and the safety of people getting on and off the vehicle may be deteriorated.
  • the low-consumption garage is composed of a garage overhead track, supports, and weather shields.
  • the ultra-light rail cars are densely arranged in a space-saving manner (see Figure 22); or the ultra-light rail cars are folded (see Figure 23) in order to minimize the space occupied by empty cars.
  • the ultra-light railcars use rail changing rails, transit rails, steering rails, and translation rails to enter and exit branch lines, branch lines, or trunk rails.
  • the central computer control system consists of a large computer cluster, computer communication network, and control programs.
  • the customer summons an ultra-light railcar through a public communication network or at a station.
  • the central computer selects no-load vehicles and shunting to optimize the routes according to the line occupation and the running status of each vehicle.
  • the central computer transfers the empty car to the customer to the station.
  • the central computer selects the optimal one according to the occupation of the track line and the running status of each vehicle. Turn the route and send the heavy truck to its destination.
  • the sensors of the ultra-light overhead track system continuously transmitted the position and speed data of each vehicle to the central computer.
  • the central computer adjusts and optimizes the running route of each vehicle in a timely manner according to the running status of each vehicle, and determines the steering demand in real time.
  • the central computer controls the corresponding guide rails to change the running track or direction of the vehicle through the computer communication network.
  • the central computer adjusts and optimizes the running route of each vehicle in a timely manner according to the running status of each vehicle, and judges the speed regulation demand in real time.
  • the central computer controls the speed of the vehicle through the computer communication network.
  • the central computer keeps making a complete record and statistical analysis of the number of waiting passengers, getting on and off the station, and travel time, so as to estimate the track or vehicle redundancy or shortage, and issues a line vehicle adjustment instruction to the track network rapid laying system.
  • the track network rapid laying system After receiving the instruction from the central computer, the track network rapid laying system will automatically go to the site to start the line adjustment operation.
  • the track network affected by the construction is automatically marked by the computer, and the ultra-light railcar passing by is detoured from the circuitous circuit selected by the computer. This constitutes an automatic information feedback and adjustment mechanism, which can keep the line vehicle layout of the entire transportation system with the minimum redundancy and the highest applicability as the passenger / cargo volume changes.
  • the above rail network rapid laying system consists of an automatic load-bearing column setting engineering vehicle and a hanging rail installation engineering vehicle.
  • Hanging rails, load-bearing columns, and column foundations are produced according to standard parts, which can be exchanged arbitrarily.
  • the entire line network is planned based on the automatic statistical data of population distribution density, travel time, and location.
  • the network maximum flow method of operations research is used for planning.
  • the pre-embedded column foundation, load-bearing column, and column foundation are planned at the location of the city's preset hanging rail line. Connect with standard parts. When needed, the hanging rail laying facility machinery can quickly lay the hanging rail line.
  • the ultralight overhead track 21 is composed of a rigid track and a flexible track.
  • Rigid tracks are used for lines with slower longitudinal gradients and faster speeds. As shown in FIG. 25, it is composed of a tubular rail 60, a guide rail 51, and a friction rail 53.
  • the tubular track 60 is made of an ultra-lightweight material (such as FRP, aluminum-magnesium alloy, or carbon fiber, etc.) into a thin-shell tubular shape for carrying the ultra-lightweight rail car 1.
  • the ultra-light railcar 1 travels inside the tubular rail 21.
  • the guide rail 51 is placed on the inner top surface of the tubular rail 60, and the guide of the ultra-light railcar 1
  • the mechanism 50 is embedded in the guide rail 51 and guides the ultra-light railcar along the guide rail.
  • the friction rail 53 is placed on the inner bottom surface of the tubular rail 60.
  • the driving wheels and load-bearing wheels of the ultra-light railcar 1 are embedded in the friction rail 53 to provide the ultra-light railcar with the load-bearing and friction necessary for forward, acceleration, deceleration and braking.
  • each rigid track includes two tubular tracks: one is an upward-line tubular track 6 ⁇ , and one is a downward-line tubular track 61 ", such as This is shown in Figure 26.
  • the upstream tubular track 6 and the downstream tubular track 61 " are vertically arranged, and the connection points 61 are used to reinforce the rigid connections at equal or unequal intervals. Enhance the vertical rigidity of the track. Ascending tubular track and descending tubular track 61 "are equidistant or unequal laterally connected with a fixed arm 62 to a single support column 25, or a double support column 25".
  • the single-pillar 25 or double-pillar 25 is used to suspend and fix the track.
  • the single-pillar 25 'requires less space and the double-pillar 25" has good stability.
  • a foot column reinforcing plate 63 can be added to increase its lateral stability.
  • the flexible track forming the ultra-light overhead track system 2 is used for lines with steeper longitudinal slopes and slower speeds, and its structure is similar to that of existing sightseeing cable cars. It consists of a loop wire rope, a track changer, an electric winch and a wire rope pulley.
  • the guide mechanism of the ultra-light rail car is embedded in the track converter of the flexible track, and the ultra-light rail car is suspended on the endless wire rope through the track converter.
  • the endless wire rope is tensioned between a plurality of wire rope pulleys installed on the track support column, and is connected to the electric winch.
  • the power is obtained through the rotation of the electric winch, and the tracks are circulated between the multiple wire rope pulleys to drive the track.
  • the converter moves and moves the ultra-light railcar along a circular wire rope.
  • the rigid track and the flexible track are set at a 90-degree angle on the same plane as the line connection.
  • the track converter can smoothly convert the ultra-light railcar from the rigid track to the flexible track, and can also make the ultra-light railcar smooth from the flexible track. Switch to a rigid track, so as to achieve seamless rail change operation on a track network with various undulating terrain and speed conditions under the centralized control of a computer.
  • the track converter is composed of a translation track 29 and a wire rope clamper 83, and the wire rope clamper 83 is fastened on the translation guide rail 29.
  • the rigid rail and the flexible rail wire rope 82 are arranged at a 90-degree cross, the front end of the rigid rail is connected to the translation guide rail 29, and a wire rope clamper 83 is installed at the top of the translation guide rail 29, and the flexible rail wire rope 82 pulled by the winch is removed from The wire rope retainer 83 passes through.
  • the ultra-light railcar 1 When the ultra-light railcar 1 needs to switch from a rigid rail to a flexible rail, it must first move from the 1st position to the 2nd position by its own power and enter the section of the translational guide 29; then, the translational guide 29 is driven by 2 under the action of the additional driving force. Position No. 3 is moved to position No. 3 to drive the ultra-light railcar 1 to move from No. 2 to No. 3.
  • the wire rope clamper 83 holds the flexible rail wire rope, and at the same time, the translation guide rail 29 loses the driving force.
  • the ultra-light railcar 1 Driven by the flexible rail wire rope 82 pulled by the winch, the ultra-light railcar 1 follows the flexible rail wire rope 82 in the direction of the flexible rail through the wire rope clamper 83 and the translation guide rail 29. When the ultra-light railcar 1 needs to be switched from a flexible rail to a rigid rail, it operates in the reverse order.
  • the rail changing rail 26, the traveling rail 27, the steering rail 28 and the translation rail 29 constituting the rail system 2 are all Rigid rail.
  • the ultra-light railcar 1 is mainly composed of a carriage 11, an information processing device 12, a guide mechanism 50, a driving wheel 52, a load-bearing wheel 58, and a drive control box 54.
  • the carriage 11 of the ultra-light railcar is used to carry passengers 55, and its door 56 is placed in front of the passenger 55, and can be opened and closed along the central axis 59.
  • the guide mechanism 50 of the ultra-light railcar is embedded in the guide rail 51 on the top of the tubular rail 60, and obtains electricity, left-right balance force, and forward direction from the elevated rail system 2 through the guide rail 51 (the principle is shown in Figure 38-41)
  • the driving wheels 52 and load-bearing wheels 58 of the ultra-light railcar are arranged in a front-to-rear shape, embedded in the friction rail 53 at the bottom of the tube-shaped rail 60 to support the gravity of the ultra-light railcar; and it is driven by a variable frequency motor in the control box 54;
  • the driving wheel 52 is driven to make it walk or brake on the overhead track, and push the ultra-light railcar forward, accelerate, uniform speed, decelerate or stop.
  • the guide mechanism 50 is composed of a longitudinal guide wheel 64, a transverse guide wheel 65, a transverse guide wheel swing arm 66, and a suspension plate 67.
  • the lower part of the suspension plate 67 is connected to the ultra-light railcar compartment 11; the axle of the longitudinal guide wheel 64 crosses the suspension plate 67, and the wheel hub of the longitudinal guide wheel is made of conductive material (such as graphite) and is embedded in the guide rail 51.
  • the two trough-shaped rails travel inside. Power transmission lines are laid under the two trough-shaped rails to provide power for the ultra-light railcar.
  • the horizontal guide wheel swing arm 66-end is connected to the axle of the horizontal guide wheel 65 by 90 'degrees, and the other end is connected with The suspension board 67 is connected, and can swing laterally within a small range around the connection point.
  • the wheel hub of the lateral guide wheel 65 has a built-in electromagnet. When the coils in the electromagnet pass currents in different directions, the lateral guide wheel 65 can be attracted to the side wall of the guide rail in the corresponding direction by the magnetic force in different directions. Rail cars offer different directions of advance.
  • the horizontal guide wheel swing arm 66 drives the suspension plate 67 to stick to the right side of the guide rail.
  • the ultra-light railcar is guided to move along the straight track direction from position 1 to position 2.
  • the lateral guide wheel swing arm 66 drives the suspension plate 67 to stick to the left side of the guide rail, thereby Guide the ultra-light railcar along the curved track direction from position 1 to position 3.
  • a miniature anti-collision ranging sensor is arranged at each of the front and rear ends of the ultra-light railcar, and the sensor is connected to a computer control system.
  • the feedback information decelerates the ultra-light railcar until it stops or reverses.
  • Each ultra-light railcar is equipped with a high-magnetic permanent magnet at the front and rear ends. Sufficient repulsion can be created between two pieces of this permanent magnet.
  • a critical value When the speed of an ultra-light railcar is below a critical value, two cars traveling in the same direction can never collide. Even if a Mou loses power, under the action of the push and pull of the flowing air in the tubular track and the permanent magnetic steel repulsion of the two ultra-light rail cars, the ultra-light rail cars that lose power will continue to move forward until they enter the avoidance line.
  • the mechanical force will automatically open the safety valve, and the ultra-light rail car releases the life-saving cable. Under the action of gravity, the entire ultra-light rail car is slowly dropped to the ground. The vibration damping device at the bottom of the car helps Under soft landing.
  • Each ultra-light railcar is equipped with a battery to ensure that in the event of a power outage, it can use its own power to enter the avoidance line and land on the ground.

Landscapes

  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)
  • Train Traffic Observation, Control, And Security (AREA)

Abstract

The present invention relates to a light elevated guideway transit system of high automatized level, it includes guideway vehicles for transporting passengers, elevated railway system for supporting and guiding vehicles, stations connected with railway system, vehicles parking centers for accommodating the vehicles, and computer controlling system keeping communicating with vehicles, stations and vehicle parking centers, for make control over the whole transit system. The invention works in the manners of making use of systems engineering and operational research. Under the administration of computers, the transit system can achieve the point to point transportion, it is the congested traffic can be released, and the accident mite of traffic can be decreased, the other advantages also include decreased pollution, less surface occupation, all weather and high safety, and can carry out individual freight conveying. The invention is superior to the known other transit systems, make it possible to overcome the problems of urban environment.

Description

超轻型高架自动化轨道交通系统 技术领域  Technical field of ultra-light overhead automated rail transportation system
本发明涉及一种全计算机管理的超轻型高架自动化轨道交通系统。  The invention relates to an ultra-light overhead automatic rail transit system managed by a computer.
背景技术  Background technique
现有城市交通系统面临两难选择: 满足门到门运输和个性化出行要求的小汽 车交通系统(如家庭车、 公务车、 出租车等), 由于占用道路资源多、 载客效率低、 燃油消耗大、 环境污染严重, 其不可持续发展, 也不符合效率优先、 兼顾公平 与经济合理的发展'原则; 而, 以快速大容量轨道交通为主体的综合客运交通系统 (如地铁等), 虽符合上述发展原则并有利于持续发展, 但由于其资金投入大, 建 设周期长, 难以使线路网达到人口出行需求的高覆盖率, 无法实现两种以上交通 方式之间的 "无缝隙服务", 不能满足门到门和个性化出行要求。  The existing urban transportation system faces a dilemma: a car transportation system that meets the requirements of door-to-door transportation and personalized travel (such as family cars, business cars, taxis, etc.), because it occupies more road resources, lower passenger carrying efficiency, and fuel consumption Large, serious environmental pollution, its unsustainable development, and does not meet the principle of "priority of efficiency, fairness and reasonable economic development"; while the integrated passenger transportation system (such as subway, etc.) with fast and large-capacity rail transportation as its main body, although in line with The above development principles are not conducive to sustainable development, but due to its large capital investment and long construction cycle, it is difficult to achieve a high coverage of the travel network by the line network, and it is impossible to achieve a "seamless service" between two or more modes of transportation. Meet door-to-door and personalized travel requirements.
发明内容 Summary of the Invention
鉴于上述原因, 本发明的目的在于提供一种全新的超轻型高架自动化轨道交 通系统, 这种全新的交通方式兼有小汽车和轨道客运交通方式的优越性, 同时又 能克服二者的局限性。  In view of the above reasons, the object of the present invention is to provide a brand-new ultra-light overhead automated rail transit system. This brand-new transport mode has the advantages of both a car and a rail passenger transport mode, and can overcome the limitations of both. .
本发明的任务通过以下技术方案实现:  The task of the present invention is achieved by the following technical solutions:
一种超轻型高架自动化轨道交通系统, 包括: 轨道车, 用于载人或物; 架空 轨道系统, 用于承载和引导所述轨道车; 车站, 与所述架空轨道系统联接; 车库, 与所述架空轨道系统联接, 用于停泊所述轨道车; 计算机控制系统, 与所述轨道 车、 架空轨道系统、 车站和车库进行通信, 控制整个交通系统。  An ultra-light overhead automated rail transportation system includes: a rail car for carrying people or objects; an overhead rail system for carrying and guiding the rail car; a station connected to the overhead rail system; a garage, and The overhead rail system is connected for parking the rail car; the computer control system communicates with the rail car, the overhead rail system, the station and the garage, and controls the entire transportation system.
所述轨道车由车厢、 信息处理装置、 执行机构、 驱动装置组成, 所述信息处 理装置与所述计算机控制系统通信, 接收计算机控制系统的指令, 所述执行机构 根据此指令使所述驱动装置动作; 所述架空轨道系统由架空轨道、 轨道支撑物、 信息感应器、 换轨导轨、 穿行导轨、 转向导轨和平移导轨组成; 所述计算机控制 系统由中心计算机和通信网络组成。  The rail car is composed of a carriage, an information processing device, an execution mechanism, and a driving device. The information processing device communicates with the computer control system and receives an instruction from the computer control system. The execution mechanism makes the driving device according to the instruction. Action; The overhead track system is composed of an overhead track, a track support, an information sensor, a track changing guide, a traveling guide, a steering guide and a translation guide; the computer control system is composed of a central computer and a communication network.
所述信息处理装置是以无线或有线通信方式与交通系统通信网络联接的微型 计算机; 所述驱动装置是以电动机驱动在轨道上行走的滚轮; 所述执行机构是可 以改变驱动装置运动速度的微处理器和机电器件。 所述驱动装置也可是与轨道相 配合的磁悬浮装置。  The information processing device is a microcomputer connected to the communication network of the transportation system by wireless or wired communication; the driving device is a roller driven on the track by a motor; the actuator is a microcomputer that can change the speed of the driving device. Processors and electromechanical devices. The driving device may also be a magnetic levitation device matched with the track.
所述架空轨道吊挂在所述轨道支撑物上, 其断面呈底部开口的外包式 "口" 字形或其他相似形状, 所述轨道车的驱动装置可嵌置于其中。 其断面也可呈内衬 式 "工"字形或其他相似形状, 轨道车的驱动装置可夹置于其两侧。 所述架空轨道外覆气流整流罩, 罩内填充消音填充物。 The overhead rail is hung on the rail support, and the cross section of the overhead rail is an outer-shaped “mouth” shape or other similar shape that is open at the bottom, and the driving device of the rail car can be embedded therein. Its cross section can also be lined "I" or other similar shapes, the driving device of the railcar can be clamped on both sides. The overhead track is covered with an airflow fairing, and the cover is filled with a sound-absorbing filler.
所述信息感应器包括信息感应移动端子和信息感应固定端子, 该移动端子置 于所述轨道车中贴近所述架空轨道处, 该固定端子沿架空轨道线路等距或不等距 多处设置, 每一固定端子被中心计算机分配一个地址, 每一移动端子被分配一个 身份识别编码。  The information sensor includes an information-sensing mobile terminal and an information-sensing fixed terminal. The mobile terminal is placed in the rail car close to the overhead track, and the fixed terminal is provided at multiple places at equal or unequal distances along the overhead track line. Each fixed terminal is assigned an address by the central computer, and each mobile terminal is assigned an identification code.
所述换轨导轨、 穿行导轨、 转向导轨和平移导轨分别通过通信网络与所述中 心计算机相联, 并由其驱动机构根据中心计算机的指令而驱动, 其中: 换轨导轨 由可平移的并置的直线导轨段和弯线导轨段组成; 穿行导轨和转向导轨均为可旋 转的直线或弯线导轨段; 平移导轨为可平移的直线或弯线导轨段。  The rail changing guide, the travel guide, the steering guide and the translation guide are respectively connected to the central computer through a communication network, and are driven by the driving mechanism according to the instructions of the central computer, wherein: the rail changing guide is translationally juxtaposed The guide rail and the curved guide rail are both rotatable linear or curved guide rail segments; the translation guide rail is a linear or curved guide rail segment that can be translated.
所述车站分为地面式和楼层式两种, 其中: 地面式车站包括外罩及置于罩内 的用于升降轨道车的盘旋轨道或倾斜轨道或升降机; 楼层式车站包括轨道和停车 间, 停车间外侧开设与楼房外墙齐平的外门, 内侧开设与楼房相通的内门。  The station is divided into two types, the ground type and the floor type, wherein: the ground type station includes an outer cover and a spiral or inclined track or a lift for lifting a rail car placed in the cover; a floor type station includes a track and a parking space; An outer door flush with the exterior wall of the building is set on the outside of the room, and an inner door communicating with the building is set on the inside.
本发明依据系统工程学和运筹学原理设计, 在计算机的统一管理下, 实现单 一交通工具的门到门运输、 低交通阻塞率、 低交通事故率、 低环境污染率、 低地 面占有率、 全天候无障碍运营、 舒适的个性化旅行、 小量分散送货自动上门、 全 系统运力自动调节, 使资源综合利用率大大高 f现有城市交通系统, 从而显著改 善居民的出行、 生存环境, 实现城市的可持续发展。  The invention is designed according to the principles of system engineering and operations research. Under the unified management of the computer, it realizes door-to-door transportation of a single vehicle, low traffic jam rate, low traffic accident rate, low environmental pollution rate, low ground occupation rate, all-weather Barrier-free operation, comfortable personalized travel, automatic delivery of small-scale decentralized delivery, and automatic adjustment of the entire system's transportation capacity make the comprehensive utilization of resources greatly higher. Existing urban transportation systems, thereby significantly improving the residents' travel and living environment, and realizing the city Sustainable development.
附图说明 BRIEF DESCRIPTION OF THE DRAWINGS
图 1是本发明的系统构成图;  FIG. 1 is a system configuration diagram of the present invention;
图 2为轨道车结构图;  Figure 2 is a structural diagram of a rail car;
图 3、 4为架空轨道结构图;  Figures 3 and 4 are structural diagrams of overhead rails;
图 5为架空轨道系统示意图;  Figure 5 is a schematic diagram of an overhead track system;
图 6为轨道支撑物图;  Figure 6 is a diagram of the track support;
图 7、 8为换轨导轨的结构及动作示意图;  Figures 7 and 8 are schematic diagrams of the structure and operation of the rail changing rail;
图 9、 10为穿行导轨的结构及动作示意图;  Figures 9 and 10 are schematic diagrams of the structure and operation of the guide rails;
图 11-14为转向导轨的结构及动作示意图;  Figure 11-14 shows the structure and operation of the steering guide;
图 15-17为平移导轨的结构及动作示意图;  Figure 15-17 shows the structure and operation of the translation guide;
图 18-20为地面式车站的结构图;  Figure 18-20 is a structural diagram of a ground station;
图 21为楼层式车站的结构图;  FIG. 21 is a structural diagram of a floor type station;
图 22、 23为车库结构图;  Figures 22 and 23 are garage structure diagrams;
图 24为中心计算机系统控制程序图; 图 25为本发明实施例中管形轨道的主视结构图; 及超轻型轨道车的主视图; 图 26为本发明实施例中上、 下行管形轨道位置、 关系结构示意图; 图 27-图 28为本发明实施例中架空轨道系统单支撑柱前视、 双支撑柱前视结 构示意图; Figure 24 is a control program diagram of the central computer system; 25 is a front view structural view of a tubular track in an embodiment of the present invention; and a front view of an ultra-light railcar; FIG. 26 is a schematic view of a position and a relationship structure of an upward and downward tubular track in an embodiment of the present invention; FIG. 27-FIG. 28 is a schematic structural view of a front view of a single support column and a front view of a double support column of an overhead track system according to an embodiment of the present invention;
图 29-图 32为本发明轨道转换器的结构及轨道车在刚性轨道和柔性轨道间转 换动作俯视示意图;  29-32 are schematic top views of the structure of the track converter of the present invention and the movement of the railcar between a rigid track and a flexible track;
图 33-图 34为本发明实施例超轻型轨道车的侧视、 俯视结构示意图; 图 35-图 37为本发明超轻 ^轨道车导向机构侧视、 前视和俯视结构示意图; 图 38-图 41为本发明超轻型轨道车导向机构的动作示意图。  33-34 are schematic side-view and top-view structural diagrams of an ultra-light railcar according to an embodiment of the present invention; Figs. 35-37 are side-view, front-view, and top-view structural diagrams of the ultra-light railcar guide mechanism of the present invention; Fig. 38- FIG. 41 is an operation schematic view of a guide mechanism for an ultralight railcar of the present invention.
具体实施方式 detailed description
见图 1, 本发明由用于载人或物的超轻型轨道车 1、 用于承载和引导轨道车 1 的超轻型架空轨道系统 2、 与架空轨道系统 2联接的全方位车站 3、 与架空轨道系 统 2联接并用于停泊轨道车 1的低耗车库 4和中心计算机控制系统 5组成, 计算 机控制系统 5与轨道车 1、 超轻型架空轨道系统 2、 车站 3和车库 4进行通信, 控 制整个交通系统。 其中- 一.超轻型轨道车  As shown in FIG. 1, the present invention consists of an ultralight railcar for carrying people or objects 1, an ultralight overhead rail system for carrying and guiding the railcar 1, an omnidirectional station 3 connected to the overhead rail system 2, and overhead The track system 2 is connected to the low-consumption garage 4 and the central computer control system 5 for parking the track car 1. The computer control system 5 communicates with the track car 1, the ultra-light overhead track system 2, the station 3 and the garage 4, and controls the entire traffic. system. Of which-I. Ultra Light Rail Car
见图 2, 超轻型轨道车 1 由车厢 11、 信息处理装置 12、 驱动装置 13、 执行 机构 14组成。 车厢 11采用超轻质材料 (例如玻璃钢、 铝镁合金或碳纤维等) 制 成, 空车自重不超过 200公斤, 最大载重可达 350公斤。 驱动装置 13采用电动机 15驱动在轨道上行走的滚轮 16, 或釆用与轨道相配合的磁悬浮装置。 信息处理装 置 12是以无线通信方式与整个交通系统通信网络连接的微型计算机, 它通过信息 感应移动端子 24"与高架轨道 21 上的信息感应固定端子 24'进行无线电信息传^ (见图 3、 4)。 执行机构 14是可以改变驱动装置运动速度的微处理器和机电器件 (如可控硅、 继电器、 齿轮组等)。 当微型计算机 12接收到通信网络传来的中心 计算机 5的指令时, 便通过执行机构 14使驱动装置 13动作, 并带动车厢作启动、 加速、 匀速、 减速、 停止等运动。 每辆超轻型轨道车 1 均被分配一个身份识别编 码, 该身份识别编码和超轻型轨道车的运行状态、 时间、 起止地点等数据被自动 记入微型计算机, 并可被超轻型架空轨道系统 2上的信息感应器 24感知。  As shown in Fig. 2, the ultra-light railcar 1 is composed of a carriage 11, an information processing device 12, a driving device 13, and an actuator 14. The carriage 11 is made of ultra-lightweight materials (such as FRP, aluminum-magnesium alloy, or carbon fiber, etc.). The weight of an empty car does not exceed 200 kg, and the maximum load can reach 350 kg. The driving device 13 uses a motor 15 to drive the roller 16 traveling on the track, or a magnetic levitation device matched with the track. The information processing device 12 is a microcomputer that is wirelessly connected to the communication network of the entire transportation system. It transmits radio information through the information-sensing mobile terminal 24 "and the information-sensing fixed terminal 24 'on the elevated track 21 (see Figure 3, 4). The actuator 14 is a microprocessor and electromechanical device (such as thyristor, relay, gear set, etc.) that can change the speed of the driving device. When the microcomputer 12 receives the instruction from the central computer 5 from the communication network Then, the driving device 13 is actuated by the actuator 14, and the carriage is moved for starting, accelerating, uniform speed, decelerating, stopping, etc. Each ultralight railcar 1 is assigned an identification code, the identification code and the ultralight Data such as the running state, time, start and end of the rail car are automatically recorded in the microcomputer, and can be sensed by the information sensor 24 on the ultra-light overhead rail system 2.
二.超轻型架空轨道系统  2. Ultralight overhead track system
见图 3-图 17, 超轻型架空轨道系统由架空轨道 21、 轨道支撑物 25、 信息感 应器 24、 换轨导轨 26、 穿行导轨 27、 转向导轨 28和平移导轨 29组成。 超轻型 轨道车 1在每一条超轻型架空轨道 21上均为单向行驶。 架空轨道 21 采用刚性好、 温变小的超轻质材料 (例如铝镁合金、 碳纤维、 纳米材料等) 制成, 由支撑物 25 吊挂支撑, 使其水平高度距离地面 3-40米。 其 断面形状与超轻型轨道车 1的驱动装置 13相配合, 可制成外包式轨道或内衬式轨 道。 见图 3, 外包式轨道 21 的断面呈底部开口的外包式 "口"字形或其他相似形 状,轨道车的滚轮 16可嵌置于其中。见图 4, 内衬式轨道的断面也可呈内衬式"工" 字形或其他相似形状, 轨道车的成对滚轮 16可夹置于其两侧。 As shown in Figs. 3-17, the ultra-light overhead rail system is composed of an overhead rail 21, a rail support 25, an information sensor 24, a rail changing rail 26, a traveling rail 27, a steering rail 28, and a translation rail 29. The ultralight railcar 1 travels unidirectionally on each of the ultralight overhead rails 21. The overhead track 21 is made of ultra-lightweight materials (such as aluminum-magnesium alloy, carbon fiber, and nano-materials) with good rigidity and low temperature change, and is suspended and supported by the support 25 so that its horizontal height is 3-40 meters above the ground. The cross-sectional shape is matched with the driving device 13 of the ultra-light railcar 1 and can be made into an outer track or a lined track. As shown in Fig. 3, the cross section of the outsourced track 21 is an outsourced "mouth" shape or other similar shape with an open bottom, and the roller 16 of the railcar can be embedded therein. As shown in FIG. 4, the section of the lined track may also be lined “I” or other similar shapes, and the pair of rollers 16 of the railcar may be clamped on both sides thereof.
架空轨道 21可外覆气流整流罩 23, 罩 23 内填充消音填充物 22。 气流整流 罩 23可减轻大风对轨道的侧压'力, 在其内填充消音填充物 22后, 可减小轨道车 在轨道 21上行进中所产生的噪音污染。  The overhead track 21 may be covered with an airflow fairing 23, and the cover 23 is filled with a sound-absorbing filler 22. The airflow fairing 23 can reduce the lateral pressure of the wind on the track, and fill the noise-reducing filler 22 therein to reduce the noise pollution caused by the railcar traveling on the track 21.
见图 5, 架空轨道分为主干线、 次干线、 支线。 超轻型轨道车的行车速度在 主干线上比在次干线上高, 在次干线上比在支线上高。 支线与全方位车站和低耗 车库相连。 超轻型轨道车从全方位车站或低耗车库启动时逐渐加速, 依次进入支 线、 次干线、 主干线; 到达目的地时逐渐减速, 从主干线依次进入次干线、 支线, 进入全方位车站或低耗车库后停止。  As shown in Figure 5, the overhead track is divided into a main line, a secondary line, and a branch line. The speed of an ultra-light railcar is higher on the main line than on the secondary line, and higher on the secondary line than on the branch line. The branch line connects to all-round stations and low-cost garages. Ultra-light railcars gradually accelerate when starting from omnidirectional stations or low-consumption garages, and then enter the branch line, sub-trunk line, and main line in sequence; when they reach their destination, they gradually decelerate, and then enter the sub-trunk and branch lines from the main line in turn and enter the omni-directional station or Stop after consuming the garage.
轨道支撑物有单柱 (见图 6)、 多柱、 建筑附加等多种形式。 可沿现有道路敷 设或利用原有道路照明灯杆系统改造而成。 主干线、 次干线、 支线可根据运力需 要, 制成多条架空轨道集成使用一排轨道支撑物。 主干线集成的架空轨道比次干 线多, 次干线集成的架空轨道比支线多。  There are many types of track supports, such as single column (see Figure 6), multiple columns, and building attachments. It can be laid along existing roads or converted from existing road lighting pole systems. The main line, sub-main line, and branch line can be made into multiple overhead rails to integrate and use a row of rail supports according to transportation capacity requirements. Trunk rails have more integrated overhead tracks than secondary rails, and secondary trunks have more integrated overhead rails than branch lines.
信息感应器 24可采用射频识别 (RFID) 技术或计算机数字无线传输 (蓝牙) 技术, 将信息传送两端分别制成信息感应移动端子和信息感应固定端子。 信息感 应移动端子 24"置于车厢 11 贴近轨道处; 信息感应固定端子 24'沿轨道线路等距 或不等距多处设置 (见图 3、 图 4) 并联网, 每一处信息感应固定端子 24'都在中 心计算机记录有地址。 当超轻型轨道车 1 经过时, 信息感应固定端子 24'可通过 信息感应移动端子 24"感应到超轻型轨道车 1 的身份识别编码, 并经过计算机网 络传递到中心计算机控制系统; 中心计算机控制系统根据所感应的超轻型轨道车 身份识别编码的信息感应固定端子 24'的地址, 可判断各个超轻型轨道车在轨道 系统上的位置, 并通过不同时间感应到相同身份识别编码的位置, 计算出该超轻 型轨道车的运行速度。  The information sensor 24 may adopt radio frequency identification (RFID) technology or computer digital wireless transmission (Bluetooth) technology, and the information transmission both ends are respectively made into an information sensing mobile terminal and an information sensing fixed terminal. The information-sensing mobile terminal 24 "is placed close to the carriage 11 of the carriage 11; the information-sensing fixed terminal 24 'is arranged at equal or unequal distances along the track line (see Figures 3 and 4) and is connected to the network. 24 'are recorded in the center computer. When the ultra-light railcar 1 passes, the information sensing fixed terminal 24' can sense the identification code of the ultra-light railcar 1 through the information-sensing mobile terminal 24 "and pass it through the computer network. To the central computer control system; the central computer control system senses the address of the fixed terminal 24 'according to the information of the ultra-light railcar identification code, and can determine the position of each ultra-light rail car on the track system, and senses it at different times At the position of the same identification code, the running speed of the ultra-light railcar is calculated.
换轨导轨、 穿行导轨、 转向导轨和平移导轨分别通过有线或无线通信网络与 中心计算机 5 相连, 可接受中心计算机的指令并被驱动机构驱动作出相应动作。 其驱动机构可以是受中心计算机的指令控制的电磁铁、 伺服电机等机电装置。  The rail changing rail, the traveling rail, the steering rail and the translation rail are respectively connected to the central computer 5 through a wired or wireless communication network, and can accept instructions from the central computer and be driven by the driving mechanism to perform corresponding actions. The driving mechanism may be an electromagnet, a servo motor, and other electromechanical devices controlled by the instructions of the central computer.
换轨导轨用于使超轻型轨道车从一条轨道换入另一条轨道。 如图 7, 换轨导 轨由可平移的并置的直线导轨段 26'与弯线导轨段 26"组成, 可以在计算机控制下 移动。 如果换轨导轨处于直线导轨段 26'与直线轨道 21 吻合位置, 超轻型轨道车 可以从 1号位置驶至 2号位置。 如图 8, 如果换轨导轨处于弯线导轨段 26"与弯线 轨道 21,吻合位置, 超轻型轨道车可以从 1号位置驶至 3号位置。 Rail changing rails are used to change ultra-light railcars from one track to another. As shown in Figure 7, The track is composed of a translating juxtaposed linear guide section 26 'and a curved guide section 26 ", which can be moved under the control of a computer. If the rail changing guide is in the position where the linear guide section 26' coincides with the linear track 21, the ultra-light railcar You can drive from the 1st position to the 2nd position. As shown in Figure 8, if the rail changing rail is in the curved track section 26 "and the curved track 21, the super light railcar can drive from the 1st position to the 3rd position.
穿行导轨为可旋转的直线或弯线导轨段, 它用于使两个以上方向在同一平面 上交叉行驶的超轻型轨道车相互交叉穿行。 如图 9, 穿行导轨 27处于横向位置, 与横向轨道 21"吻合, A超轻型轨道车从 1号位置驶至 2号位置; B超轻型轨道 车从 3号位置向前行驶。 如图 10, 当接到中心计算机的穿行指令时, 穿行导轨 27 迅速从横向位置反时针旋转 90度到纵向位置, 与纵向轨道 21吻合, 从而使 B超 轻型轨道车可以从 3号位置驶至 4号位置。 当车辆间距 50米、 车辆时速 30公里, 计算机控制穿行导轨完成动作在 5 秒之内, 可以在横向轨道两辆超轻型轨道车横 向通过的间隔时间内 (约 6秒), 使纵向轨道上行驶的超轻型轨道车通过 1辆。 两 个方向的车辆都不需减速, 从而使平面交叉轨道达到立体交叉的通行效果。  The guide rail is a rotatable straight or curved guide rail segment, which is used to make two or more ultra-light railcars crossing in the same plane crossing each other. As shown in FIG. 9, the running guide 27 is in the lateral position, which coincides with the lateral track 21 ”. The A ultralight railcar moves from the 1st position to the 2nd position; the B ultralight railcar moves from the 3rd position. As shown in FIG. 10, When receiving the passing instruction from the central computer, the passing rail 27 quickly rotated 90 degrees counterclockwise from the horizontal position to the vertical position, which coincided with the vertical track 21, so that the B ultralight railcar could drive from position 3 to position 4. When the vehicle distance is 50 meters and the vehicle speed is 30 kilometers per hour, the computer-controlled crossing guide rails can complete the movement within 5 seconds. The ultra-light railcars on the horizontal track can pass in the horizontal interval (about 6 seconds), allowing the vehicle to travel on the vertical track. The ultra-light railcar passes by 1. Vehicles in both directions do not need to be decelerated, so that the plane crossing track achieves the effect of three-dimensional crossing.
转向导轨为可旋转 0 ~ 360度的直线导轨段, 它用于使超轻型轨道车原地转 向。 如图 11, 转向导轨 28处于纵向位置, 与直线轨道 21吻合, 超轻型轨道车从 1号位置向前行驶。 如图 12, 超轻型轨道车行驶到达 2号位置停止。 如图 13, 转 向导轨 28顺时针旋转 90度并与横向轨道 21"吻合, 超轻型轨道车也跟随转向导 轨 28顺时针旋转 90度。 如图 14, 超轻型轨道车行驶到达 3号位置。  The steering guide is a linear guide segment that can be rotated from 0 to 360 degrees. It is used to turn the ultra-light railcar in place. As shown in FIG. 11, the steering guide rail 28 is in a longitudinal position and coincides with the linear track 21, and the ultra-light railcar moves forward from the No. 1 position. As shown in Figure 12, the ultra-light railcar stopped at position 2. As shown in Fig. 13, the turning rail 28 rotates 90 degrees clockwise and coincides with the transverse track 21 ", and the ultra-light rail car also rotates 90 degrees clockwise following the turning rail 28. As shown in Fig. 14, the ultra-light rail car travels to position 3.
平移导轨为可平移的直线或弯线导轨段, 它用于使超轻型轨道车平移进入某 一条轨道。 如图 15, 超轻型轨道车与平移导轨 29处于 1号位置, 并随着平移导 轨向一侧水平移动。 如图 16, 平移导轨移动到与直线轨道吻合, 超轻型轨道车随 之到达 2号位置。 如图 17, 超轻型轨道车向前行驶, 从 2号位置到达 3号位置, 进入该轨道行驶。  The pan guide is a linear or curved track section that can be translated. It is used to translate an ultra-light railcar into a certain track. As shown in FIG. 15, the ultra-light railcar and the translation guide 29 are in the No. 1 position, and move horizontally to one side along with the translation guide. As shown in Figure 16, the pan guide moves to coincide with the linear track, and the ultra-light railcar reaches the No. 2 position. As shown in Figure 17, the ultra-light railcar moves forward from position 2 to position 3 and enters the track.
所述架空轨道也可架设在轨道支撑物上方。 此时, 所述架空轨道与所述轨道 车的驱动装置接触面可设计在轨道上方, 并且轨道车正面形状应设计成倒 "U" 型或其他相似形状, 使其 "骑"在轨道上, 如现有的观光游览单轨车。 但此种设 计的复杂程度和实施成本都比吊挂方式更大。  The overhead rail may also be erected above the rail support. At this time, the contact surface between the overhead rail and the driving device of the railcar may be designed above the rail, and the front shape of the railcar shall be designed as an inverted "U" shape or other similar shape to make it "ride" on the rail. Such as the existing sightseeing monorail. However, the complexity and implementation cost of this design are greater than the hanging method.
三.全方位车站  Three. Omni-directional station
全方位车站分为地面式车站和楼层式车站。  Omni-directional stations are divided into ground station and floor station.
见图 18, 地面式车站包括可遮挡风雨的外罩 31、 置于罩内的轨道支撑柱 32 及用于升降轨道车的盘旋轨道 33或倾斜轨道或升降机。 '  As shown in FIG. 18, the ground station includes a weatherproof cover 31, a rail support post 32 placed inside the cover, and a spiral track 33 or a slanted track or elevator for lifting the railcar. '
地面式车站以盘旋、 倾斜轨道或升降机将超轻型轨道车提高到超轻型架空轨 道的巡航高度, 或从该高度下降到地面。 如图 18, 进站时, 超轻型轨道车 1靠自 身动力, 沿盘旋轨道 33爬升至支线轨道高度, 利用换轨导轨进入支线轨道 21行 驶。 出站时, 动作相反。 如图 19, 进站时, 平移导轨 29在轨道支撑柱升降机的 作用下平移上升, 超轻型轨道车随之上升。 如图 20, 当平移导轨 29升至支线轨 道高度并与其吻合时, 超轻型轨道车进入支线轨道行驶。 出站时, 动作相反。 Ground station lifts ultralight railcars to ultralight overhead rails with circling, inclined rails or lifts The cruising altitude of the road, or descending from this altitude to the ground. As shown in FIG. 18, when entering the station, the ultra-light railcar 1 climbs to the height of the branch track along the spiral track 33 by its own power, and uses the track changing guide to enter the branch track 21 to travel. When outbound, the action is reversed. As shown in Fig. 19, when entering the station, the translation guide 29 is translated and raised under the action of the track support column elevator, and the ultra-light railcar rises accordingly. As shown in FIG. 20, when the translation guide 29 rises to the height of the branch line track and coincides with it, the ultra-light railcar enters the branch line track. When outbound, the action is reversed.
如图 21 , 楼层式车站直接设于建筑物的 2至 20层的任何楼层内, 它包括轨 道 21和停车间, 停车间外侧开设与楼房外墙 37齐平的外滑动门 36, 内侧开设与 楼房相通的内滑动门 35。 楼层式车站可与建筑物的电梯间 34配套; 超轻型轨道 车可沿超轻型架空轨道水平进入该楼层, 由自动门将超轻型轨道车与内外空间分 割。 乘客可利用电梯到达车站楼层, 并直接进出超轻型轨道车。 38为楼层地板。  As shown in Figure 21, a floor-type station is located directly on any floor of the building from the 2nd to the 20th floor. It includes the track 21 and the parking space. The outer sliding door 36 is flush with the exterior wall 37 of the building. The inner sliding door 35 communicating with the building. The floor-type station can be matched with the elevator room 34 of the building; the ultra-light rail car can enter the floor horizontally along the ultra-light overhead rail, and the ultra-light rail car is separated from the internal and external space by an automatic door. Passengers can use the elevator to reach the station floor and directly enter and exit the ultra-light railcar. 38 is the floor.
全方位车站设有计算机, 用户可通过操作计算机召唤超轻型轨道车。 超轻型 架空轨道系统和全方位车站因其低价位而实现高覆盖率, BP : 专线到楼, 车站到 门, 实现足不出楼的个性化交通。  Computers are installed at all-round stations, and users can summon ultralight rail cars by operating the computers. Ultra-light overhead rail system and omni-directional station achieve high coverage due to its low price. BP: Dedicated line to the building, station to the door, to achieve personalized transportation without leaving the building.
车站中的货站分为配货中心站和送货站。 配货中心站可在商业中心的计算机 管理下自动为超轻型轨道车装货。 送货站设于购货人取货处, 超轻型轨道车可通 过超轻型架空轨道和送货站自动送货上门。  The cargo station in the station is divided into a distribution center station and a delivery station. The distribution center station can automatically load ultralight rail cars under the computer management of the commercial center. The delivery station is located at the pick-up point of the purchaser. The ultra-light railcar can be delivered to the door automatically through the ultra-light overhead rail and the delivery station.
上述可遮挡风雨的外罩 31也可不设, 但车站外观和舒适性会因此变差。 上述外滑动门 36和内滑动门 35也可不设, 但车站外观和人上下车的安全性 会因此变差。  The weather-resistant cover 31 described above may not be provided, but the appearance and comfort of the station may be deteriorated. The above-mentioned outer sliding door 36 and inner sliding door 35 may not be provided, but the appearance of the station and the safety of people getting on and off the vehicle may be deteriorated.
四.低耗车库  4. Low-consumption garage
低耗车库由车库架空轨道、 支撑物、 风雨罩构成。 超轻型轨道车按照节约空 间方式密集排列 (见图 22); 或将超轻型轨道车折叠 (见图 23 ), 以求最大限度节 约空车所占空间。 超轻型轨道车在中心计算机的控制下, 利用换轨导轨、 穿行导 轨、 转向导轨和平移导轨进出支线、 支干线或干线轨道。  The low-consumption garage is composed of a garage overhead track, supports, and weather shields. The ultra-light rail cars are densely arranged in a space-saving manner (see Figure 22); or the ultra-light rail cars are folded (see Figure 23) in order to minimize the space occupied by empty cars. Under the control of the central computer, the ultra-light railcars use rail changing rails, transit rails, steering rails, and translation rails to enter and exit branch lines, branch lines, or trunk rails.
五.中心计算机控制系统  V. Central computer control system
中心计算机控制系统由一个大型计算机群、 计算机通信网络和控制程序构 成。 按照下述程序完成对整个交通系统的控制 (见图 24):  The central computer control system consists of a large computer cluster, computer communication network, and control programs. Follow the procedure below to complete control of the entire transportation system (see Figure 24):
1. 客户通过公共通信网络或在车站召唤超轻型轨道车。  1. The customer summons an ultra-light railcar through a public communication network or at a station.
2. 中心计算机根据线路占用和各车辆运行状态, 选择空载车和调车优化路 线。  2. The central computer selects no-load vehicles and shunting to optimize the routes according to the line occupation and the running status of each vehicle.
3. 中心计算机将空车调往客户上车站。  3. The central computer transfers the empty car to the customer to the station.
4. 客户上车后, 中心计算机根据轨道线路占用和各车辆运行状态, 选择优 化路线, 将重载车送往目的地。 4. After the customer gets on the car, the central computer selects the optimal one according to the occupation of the track line and the running status of each vehicle. Turn the route and send the heavy truck to its destination.
5. 途中, 超轻型架空轨道系统的感应器不断将感应获得的各车辆位置、 速 度等数据传给中心计算机。  5. On the way, the sensors of the ultra-light overhead track system continuously transmitted the position and speed data of each vehicle to the central computer.
6. 中心计算机根据各车辆运行状况不间断地适时调整、 优化各车辆的运行 路线, 实时判断转向需求。  6. The central computer adjusts and optimizes the running route of each vehicle in a timely manner according to the running status of each vehicle, and determines the steering demand in real time.
7. 当需要换轨或转向时, 中心计算机通过计算机通信网络控制相应导轨改 变车辆的运行轨道或方向。  7. When changing tracks or turning, the central computer controls the corresponding guide rails to change the running track or direction of the vehicle through the computer communication network.
8. 中心计算机根据各车辆运行状况不间断地适时调整、 优化各车辆的运行 路线, 实时判断调速需求。  8. The central computer adjusts and optimizes the running route of each vehicle in a timely manner according to the running status of each vehicle, and judges the speed regulation demand in real time.
9. 当需要调速时, 中心计算机通过计算机通信网络控制车辆调速。  9. When the speed is needed, the central computer controls the speed of the vehicle through the computer communication network.
10.中心计算机不断将候车乘客数量、 上下车站、 出行时间作完整记录和统 计分析, 从而推算出轨道、 车辆冗余或短缺, 并向轨道网络快速敷设系统发出线 路车辆调整指令。  10. The central computer keeps making a complete record and statistical analysis of the number of waiting passengers, getting on and off the station, and travel time, so as to estimate the track or vehicle redundancy or shortage, and issues a line vehicle adjustment instruction to the track network rapid laying system.
11.接到中心计算机的指令后, 轨道网络快速敷设系统自动前往现场展开线 路调整作业。  11. After receiving the instruction from the central computer, the track network rapid laying system will automatically go to the site to start the line adjustment operation.
12.受施工影响的轨道网络被计算机自动标记, 途经的超轻型轨道车从计算 机选择的迂回路线绕行。 由此构成的一个自动信息反馈和调整机制, 可以使整个 交通系统的线路车辆布局随客 /货运量的变化时刻保持冗余度最低、 适用度最高。  12. The track network affected by the construction is automatically marked by the computer, and the ultra-light railcar passing by is detoured from the circuitous circuit selected by the computer. This constitutes an automatic information feedback and adjustment mechanism, which can keep the line vehicle layout of the entire transportation system with the minimum redundancy and the highest applicability as the passenger / cargo volume changes.
上述的轨道网络快速敷设系统由自动化承重柱设置工程车和吊轨安装工程车 构成。 吊轨、 承重柱、 柱基础均按标准件方式生产, 可实现任意互换。 整个线路 网络依据人口分布密度、 出行时间、 地点的自动统计数据为依据, 采取运筹学的 网络最大流求解方法进行规划, 在城市预设吊轨线路的位置预埋柱基础, 承重柱 与柱基础之间以标准件连接。 当需要时, 吊轨敷设施工机械可快速敷设吊轨线路。 部分承重柱可自行打桩, 用于在没有预置柱基础的地方临时快速设置吊轨线路。 该系统可以满足任何临时性集会的人口聚集、 疏散需要。 在本发明的具体实施例中, 所述超轻型架空轨道 21 是由刚性轨道和柔性轨 道组成。  The above rail network rapid laying system consists of an automatic load-bearing column setting engineering vehicle and a hanging rail installation engineering vehicle. Hanging rails, load-bearing columns, and column foundations are produced according to standard parts, which can be exchanged arbitrarily. The entire line network is planned based on the automatic statistical data of population distribution density, travel time, and location. The network maximum flow method of operations research is used for planning. The pre-embedded column foundation, load-bearing column, and column foundation are planned at the location of the city's preset hanging rail line. Connect with standard parts. When needed, the hanging rail laying facility machinery can quickly lay the hanging rail line. Some load-bearing columns can be piled by themselves, which is used to temporarily and quickly set up the hanging rail line in the place without the foundation of the preset column. The system can meet the population gathering and evacuation needs of any temporary assembly. In a specific embodiment of the present invention, the ultralight overhead track 21 is composed of a rigid track and a flexible track.
刚性轨道用于纵向坡度较缓、 车速较快的线路。 如图 25 所示, 它由管形轨 道 60、 导向轨 51、 摩擦轨 53构成。 管形轨道 60以超轻型材料 (如玻璃钢、 铝镁 合金或碳纤维等) 制成薄壳管形, 用于承载超轻型轨道车 1。 超轻型轨道车 1 在 管形轨道 21内行驶。 导向轨 51置于管形轨道 60内顶面, 超轻型轨道车 1的导向 机构 50嵌于导向轨 51内, 引导超轻型轨道车沿导向轨前进。 摩擦轨 53置于管形 轨道 60内底面, 超轻型轨道车 1的主动轮和承重轮嵌于摩擦轨 53内, 为超轻型 轨道车提供前进、 加速、 减速、 刹车所必需的承重力、 摩擦力和动力。 Rigid tracks are used for lines with slower longitudinal gradients and faster speeds. As shown in FIG. 25, it is composed of a tubular rail 60, a guide rail 51, and a friction rail 53. The tubular track 60 is made of an ultra-lightweight material (such as FRP, aluminum-magnesium alloy, or carbon fiber, etc.) into a thin-shell tubular shape for carrying the ultra-lightweight rail car 1. The ultra-light railcar 1 travels inside the tubular rail 21. The guide rail 51 is placed on the inner top surface of the tubular rail 60, and the guide of the ultra-light railcar 1 The mechanism 50 is embedded in the guide rail 51 and guides the ultra-light railcar along the guide rail. The friction rail 53 is placed on the inner bottom surface of the tubular rail 60. The driving wheels and load-bearing wheels of the ultra-light railcar 1 are embedded in the friction rail 53 to provide the ultra-light railcar with the load-bearing and friction necessary for forward, acceleration, deceleration and braking. Force and power.
由于超轻型轨道车 1 在管形轨道 60 内是单方向行驶, 所以, 每一条刚性轨 道包括两条管形轨道: 一条为上行线管形轨道 6Γ, 一条为下行线管形轨道 61 ", 如图 26所示。 如图 27、 28所示, 上行线管形轨道 6 与下行线管形轨道 61 "垂 直设置, 它们之间以连接点 61作等间隔或不等间隔的刚性连接加固, 以增强轨道 的垂直刚性。 上行线管形轨道 与下行线管形轨道 61 "横向等距离或不等距离 以固定臂 62连接在单支撑柱 25, 或双支撑柱 25 "上。 单支撑柱 25, 或双支撑柱 25 "是用来吊挂、 固定轨道的, 单柱式 25' 对占地要求低, 双柱式 25"稳定性好。 为了使单柱式轨道支撑柱 25 ' 更稳定, 可增加脚柱加强板 63 以增加其侧向稳定 性。  Since the ultra-light railcar 1 travels in one direction in the tubular track 60, each rigid track includes two tubular tracks: one is an upward-line tubular track 6Γ, and one is a downward-line tubular track 61 ", such as This is shown in Figure 26. As shown in Figures 27 and 28, the upstream tubular track 6 and the downstream tubular track 61 "are vertically arranged, and the connection points 61 are used to reinforce the rigid connections at equal or unequal intervals. Enhance the vertical rigidity of the track. Ascending tubular track and descending tubular track 61 "are equidistant or unequal laterally connected with a fixed arm 62 to a single support column 25, or a double support column 25". The single-pillar 25 or double-pillar 25 "is used to suspend and fix the track. The single-pillar 25 'requires less space and the double-pillar 25" has good stability. In order to make the single-pillar track support column 25 'more stable, a foot column reinforcing plate 63 can be added to increase its lateral stability.
组成超轻型架空轨道系统 2的柔性轨道用于纵向坡度较陡、 车速较慢的线路, 其结构与现有游览观光缆车相似。 它由环形钢丝索、 轨道转换器、 电动绞盘车和 钢丝索滑轮构成。 超轻型轨道车的导向机构嵌于柔性轨道的轨道转换器内, 并通 过轨道转换器使超轻型轨道车吊挂在环形钢丝索上。 环形钢丝索张紧于安装在轨 道支撑柱上的多个钢丝索滑轮之间, 并与电动绞盘车相连, 通过电动绞盘车的转 动获得动力, 在多个钢丝索滑轮之间循环转动, 带动轨道转换器移动并使超轻型 轨道车沿着环形钢丝索前进。  The flexible track forming the ultra-light overhead track system 2 is used for lines with steeper longitudinal slopes and slower speeds, and its structure is similar to that of existing sightseeing cable cars. It consists of a loop wire rope, a track changer, an electric winch and a wire rope pulley. The guide mechanism of the ultra-light rail car is embedded in the track converter of the flexible track, and the ultra-light rail car is suspended on the endless wire rope through the track converter. The endless wire rope is tensioned between a plurality of wire rope pulleys installed on the track support column, and is connected to the electric winch. The power is obtained through the rotation of the electric winch, and the tracks are circulated between the multiple wire rope pulleys to drive the track. The converter moves and moves the ultra-light railcar along a circular wire rope.
刚性轨道与柔性轨道在线路衔接处于同一个平面上设置成 90度角, 通过轨 道转换器使超轻型轨道车从刚性轨道上平滑转换到柔性轨道上, 也可使超轻型轨 道车从柔性轨道平滑转换到刚性轨道上, 从而实现计算机集中控制下的各种起伏 地形、 车速条件的轨道网络上的无缝隙换轨运行。  The rigid track and the flexible track are set at a 90-degree angle on the same plane as the line connection. The track converter can smoothly convert the ultra-light railcar from the rigid track to the flexible track, and can also make the ultra-light railcar smooth from the flexible track. Switch to a rigid track, so as to achieve seamless rail change operation on a track network with various undulating terrain and speed conditions under the centralized control of a computer.
如图 29〜图 32所示,所述轨道转换器由平移轨道 29和钢丝索抱紧器 83构成, 钢丝索抱紧器 83紧固在平移导轨 29上。 刚性轨与柔性轨钢丝索 82成 90度交叉 设置, 刚性轨的前端与平移导轨 29衔接, 钢丝索抱紧器 83安装在平移导轨 29的 顶端, 并使绞盘车拉动的柔性轨钢丝索 82从钢丝索抱紧器 83中穿过。 当超轻型 轨道车 1需要从刚性轨转换至柔性轨时, 先靠自身动力从 1号位置移动到 2号位 置, 进入平移导轨 29区段内; 然后平移导轨 29在外加驱动力作用下由 2号位置 向 3号位置作加速度平移, 带动超轻型轨道车 1由 2号位置向 3号位置作加速度 移动, 当平移导轨 29的平移速度与柔性轨钢丝索的运动速度相等时, 平移导轨 上的钢丝索抱紧器 83抱紧柔性轨钢丝索, 同时平移导轨 29失去外加驱动力, 在 绞盘车拉动的柔性轨钢丝索 82带动下, 通过钢丝索抱紧器 83和平移导轨 29使超 轻型轨道车 1跟随柔性轨钢丝索 82沿柔性轨方向前进。 当超轻型轨道车 1需要从 柔性轨转换至刚性轨时, 按相反顺序动作。 As shown in FIGS. 29 to 32, the track converter is composed of a translation track 29 and a wire rope clamper 83, and the wire rope clamper 83 is fastened on the translation guide rail 29. The rigid rail and the flexible rail wire rope 82 are arranged at a 90-degree cross, the front end of the rigid rail is connected to the translation guide rail 29, and a wire rope clamper 83 is installed at the top of the translation guide rail 29, and the flexible rail wire rope 82 pulled by the winch is removed from The wire rope retainer 83 passes through. When the ultra-light railcar 1 needs to switch from a rigid rail to a flexible rail, it must first move from the 1st position to the 2nd position by its own power and enter the section of the translational guide 29; then, the translational guide 29 is driven by 2 under the action of the additional driving force. Position No. 3 is moved to position No. 3 to drive the ultra-light railcar 1 to move from No. 2 to No. 3. When the translation speed of translation rail 29 is equal to the speed of the flexible rail wire rope, The wire rope clamper 83 holds the flexible rail wire rope, and at the same time, the translation guide rail 29 loses the driving force. Driven by the flexible rail wire rope 82 pulled by the winch, the ultra-light railcar 1 follows the flexible rail wire rope 82 in the direction of the flexible rail through the wire rope clamper 83 and the translation guide rail 29. When the ultra-light railcar 1 needs to be switched from a flexible rail to a rigid rail, it operates in the reverse order.
在本发明的具体实施例中, 为了使超轻型轨道车 1能在架空轨道系统 2上畅 通无阻运行, 构成轨道系统 2的换轨导轨 26、 穿行导轨 27、 转向导轨 28和平移 导轨 29均为刚性轨道。  In the specific embodiment of the present invention, in order to allow the ultra-light railcar 1 to run unobstructed on the overhead rail system 2, the rail changing rail 26, the traveling rail 27, the steering rail 28 and the translation rail 29 constituting the rail system 2 are all Rigid rail.
如图 33、 图 25、 图 34所示, 超轻型轨道车 1主要由车厢 11、 信息处理装置 12、 导向机构 50、 主动轮 52、 承重轮 58、 驱动控制箱 54构成。  As shown in FIGS. 33, 25, and 34, the ultra-light railcar 1 is mainly composed of a carriage 11, an information processing device 12, a guide mechanism 50, a driving wheel 52, a load-bearing wheel 58, and a drive control box 54.
超轻型轨道车的车厢 11用于承载乘客 55, 其车门 56置于乘客 55前方, 可 沿中轴线 59旋转开闭。  The carriage 11 of the ultra-light railcar is used to carry passengers 55, and its door 56 is placed in front of the passenger 55, and can be opened and closed along the central axis 59.
超轻型轨道车的导向机构 50嵌在管形轨道 60顶部的导向轨 51内, 并通过导 向轨 51从高架轨道系统 2上获得电力、 左右平衡力和前进方向 (其原理见图 38- 41 ); 超轻型轨道车的主动轮 52与承重轮 58成前后一字形配置, 嵌在管形轨道 60 底部的摩擦轨 53 内, 支撑超轻型轨道车的重力; 并由驱动控制箱 54内的变频电 机驱动主动轮 52, 使其在架空轨道上行走或制动, 推动超轻型轨道车前进、 加速、 匀速、 减速或停止。  The guide mechanism 50 of the ultra-light railcar is embedded in the guide rail 51 on the top of the tubular rail 60, and obtains electricity, left-right balance force, and forward direction from the elevated rail system 2 through the guide rail 51 (the principle is shown in Figure 38-41) The driving wheels 52 and load-bearing wheels 58 of the ultra-light railcar are arranged in a front-to-rear shape, embedded in the friction rail 53 at the bottom of the tube-shaped rail 60 to support the gravity of the ultra-light railcar; and it is driven by a variable frequency motor in the control box 54; The driving wheel 52 is driven to make it walk or brake on the overhead track, and push the ultra-light railcar forward, accelerate, uniform speed, decelerate or stop.
如图 35-图 37所示, 导向机构 50由纵向导向轮 64、 横向导向轮 65、 横向导 向轮摆臂 66、 悬吊板 67组成。 悬吊板 67的下部连接超轻型轨道车车厢 11 ; 纵向 导向轮 64 的轮轴横穿过悬吊板 67, 纵向导向轮的轮箍由导电材料 (如石墨) 制 成, 嵌在导向轨 51的两条槽形轨道内行走, 两条槽形轨道下部敷设输电线, 为超 轻型轨道车提供电力; 横向导向轮摆臂 66—端与横向导向轮 65的轮轴作 90'度连 接, 另一端与悬吊板 67连接, 并围绕该连接点可作小范围横向摆动。 横向导向轮 65 的轮箍内置电磁铁, 当电磁铁内的线圈有不同方向的电流通过时, 横向导向轮 65在不同方向的磁力作用下可吸向相应方向的导向轨侧壁, 为超轻型轨道车提供 不同的前进方向。  As shown in FIGS. 35-37, the guide mechanism 50 is composed of a longitudinal guide wheel 64, a transverse guide wheel 65, a transverse guide wheel swing arm 66, and a suspension plate 67. The lower part of the suspension plate 67 is connected to the ultra-light railcar compartment 11; the axle of the longitudinal guide wheel 64 crosses the suspension plate 67, and the wheel hub of the longitudinal guide wheel is made of conductive material (such as graphite) and is embedded in the guide rail 51. The two trough-shaped rails travel inside. Power transmission lines are laid under the two trough-shaped rails to provide power for the ultra-light railcar. The horizontal guide wheel swing arm 66-end is connected to the axle of the horizontal guide wheel 65 by 90 'degrees, and the other end is connected with The suspension board 67 is connected, and can swing laterally within a small range around the connection point. The wheel hub of the lateral guide wheel 65 has a built-in electromagnet. When the coils in the electromagnet pass currents in different directions, the lateral guide wheel 65 can be attracted to the side wall of the guide rail in the corresponding direction by the magnetic force in different directions. Rail cars offer different directions of advance.
如图 38-图 39所示, 当横^导向轮 65在内部电磁铁磁力的作用下吸向导向 轨右侧时, 横向导向轮摆臂 66带动悬吊板 67贴向导向轨右侧行驶, 从而引导超 轻型轨道车沿着直线轨道方向前进, 由位置 1走向位置 2。  As shown in FIGS. 38-39, when the horizontal guide wheel 65 is attracted to the right side of the guide rail by the magnetic force of the internal electromagnet, the horizontal guide wheel swing arm 66 drives the suspension plate 67 to stick to the right side of the guide rail. Thereby, the ultra-light railcar is guided to move along the straight track direction from position 1 to position 2.
如图 40-图 41所示, 当横向导向轮 65在内部电磁铁磁力的作用下吸向导向 轨左侧时, 横向导向轮摆臂 66带动悬吊板 67贴向导向轨左侧行驶, 从而引导超 轻型轨道车沿着弯线轨道方向前进, 由位置 1走向位置 3。  As shown in FIGS. 40-41, when the lateral guide wheel 65 is attracted to the left side of the guide rail by the magnetic force of the internal electromagnet, the lateral guide wheel swing arm 66 drives the suspension plate 67 to stick to the left side of the guide rail, thereby Guide the ultra-light railcar along the curved track direction from position 1 to position 3.
为了给超轻型轨道车内的乘客提供宜人的乘坐环境, 还可以在管形轨道 60 内安装集中式空气调节系统。 为了给超轻型轨道车内的乘客提供紧急情况下的逃 生途径, 在管形轨道 60内还安装有安全救生系统。 In order to provide a pleasant riding environment for passengers in ultra-light rail cars, Install a centralized air conditioning system inside. In order to provide an emergency escape route for passengers in the ultra-light railcar, a safety lifesaving system is also installed in the tubular rail 60.
另外, 在超轻型轨道车的前后端各配置 1个微型防撞测距传感器, 该传感器 与计算机控制系统相连。 当车前一定距离 (依车速而定) 出现障碍物时, 反馈信 息令超轻型轨道车减速直至停止或倒行。  In addition, a miniature anti-collision ranging sensor is arranged at each of the front and rear ends of the ultra-light railcar, and the sensor is connected to a computer control system. When an obstacle appears at a certain distance in front of the vehicle (depending on the speed of the vehicle), the feedback information decelerates the ultra-light railcar until it stops or reverses.
每辆超轻型轨道车的前后端各配置 1块高磁力永久磁钢。 两块这种永久磁钢 之间可产生足够的排斥力。 当超轻型轨道车速度低于临界值时, 同向行驶的两辆 车永远不可能相撞。 即使某辆牟失去动力, 在管形轨道内的流动空气的推拉作用 和两辆超轻型轨道车的永久磁钢排斥力作用下, 失去动力的超轻型轨道车会继续 前进, 直到进入避让线。  Each ultra-light railcar is equipped with a high-magnetic permanent magnet at the front and rear ends. Sufficient repulsion can be created between two pieces of this permanent magnet. When the speed of an ultra-light railcar is below a critical value, two cars traveling in the same direction can never collide. Even if a Mou loses power, under the action of the push and pull of the flowing air in the tubular track and the permanent magnetic steel repulsion of the two ultra-light rail cars, the ultra-light rail cars that lose power will continue to move forward until they enter the avoidance line.
抛锚车迸入避让线后, 机械力会自动打开安全阀, 超轻型轨道车放出救生钢 缆, 在重力作用下, 整个超轻型轨道车被缓缓降落到地面, 在车底部的减振装置 帮助下实施软着陆。  After the anchor vehicle enters the avoidance line, the mechanical force will automatically open the safety valve, and the ultra-light rail car releases the life-saving cable. Under the action of gravity, the entire ultra-light rail car is slowly dropped to the ground. The vibration damping device at the bottom of the car helps Under soft landing.
每辆超轻型轨道车都配有蓄电池, 确保在停电时, 可以依靠自身动力进入避 让线并降落到地面。  Each ultra-light railcar is equipped with a battery to ensure that in the event of a power outage, it can use its own power to enter the avoidance line and land on the ground.
上述实施例仅为说明本发明而为, 并非用于限制本发明的专利保护范围, 对 于依照上述实施例所作的任何等同变换, 均应在本发明的专利保护范围之内。  The above embodiments are only for explaining the present invention, and are not used to limit the scope of patent protection of the present invention. Any equivalent transformation made according to the above embodiments should fall within the scope of patent protection of the present invention.

Claims

1.一种超轻型高架自动化轨道交通系统, 其特征在于: 它包括- 轨道车, 用于载人或物; 1. An ultra-light overhead automated rail transportation system, characterized in that it comprises:-a rail car for carrying people or objects;
架空轨道系统, 用于承载和引导所述轨道车;  An overhead track system for carrying and guiding the rail car;
车站, 与所述架空轨道系统联接, 用于人或物上、 下车;  A station, which is connected to the overhead track system, and is used to get on or off people or objects;
车库, 与所述架空轨道系权统联接, 用于停泊所述轨道车;  A garage, which is connected with the overhead rail system for parking the rail car;
计算机控制系统, 与所述轨道车、 架空轨道系统、 车站、 车库通信, 控制整 禾  A computer control system that communicates with the railcar, overhead rail system, station, garage, and
个交通系统。 Transportation system.
2.如权利要求 1所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述轨道车由车厢、 信息处理装置、 执行机构、 驱动装置组成, 所述信息处 理装置与所述计算机控制系统通信, 接收计算机控求制系统的指令, 所述执行机构 根据此指令使所述驱动装置动作;  2. The ultralight overhead automated rail transportation system according to claim 1, wherein: said rail car is composed of a carriage, an information processing device, an actuator, and a driving device, and said information processing device and said computer control system Communicating, receiving an instruction from a computer control system, and the execution mechanism causing the driving device to act according to the instruction;
所述架空轨道系统由架空轨道、 轨道支撑物、 信息感应器、 换轨导轨、 穿行 导轨、 转向导轨和平移导轨组成;  The overhead track system is composed of an overhead track, a track support, an information sensor, a track changing guide, a traveling guide, a turning guide and a translation guide;
所述计算机控制系统由中心计算机和通信网络组成。  The computer control system is composed of a central computer and a communication network.
3.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述信息处理装置是以无线或有线通信方式与交通系统通信网络联接的微型 计算机;  3. The ultra-light overhead automated rail transit system according to claim 2, wherein: said information processing device is a microcomputer connected to a communication network of a transportation system by wireless or wired communication;
所述驱动装置是以电动机驱动在轨道上行走的滚轮;  The driving device is a roller driven on a track by a motor;
所述执行机构是可以改变驱动装置运动速度的微处理器和机电器件。  The actuator is a microprocessor and an electromechanical device that can change the moving speed of the driving device.
4.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于- 所述驱动装置是与轨道相配合的磁悬浮装置。  4. The ultra-light overhead automated rail transportation system according to claim 2, characterized in that-the driving device is a magnetic levitation device matched with the rail.
5.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于- 所述架空轨道吊挂在所述轨道支撑物上, 其断面呈底部开口的外包式 "口" 字形或其他相似形状, 所述轨道车的驱动装置可嵌置于其中。  5. The ultra-light overhead automated rail transit system according to claim 2, characterized in that-the overhead rail is hung on the rail support, and the cross-section of the overhead rail is open-bottomed "mouth" shape or other similar Shape, the driving device of the railcar can be embedded therein.
6.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述架空轨道吊挂在所述轨道支撑物上, 其断面呈内衬式 "工"字形或其他 相似形状, 所述轨道车的驱动装置可夹置于其两侧。  6. The ultra-light overhead automated rail transportation system according to claim 2, characterized in that: the overhead rail is suspended on the rail support, and a cross section thereof is lined in an "I" shape or other similar shape, The driving device of the railcar can be clamped on both sides thereof.
7.如权利要求 5或 6所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述架空轨道外覆气流整流罩, 罩内填充消音填充物。 The ultra-light overhead automatic rail transit system according to claim 5 or 6, wherein the overhead rail is covered with an airflow fairing, and a sound-absorbing filler is filled in the cover.
8.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述信息感应器包括信息感应移动端子和信息感应固定端子, 该移动端子置 于所述轨道车中贴近所述架空轨道处, 该固定端子沿架空轨道线路等距或不等距 多处设置, 每一固定端子被中心计算机分配一个地址, 每一移动端子被中心计算 机分配一个身份识别编码。 The ultra-light overhead automated rail transportation system according to claim 2, characterized in that: the information sensor comprises an information-sensing mobile terminal and an information-sensing fixed terminal, and the mobile terminal is placed in the rail car and close to the information terminal. At the overhead track, the fixed terminals are arranged at equal or unequal distances along the overhead track line. Each fixed terminal is assigned an address by the central computer, and each mobile terminal is assigned an identification code by the central computer.
9.如权利要求 2所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述换轨导轨、 穿行导轨、 转向导轨和平移导轨分别通过通信网络与所述中 心计算机相联, 并由其驱动机抅根据中心计算机的指令而驱动, 其中:  9. The ultra-light overhead automated rail transportation system according to claim 2, wherein the rail changing rail, the traveling rail, the turning rail, and the translation rail are respectively connected to the central computer through a communication network, and are connected by the central computer. The driver is driven according to the instructions of the central computer, where:
换轨导轨由可平移的并置的直线导轨段和弯线导轨段组成;  Rail changing rails consist of translating juxtaposed linear rail segments and curved rail segments;
穿行导轨和转向导轨均为可旋转的直线或弯线导轨段;  Both the guide rail and steering rail are rotatable linear or curved rail segments;
平移导轨为可平移的直线或弯线导轨段。 .  The translation guide is a linear or curved guide rail segment that can be translated. .
10.如权利要求 1所述的超轻型高架自动化轨道交通系统, 其特征在于: 所述车站分为地面式和楼层式两种, 其中:  10. The ultra-light overhead automated rail transit system according to claim 1, wherein: the station is divided into two types of ground type and floor type, wherein:
地面式车站包括外罩及置于罩内的用于升降轨道车的盘旋轨道或倾斜轨道或 升降机;  Ground stations include outer covers and spiral or inclined tracks or lifts for lifting railcars placed in the covers;
楼层式车站包括轨道和停车间, 停车间外侧开设与楼房外墙齐平的外门, 内 侧开设与楼房相通的内门。  A floor-type station includes a track and a parking space. An outer door flush with the exterior wall of the building is provided on the outside of the parking space, and an inner door communicating with the building is provided on the inside.
11. 如权利要求 2 所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述架空轨道由刚性轨道和柔性轨道组成;  11. The ultra-light overhead automated rail transportation system according to claim 2, wherein: the overhead track is composed of a rigid track and a flexible track;
所述刚性轨道用于纵向坡度较缓、 车速较快的线路, 由管形轨道、 导向轨、 和摩擦轨构成; 所述管形轨道以超轻型材料制成薄壳管形, 用于承载所述超轻型 轨道车在管形轨道内行驶; 所述导向轨置于管形轨道内顶面, 超轻型轨道车的导 向机构嵌于导向轨内, 导向轨两条槽形轨道下部敷设输电线, 为超轻型轨道车提 供电力; 所述摩擦轨置于管形轨道内底面, 所述超轻型轨道车的主动轮嵌于所述 摩擦轨内;  The rigid track is used for a track with a slower vertical slope and a faster speed, and is composed of a tubular track, a guide track, and a friction track; the tubular track is made of a super-lightweight material with a thin shell tube shape and is used to carry The ultra-light railcar runs in a tube-shaped track; the guide rail is placed on the top surface of the tube-shaped track; the guide mechanism of the ultra-light railcar is embedded in the guide rail; Providing power for an ultralight railcar; the friction rail is placed on the inner bottom surface of a tubular rail, and the driving wheels of the ultralight railcar are embedded in the friction rail;
所述柔性轨道用于纵向坡度较陡、 车速较慢的线路, 其结构与现有游览观光 缆车相似, 由环形钢丝索、 轨道转换器、 电动绞盘车和钢丝索滑轮构成; 超轻型 轨道车的导向轮嵌于轨道转换器内, 并通过轨道转换器吊挂在环形钢丝索上; 环 形钢丝索张紧于安装在支撑柱上的多个钢丝索滑轮之间, 并与电动绞盘车相连, 通过电动绞盘车的转动获得动力, 在多个钢丝索滑轮之间循环转动, 带动轨道转 换器移动并使超轻型轨道车沿着环形钢丝索前进。  The flexible track is used for lines with steep longitudinal slopes and slower speeds, and its structure is similar to that of existing sightseeing cable cars, and is composed of a loop wire rope, a track converter, an electric winch and a wire rope pulley; The guide wheel is embedded in the track converter and is hung on the endless wire rope through the track converter; the endless wire rope is tensioned between a plurality of wire rope pulleys installed on the support column and is connected with the electric winch. The power of the electric winch is obtained by the rotation of the plurality of wire rope pulleys, which drives the track converter to move and moves the ultra-light rail car along the endless wire rope.
12. 如权利要求 11所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述刚性轨道包括上行线管形轨道和下行线管形轨道; 上行线管形轨道与下行线管 形轨道上下垂直设置, 它们之间以连接点作等间隔或不等间隔的连接加固; 上行 线管形轨道与下行线管形轨道横向等距离或不等距离以固定臂连接在支撑柱上。 12. The ultra-light overhead automated rail transit system according to claim 11, wherein: The rigid track includes an ascending tubular track and a descending tubular track; the ascending tubular track and the descending tubular track are vertically arranged vertically, and are connected and reinforced at equal or unequal intervals by connection points; the ascending line The tube-shaped track and the down-line tube-shaped track are laterally equidistantly or unequally connected to the support column by a fixed arm.
13. 如权利要求 11所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述刚性轨道与柔性轨道在线路衔接处于同一个平面上设置成 90度角, 通过所述轨 道转换器使超轻型轨道车在刚性轨道与柔性轨道之间平滑转换。  13. The ultra-light overhead automated rail transportation system according to claim 11, wherein: the rigid rail and the flexible rail are arranged at a 90-degree angle on the same plane where the line is connected, and the ultra-high Light railcars smoothly transition between rigid and flexible tracks.
14. 如权利要求 13所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述轨道转换器由平移导轨和钢 索抱紧器构成; 钢丝索抱紧器紧固在平移导轨上, 所述柔性导轨的环行钢丝索穿过钢丝索抱紧器。  14. The ultra-light overhead automated rail transportation system according to claim 13, wherein: the track converter is composed of a translation guide rail and a steel cable retainer; and the wire cable retainer is fastened to the translation guide rail. The circular wire rope of the flexible guide rail passes through the wire rope retainer.
15. 如权利要求 11所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述超轻型轨道车的驱动装置包括主动轮、 承重轮和导向机构;  15. The ultra-light overhead automated rail transit system according to claim 11, wherein: the driving device of the ultra-light rail car comprises a driving wheel, a load-bearing wheel, and a guide mechanism;
所述超轻型轨道车的导向机构嵌在所述轨道系统的管形轨道顶部的导向轨 内, 并通过导向轨从高架轨道系统上获得电力、 左右平衡力和前进方向;  The guide mechanism of the ultra-light railcar is embedded in the guide rail on top of the tubular track of the track system, and obtains electricity, left-right balance force, and forward direction from the elevated track system through the guide rail;
所述超轻型轨道车的主动轮与承重轮成前后一字形配置, 嵌在所述管形轨道 底部的摩擦轨内, 支撑超轻型轨道车的重力; 并由所述执行机构的变频电机驱动 主动轮, 使其在架空轨道上行走或制动, 推动超轻型轨道车前进、 加速、 勾速、 减速或停止。  The driving wheels and load-bearing wheels of the ultra-light railcar are arranged in a front-to-rear shape and are embedded in the friction rails at the bottom of the tube-shaped rail to support the gravity of the ultra-light railcar; Wheel, make it walk or brake on the overhead track, and push the ultra-light railcar forward, accelerate, hook speed, decelerate or stop.
16. 如权利要求 15所述的超轻型高架自动化轨道交通系统, 其特征在于: 所 述轨道车的导向机构由纵向导向轮、 横向导向轮、 横向导向轮摆臂、 悬吊板组成; 悬吊板的下部连接超轻型轨道车; 纵向导向轮的轮轴横穿过悬吊板, 纵向导向轮 的轮箍由导电材料 (如石墨) 制成, 嵌在导向轨的两条槽形轨道内行走; 横向导 向轮摆臂一端与横向导向轮的轮轴作 90度连接, 另一端与悬吊板连接, 并围绕该 连接点可作小范围横向摆动; 横向导向轮的轮箍内置电磁铁, 当电磁铁内的线圈 有不同方向的电流通过时, 横向导向轮在不同方向的磁力作用下可吸向相应方向 的导向轨侧壁, 为超轻型轨道车提供左右平衡力和前进方向。  16. The ultra-light overhead automated rail transportation system according to claim 15, wherein: the guide mechanism of the rail car comprises a longitudinal guide wheel, a transverse guide wheel, a transverse guide wheel swing arm, and a suspension plate; The lower part of the plate is connected to the ultra-light railcar; the axle of the longitudinal guide wheel crosses the suspension board, and the wheel hub of the longitudinal guide wheel is made of conductive material (such as graphite) and is embedded in the two grooved tracks of the guide rail to travel; One end of the horizontal guide wheel swing arm is connected to the axle of the horizontal guide wheel at 90 degrees, and the other end is connected to the suspension plate, and can swing laterally within a small range around the connection point. The wheel of the horizontal guide wheel has a built-in electromagnet. When currents in different directions are passed through the inner coils, the lateral guide wheels can be attracted to the side walls of the guide rails under the action of magnetic forces in different directions, providing left-right balance force and forward direction for the ultra-light railcar.
17. 如权利要求 16所述的超轻型高架自动化轨道交通系统, 其特征在于: 在 所述超轻型轨道车的前后端各配置 1 个微型防撞测距传感器, 该防撞测距传感器 与计算机控制系统相连。  17. The ultra-light overhead automated rail transportation system according to claim 16, characterized in that: a miniature anti-collision ranging sensor is arranged at each of the front and rear ends of the ultra-light rail vehicle, the anti-collision ranging sensor and a computer The control system is connected.
18. 如权利要求 17所述的超轻型高架自动化轨道交通系统, 其特征在于: 在 所述超轻型轨道车的前后端各配置 1块高磁力永久磁钢。  18. The ultra-light overhead automated rail transportation system according to claim 17, wherein one front and rear end of the ultra-light railcar is provided with one piece of high-magnetic permanent magnetic steel.
PCT/CN2003/000432 2002-06-07 2003-06-03 Light automatized elevated guideway transit system WO2004005101A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU2003242199A AU2003242199A1 (en) 2002-06-07 2003-06-03 Light automatized elevated guideway transit system

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN 02121121 CN1463876A (en) 2002-06-07 2002-06-07 Microlight-type elevated automation railway traffic system
CN02121121.3 2002-06-07

Publications (1)

Publication Number Publication Date
WO2004005101A1 true WO2004005101A1 (en) 2004-01-15

Family

ID=29742791

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2003/000432 WO2004005101A1 (en) 2002-06-07 2003-06-03 Light automatized elevated guideway transit system

Country Status (3)

Country Link
CN (1) CN1463876A (en)
AU (1) AU2003242199A1 (en)
WO (1) WO2004005101A1 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6865372B2 (en) 1998-06-15 2005-03-08 Sbc Technology Resources, Inc. Enhanced wireless handset, including direct handset-to-handset communication mode
CN107792085A (en) * 2017-10-20 2018-03-13 能诚集团有限公司 A kind of van-hanging pulley rail becomes rail mechanism and cableway net system

Families Citing this family (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103273924B (en) * 2013-05-17 2017-01-25 韩斐迪 Overhead miniature rail automatic public traffic system
CN103481892B (en) * 2013-09-27 2016-08-17 沈阳远大科技园有限公司 Urban traffic system with self-driven monorail hoist
CN103847747B (en) * 2014-03-14 2016-05-25 武汉工程大学 A kind of cluster type distribution rail traffic system and control method thereof
CN105799715A (en) * 2016-03-16 2016-07-27 上海电机学院 Suspension type public traffic system
CN106429279A (en) * 2016-05-09 2017-02-22 何浚炫 Divergent goods distribution device, method and system
CN108001459B (en) * 2017-12-08 2023-09-08 杭州久智自动化技术有限公司 Rail car access structure
CN109229111A (en) * 2018-09-09 2019-01-18 深圳大行同宇科技有限公司 A kind of small farm overhead track vehicle
JP2024515120A (en) * 2021-04-22 2024-04-04 ストランク、ジェフリー、ロレッシュ Self-propelled elevated transport system

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4841871A (en) * 1984-04-19 1989-06-27 Leibowitz Martin Nick Modular transportation system with aerodynamic lift augmented traction vehicles
JPH10510698A (en) * 1994-06-21 1998-10-13 キ キム,イン Switching system for high-speed passenger transportation systems
WO2001056854A2 (en) * 2000-02-03 2001-08-09 Skycar Co., Ltd. Personal rapid transit system having linear induction motor installed on bottom of vehicle
US6318274B1 (en) * 1996-12-02 2001-11-20 Tae Jin Park Guideway transit system

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4841871A (en) * 1984-04-19 1989-06-27 Leibowitz Martin Nick Modular transportation system with aerodynamic lift augmented traction vehicles
JPH10510698A (en) * 1994-06-21 1998-10-13 キ キム,イン Switching system for high-speed passenger transportation systems
US6318274B1 (en) * 1996-12-02 2001-11-20 Tae Jin Park Guideway transit system
WO2001056854A2 (en) * 2000-02-03 2001-08-09 Skycar Co., Ltd. Personal rapid transit system having linear induction motor installed on bottom of vehicle

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6865372B2 (en) 1998-06-15 2005-03-08 Sbc Technology Resources, Inc. Enhanced wireless handset, including direct handset-to-handset communication mode
CN107792085A (en) * 2017-10-20 2018-03-13 能诚集团有限公司 A kind of van-hanging pulley rail becomes rail mechanism and cableway net system
CN107792085B (en) * 2017-10-20 2024-04-26 能诚集团有限公司 Suspended carriage type pulley track rail-changing mechanism and cableway network system

Also Published As

Publication number Publication date
CN1463876A (en) 2003-12-31
AU2003242199A1 (en) 2004-01-23

Similar Documents

Publication Publication Date Title
JP4950177B2 (en) Tube vehicle, tube network, personal transportation system, and control system and control method therefor
EP0548112B1 (en) Transportation system
CN107600077B (en) Suspension type intelligent three-dimensional rail transit system and method
US7302319B2 (en) Personal transportation system
KR101739424B1 (en) Articulated funiculator
CN107839696B (en) Permanent magnet shaft type direct-drive air-ground sharing three-dimensional rapid rail transit system
EP2977285B1 (en) Personalised elevated urban transport
WO2021057577A1 (en) Personal automatically-controlled light maglev rail transit system capable of changing rails
US20220274632A1 (en) System and Method of Transporting Objects
JP2013500187A (en) Mass transit system
CN201951460U (en) Suspension type rail transit system
US20080288318A1 (en) Smart tram system and method for using
CN208006947U (en) A kind of light-duty empty rail traffic delivery system
CN109367548A (en) A kind of mobile cabin, track and three-dimensional Rail Transit System
US10358147B2 (en) Personalized elevated urban transport
GB2305645A (en) Overhead monorail - lowers carriage to load/unload passengers or goods
CN101279604A (en) Mini suspension type magneto-dynamic unpiloted vehicle and track therefor
WO2004005101A1 (en) Light automatized elevated guideway transit system
CN109649412A (en) A kind of light-duty empty rail traffic delivery system
JPH0811714A (en) Transport of passenger or load
CN211032545U (en) Efficient non-stop operation public transportation system
CN114889663A (en) High-speed intelligent public traffic system based on composite special-shaped flange track
Hoffmann et al. Cable-drawn urban transport systems
CN1830710A (en) Flying rotary road
CN215922169U (en) Off-hook cableway system

Legal Events

Date Code Title Description
AK Designated states

Kind code of ref document: A1

Designated state(s): AE AG AL AM AT AU AZ BA BB BG BR BY BZ CA CH CN CO CR CU CZ DE DK DM DZ EC EE ES FI GB GD GE GH GM HR HU ID IL IN IS JP KE KG KP KR KZ LC LK LR LS LT LU LV MA MD MG MK MN MW MX MZ NI NO NZ OM PH PL PT RO RU SC SD SE SG SK SL TJ TM TN TR TT TZ UA UG US UZ VC VN YU ZA ZM ZW

AL Designated countries for regional patents

Kind code of ref document: A1

Designated state(s): GH GM KE LS MW MZ SD SL SZ TZ UG ZM ZW AM AZ BY KG KZ MD RU TJ TM AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LU MC NL PT RO SE SI SK TR BF BJ CF CG CI CM GA GN GQ GW ML MR NE SN TD TG

121 Ep: the epo has been informed by wipo that ep was designated in this application
122 Ep: pct application non-entry in european phase
NENP Non-entry into the national phase

Ref country code: JP

WWW Wipo information: withdrawn in national office

Country of ref document: JP