US20210323583A1 - Logistic monorail transportation system - Google Patents
Logistic monorail transportation system Download PDFInfo
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- US20210323583A1 US20210323583A1 US17/272,990 US201917272990A US2021323583A1 US 20210323583 A1 US20210323583 A1 US 20210323583A1 US 201917272990 A US201917272990 A US 201917272990A US 2021323583 A1 US2021323583 A1 US 2021323583A1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61B—RAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
- B61B13/00—Other railway systems
- B61B13/08—Sliding or levitation systems
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61B—RAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
- B61B1/00—General arrangement of stations, platforms, or sidings; Railway networks; Rail vehicle marshalling systems
- B61B1/005—Rail vehicle marshalling systems; Rail freight terminals
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61B—RAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
- B61B13/00—Other railway systems
- B61B13/04—Monorail systems
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61D—BODY DETAILS OR KINDS OF RAILWAY VEHICLES
- B61D3/00—Wagons or vans
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L23/00—Control, warning or like safety means along the route or between vehicles or trains
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L23/00—Control, warning or like safety means along the route or between vehicles or trains
- B61L23/002—Control or safety means for heart-points and crossings of aerial railways, funicular rack-railway
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B25/00—Tracks for special kinds of railways
- E01B25/08—Tracks for mono-rails with centre of gravity of vehicle above the load-bearing rail
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B25/00—Tracks for special kinds of railways
- E01B25/22—Tracks for railways with the vehicle suspended from rigid supporting rails
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B25/00—Tracks for special kinds of railways
- E01B25/30—Tracks for magnetic suspension or levitation vehicles
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B25/00—Tracks for special kinds of railways
- E01B25/30—Tracks for magnetic suspension or levitation vehicles
- E01B25/34—Switches; Frogs; Crossings
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L2210/00—Vehicle systems
- B61L2210/04—Magnetic elevation vehicles [maglev]
Definitions
- the present invention relates to a logistic monorail transportation system, which is applied to the field of rail transportation.
- the existing monorail transport serves passengers in the urban area, and the distance between stations is too small, resulting in a low operation speed.
- the passenger comfort needs to be considered in the vehicle system, resulting in large carriages and low train speed.
- the existing monorail system must have a large space to ensure passenger safety, resulting in excessive construction costs.
- the existing monorail traffic is for passenger transport, and the cost is affected by many factors as follows:
- W 1 is the material and construction cost
- W 2 is the increased cost for vehicle comfort requirements
- W 3 is the increased cost of structure's noise influence on the surrounding environment
- W 4 is the increased cost for high vehicle speed requirements
- W 5 is the increased cost of construction requirements for interior decoration and platform paving.
- Single-mode Refers to a single mode of monorail transportation running on the same pier or on the same frame system, comprising straddle monorail transportation, suspended monorail transportation and maglev system.
- Double-mode Refers to two modes of monorail transportation running on the same pier or on the same frame system, comprising double-mode transportation comprising straddle monorail and suspended monorail, or double-mode transportation comprising maglev and suspended monorail.
- Crane Refers to the lifting equipment for lifting heavy objects, mainly used for loading and unloading cargos on straddle monorail vehicles or maglev vehicles.
- Lifting truck Refers to equipment used for loading and unloading cargos, which can be manned or unmanned, and is mainly used for loading and unloading cargos on suspended monorail vehicles, for example, the forklift.
- Turnout beam with flexible joint Comprise several steel guideways with hinge joint and are supported by the trolley. Both sides of the beams are equipped with guide panels and stabilizing panels. One end of the turnout beam is fixed when switching, and the beam moves as a whole to make the movable end of the turnout beam connect with the other turnout beam to form a fork road, changing the route of the vehicle.
- Movable turnout beam Comprise one or several linear steel beams and one or several fixed curved steel beams, supported by trolleys, and the beams keep the fixed distance between each other. With the help of the balanced guide device, the turnout beam moves back and forth in parallel with the line or in the fixed direction, and connects with the turnout beam that is set to be butted to form a branch or passage, changing the route of the vehicle.
- Pivot turnout beam Comprise of rotatable steel turnout beam. Through the rotation and locking of the entire turnout beam, the line connection between the turnout beams is completed, so as to realize the purpose of converting the vehicle from one line to another.
- the technical problems to be solved by this patent are: by proposing a logistic monorail transportation system, using a logistic track beam system, a logistic vehicle system, a logistic turnout system, a logistic handling system and a logistic signal system, it solves the problems of short distance, large size, high cost, and low speed for existing transportation, and to achieve the goal of a long-distance, light-weight, low-cost, and high-speed logistic monorail transportation system.
- the logistic monorail transportation system comprises the logistic track beam system, the logistic vehicle system, the logistic turnout system, the logistic handling system, and the logistic signal system.
- the logistic track beam system is in the form of a single-column pier studs or frame-type pier shads setting up on highways, fields or urban streets.
- logistic monorail transportation system comprises a maglev monorail logistic system, a straddle monorail logistic system, or a suspended monorail logistic system.
- the characteristics of logistic monorail transportation system are that the open structure is adopted in a logistic vehicle system for transporting cargo containers, and the logistic vehicle system is provided with a cargo container in the vehicle.
- the characteristics of logistic monorail transportation system are that a centralized power system or a distributed power system are adopted in the logistic vehicle system.
- the characteristics of logistic monorail transportation system are that a frame structure is adopted in the logistic turnout system to finish line conversion in the air.
- the characteristics of logistic monorail transportation system are that the logistic turnout system comprises a pier column, a frame and a turnout beam with, and the turnout beam with flexible joint or movable turnout beam or pivot turnout beam.
- a track trolley is set on the track on the top of the frame to drive the movement of the maglev turnout beam with.
- logistic monorail transportation system The characteristics of logistic monorail transportation system are that cranes or lifting trucks are adopted in the logistic handling system to load and unload containers on logistic vehicles.
- the characteristics of logistic monorail transportation system are that the logistic signal system comprises an unmanned driving system for controlling the logistic monorail vehicle and a turnout control signal system for controlling the monorail switch to change line.
- logistic monorail transportation system The characteristics of logistic monorail transportation system are a single-mode monorail or double-mode monorail transportation is provided on the same pier stud, or a single-mode monorail or double-mode monorail transportation is provided on the same frame.
- the characteristics of logistic monorail transportation system are that the upper level of the double-mode monorail is a straddle monorail system or a maglev system, and the lower level of the double-mode monorail transportation is a suspended monorail system.
- the characteristics of logistic monorail transportation system are that the guideways of the straddle monorail system in the double-mode monorail system are steel box guideways or concrete guideways.
- the characteristics of logistic monorail transportation system are that guideways of the maglev system in the double-mode monorail transportation are steel box guideways, I-shaped steel guideways or concrete guideways.
- the characteristics of logistic monorail transportation system are that guideway of the suspended monorail system in the double-mode monorail transportation is a steel box guideway with an opening at the bottom, an I-shaped guideway or a concrete guideway with an opening at the bottom.
- the logistic monorail transportation system is proposed in this patent, comprising the logistic track beam system, the logistic vehicle system, the logistic turnout system, the logistic handling system and the logistic signal system.
- the problems of short distance, large size, high cost, and low speed for existing transportation can be solved by using this system, and the goal of a long-distance, light-weight, low-cost, and high-speed logistic monorail transportation system can be achieved.
- the logistic monorail transportation system is proposed in this patent, in which the problem of small span for existing maglev bridge guideways can be solved by the logistic track beam system.
- the span of the maglev beam can be reduced by adopting a frame-type pier shad system, and it is suitable for a variety of terrains, and land occupation, unnecessary demolition and costs will be reduced.
- the logistic monorail transportation system is proposed in this patent, in which the logistic vehicle is improved according to the characteristics of logistic transportation in the logistic vehicle system.
- the open structure is adopted in the logistic vehicle and mainly cargo containers are transported.
- the centralized power system or the distributed power system are adopted in the logistic vehicle to meet the needs of container logistic transportation and the goals of small size and high speed will be achieved.
- the logistic monorail transportation system is proposed in this patent, in which the frame structure is adopted in the logistic turnout system to achieve line conversion in the air. Compared with the existing switch system, the problem of land occupation can be effectively solved, saving ground space, reducing costs and the size of the turnout beam with.
- the logistic monorail transportation system is proposed in this patent, in which the crane is adopted in the logistic handling system to load and unload containers.
- the loading and unloading time of containers and labor costs can be effectively reduced.
- the logistic monorail transportation system is proposed in this patent, in which the logistic signal system comprises the unmanned driving system for controlling the logistic monorail vehicle and the turnout control signal system for controlling the monorail switch to change lines.
- the transportation efficiency can be increased by using the combination of unmanned driving system and turnout control signal system in logistic transportation.
- the labor costs will be saved, and human operation errors will be reduced, and the needs of long-distance transportation can well be met.
- the double-mode monorail system is proposed in this patent, in which the double-mode monorail is set on the same pier stud and can be operated in the same three-dimensional space.
- the current problems of low space utilization and low levels of single-model monorail can be solved, and the goal of improving the level of double-mode monorail can be truly achieved.
- the double-mode monorail system is proposed in this patent, in which the double-mode monorail system can be adopted on a bridge pier line and integrated construction.
- the two monorails operate independently without mutual interference, in which the space utilization can be improved.
- FIG. 1 is a schematic diagram showing a maglev bridge track beam system with a single-column installed on the central zone of the expressway.
- FIG. 2 is a schematic diagram showing the maglev bridge track beam system with frame-type pier shads installed on the central zone of the expressway.
- FIG. 3 is a schematic diagram showing the maglev bridge track beam system with the single-column installed on the field.
- FIG. 4 is a schematic diagram showing the maglev bridge track beam system with a frame-type pier shad installed on the field.
- FIG. 5 is a schematic diagram showing the maglev bridge track beam system with the single-column installed on the urban streets.
- FIG. 6 is the schematic diagram showing the maglev bridge track beam system with the frame-type pier shad installed on the urban streets.
- FIG. 7 is the front view of a single-column pier stud system for a maglev bridge guideway for logistics.
- FIG. 8 is the three-dimensional schematic diagram showing the single-column pier stud system for a maglev logistic bridge guideway.
- FIG. 9 is the front view of a frame-type pier shad system for the maglev logistic bridge guideway.
- FIG. 10 is the three-dimensional schematic diagram showing the frame-type pier shad system for the maglev logistic bridge guideway.
- FIG. 11 is the front view of the distributed power system for a maglev logistic vehicle.
- FIG. 12 is the three-dimensional schematic diagram showing the distributed power system for the maglev logistic vehicle.
- FIG. 13 is the front view of the centralized power system for the maglev logistic vehicle.
- FIG. 14 is the three-dimensional schematic diagram showing the centralized power system for the maglev logistic vehicle.
- FIG. 15 is the three-dimensional schematic diagram showing a maglev logistic turnout system.
- FIG. 16 is the front view of a maglev logistic handling system.
- FIG. 17 is the schematic diagram showing a maglev logistic signal system.
- FIG. 18 is the schematic diagram showing a straddle logistic monorail bridge track beam system with single-pier installed on the central zone of an expressway.
- FIG. 19 is the front view of a straddle logistic monorail vehicle system.
- FIG. 20 is the three-dimensional schematic diagram showing the straddle logistic monorail vehicle system.
- FIG. 21 is the schematic diagram of a suspended monorail bridge guideway system with single-pier installed on the central zone of the expressway.
- FIG. 22 is the front view of the single-column pier stud system for a suspended monorail bridge guideway.
- FIG. 23 is the three-dimensional schematic diagram showing the single-column pier stud system for the suspended monorail bridge guideway.
- FIG. 24 is the front view of a frame-type pier shad system for a suspended monorail bridge guideway.
- FIG. 25 is the three-dimensional schematic diagram showing the frame-type pier shad system for the suspended monorail bridge guideway.
- FIG. 26 is the front view of a suspended logistic monorail vehicle system.
- FIG. 27 is the three-dimensional schematic diagram showing a suspended logistic monorail vehicle system.
- FIG. 28 is the three-dimensional schematic diagram showing a suspended logistic monorail turnout system.
- FIG. 29 is the top view of the suspended logistic monorail turnout system.
- FIG. 30 is the front view of a suspended logistic monorail handling system.
- FIG. 31 is the schematic diagram showing a suspended logistic monorail signal system.
- FIG. 32 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type steel box guideway and lower suspended monorail I-shaped steel guideway.
- FIG. 33 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type steel box guideways and lower suspended monorail steel box guideways with opening in the bottom.
- FIG. 34 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev I-shaped steel guideways and lower suspended monorail I-shaped steel guideways.
- FIG. 35 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type I-shaped steel guideways and lower suspended monorail steel box guideways with opening in the bottom.
- FIG. 36 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail steel box guideways and lower suspended monorail I-shaped steel guideways.
- FIG. 37 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail steel box guideways and lower suspended monorail steel box guideways with opening in the bottom.
- FIG. 38 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev concrete guideways and lower suspended monorail concrete guideways with opening at the bottom.
- FIG. 39 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail concrete guideways and lower suspended monorail concrete guideways with opening in the bottom.
- FIG. 40 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev concrete guideways and a lower suspended monorail I-shaped steel rail beam frame.
- FIG. 41 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail concrete guideways and a lower suspended monorail I-shaped steel guideway frame.
- FIG. 42 is the explanatory diagram showing the principle for the patent.
- maglev logistic monorail transportation system The working principle of the maglev logistic monorail transportation system is explained in the following with reference to FIG. 7 and FIG. 8 . But before that, it should be pointed out that the embodiments described in the figures are only for demonstration of the principle and cannot be understood as the limitation for the present invention.
- a maglev guideway 3 a is installed on the top of cover beams 10 a and 11 a through bearings 6 a and 7 a
- a maglev guideway 4 a is installed on the cover beams 10 a and 11 a through bearings 8 a and 9 a
- the forces comprising a gravity G1 of the maglev guideway and a gravity G2 received from the unmanned truck and impact force F1 are transmitted to the cover beams 10 a and 11 a through the bearings 6 a and 7 a , and then are transmitted by bridge piers 1 a and 2 a to the underground.
- W 1 is the material and construction cost
- W 2 is the increased cost for high vehicle speed requirements
- W 3 is the increased cost of in-car and distribution station construction requirements.
- the existing monorail system is all single-mode monorail system.
- only the lower space of the pier cover beam is used in the suspended monorail traffic and upper space of the pier cover beam is discarded, while in the straddle monorail traffic and maglev traffic, only the upper space is used and the lower space of the pier cover beam is discarded. Therefore, for this single-mode monorail transportation, the biggest problem is that the space utilization rate is too low. From the point of view of traffic level, only one level is used.
- q 0 is the cross-section single-mode traffic passenger flow per unit time.
- maglev steel box guideways 3 a ′′′′ and 4 a ′′′′ are installed on the top of cover beams 7 a ′′′′ and 8 a ′′′′
- suspended monorail I-shaped steel guideways 5 a ′′′′ and 6 a ′′′′ are installed at the bottom of the cover beams 7 a ′′′′ and 8 a ′′′′.
- a gravity G1 of the maglev steel box track girder and a gravity G2 of the suspended monorail I-shaped steel track girder are transmitted to the bridge pier cover girder.
- the principle of the double-mode monorail system based on this patent will be demonstrated with reference to FIG. 42 .
- the double-mode monorail system is proposed in this patent, in which the system is set on the same pier stud.
- the space is divided into two levels by a bridge pier cover beam structure, K1 and K2, the lower and upper levels of the cover beam.
- the lower and upper traffic levels are used to increase the cross-section passenger flow or logistic flow, and the cross-section passenger flow or logistic transportation capacity is improved.
- q 1 is the monorail traffic passenger flow in level K1; and q 2 is the monorail traffic passenger flow in level K2.
- the passenger transportation capacity of this patent has increased to the two-level space passenger transportation capacity, which is double the passenger flow transportation capacity of the existing single-mode transportation system.
- w 1 is the monorail traffic volume in level K1; and w 2 is the monorail traffic volume in level K2.
- the logistic transportation capacity of this patent has increased to a two-level spatial logistic transportation capacity, which is doubled compared to the existing single-mode transportation system.
- the double-mode monorail transportation can be operated in a same three-dimensional space, in which the problems of low space utilization rate and less level in current single-mode monorail system will be solved, and the goal of improving the double-mode monorail level will be truly achieved.
- the burden of ground transportation will be obviously reduced.
- the double-mode monorail system is proposed in this patent, in which the double-mode monorail system can be adopted on the bridge pier line and integrated construction.
- the two monorails operate independently without mutual interference, in which the space utilization can be improved.
- maglev logistic vehicle system It is known that a section of maglev logistic monorail transportation system has been built on the central zone of the highway, comprising a maglev logistic track beam system, a maglev logistic vehicle system, a maglev logistic turnout system, a maglev logistic handling system and a maglev logistic signal system.
- Power logistic vehicles are used in the maglev logistic vehicle system, and the specific implementation is as follows:
- maglev logistic monorail transportation system based on this patent will be demonstrated with reference to FIG. 1 , FIG. 2 , FIG. 7 - FIG. 12 , and FIG. 15 - FIG. 17 .
- the maglev logistic track beam system comprises a single-column pier stud form and a frame-type pier shad form.
- the single-column pier stud form is set on the green belt in the center of a highway, that is, between the highway G1 and the highway G2, as shown in FIG. 1 .
- the frame-type pier shad form is adopted, and the frame-type pier shad form is erected on both sides of the highway, namely, a highway G3 and a highway G4, as shown in FIG. 2 .
- the single-column pier stud structure of the maglev logistic track beam system comprises bridge piers 1 a , 2 a , maglev guideways 3 a , 4 a , and a maglev logistic vehicle 5 a .
- the maglev guideway 3 a is installed on the top of cover beams 10 a and 11 a through the bearings 6 a and 7 a ;
- the maglev guideway 4 a is installed on the top of the cover beams 10 a and 11 a through bearings 8 a and 9 a .
- the unmanned maglev logistic vehicle 5 a runs on the maglev guideway 4 a straddling.
- the frame-type pier shad form of the maglev logistic track beam system is adopted.
- the frame-type pier shad structure of the maglev logistic track beam system comprises the piers 1 - 1 b , 1 - 2 b , 2 - 1 b , 2 - 2 b , the maglev guideways 3 b , 4 b , and a maglev logistic vehicle 5 b .
- the maglev guideway 3 b is installed on the top of cover beams 10 b and 11 b through bearings 6 b and 7 b ;
- the maglev guideway 4 b is installed on the top of cover beams 10 b and 11 b through bearings 8 b and 9 b .
- An unmanned maglev logistic vehicle 5 b runs on the maglev guideway 4 b straddling. It should be pointed out that the adoption of the single-column pier stud form or the frame-type pier shad form of the maglev logistic track beam system should depend on the specific conditions of the route. Only one form of single-column pier stud, or frame-type pier shad can be adopted in the maglev logistic track beam system. The form of single-column pier stud and frame-type pier shad can also be adopted at the same time.
- the vehicle structure used in the maglev logistic vehicle system comprises the car bodies 5 - 11 , 5 - 31 , maglev bogies 5 - 14 , 5 - 34 and a connecting piece 5 - 2 .
- the car body 5 - 11 and 5 - 31 are open structure, and cargo containers 5 - 12 and 5 - 13 are installed on 5 - 11 .
- Cargo containers 5 - 32 and 5 - 33 are installed on 5 - 31 .
- the maglev bogie 5 - 14 is installed at the bottom of the car body 5 - 11 , and comprises an electromagnet 5 - 15 and a linear motor 5 - 16 .
- the electromagnet 5 - 15 is used for the suspension and guide of the car body 5 - 11 .
- the linear motor 5 - 16 is used for front and rear driving of the car body 5 - 11 .
- the maglev bogie 5 - 34 is installed at the bottom of the car body 5 - 31 , and comprises an electromagnet 5 - 35 and a linear motor 5 - 36 .
- the electromagnet 5 - 35 is used for the suspension and guide of the car body 5 - 31 .
- the linear motor 5 - 36 is used for the front and rear driving of the car body 5 - 31 .
- the car body 5 - 11 and 5 - 31 are connected through the connection system 5 - 2 . It should be pointed out that the number of logistic vehicles in the maglev logistic vehicle system is not only two. The number of logistic vehicles depends on the specific logistic transportation conditions.
- the switch structure is composed of a single pillar 1 c , frames 2 c , 3 c , 4 c and a maglev turnout beam 5 c .
- the maglev turnout beam with 5 c is a track beam with three flexible joints, which can be rotated at the top area of the frame 2 c and 3 c .
- a rail trolley 9 c is arranged on a track 6 c on the top of the frame 2 c , which is used to drive the rotation of the maglev turnout beam 5 c ; the rail trolley 10 c is arranged on a rail 7 c on the top of the frame 3 c , which is used to drive the rotation of the maglev turnout beam 5 c ; a rail trolley 11 c is arranged on track 8 c on the top of the frame 4 c , which is used to drive the rotation of the maglev turnout beam 5 c .
- the coordinated work of the rail trolley 9 c , 10 c , and 11 c makes the maglev turnout beam 5 c rotate to the suitable position to achieve the goal of the maglev logistic turnout system.
- the maglev type logistic loading and unloading structure is composed of a distribution station 1 d , an overhead traveling crane 2 d , an overhead traveling crane 3 d and an overhead traveling crane 4 d .
- cargo 5 d , cargo 6 d , cargo 7 d , cargo 8 d , cargo 9 d and cargo 10 d are loaded by crane 2 d , crane 3 d and crane 4 d into the logistic vehicle from the upper part.
- cargos 5 d , 6 d , 7 d , 8 d , 9 d and 10 d are taken by crane 2 d and crane 3 d and the crane 4 d from the logistic vehicle and then sent to a suitable storage place.
- the number of cranes is not only three. The specific number of cranes should be considered comprehensively according to the scale of the distribution station.
- the maglev logistic signal system comprises an unmanned driving system and a turnout control signal system.
- Maglev logistic vehicles are controlled by the unmanned driving system to run according to the route conditions, and the maglev logistic switch is controlled by the turnout control signal system to switch line according to the operation of the maglev logistic vehicles to make the maglev logistic vehicles travel along the target line.
- maglev logistic monorail transportation system is constructed in a field, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system.
- the distributed power logistic vehicles are used in the maglev logistic vehicle system, and the specific implementation is as follows:
- FIG. 3 With reference to FIG. 3 , FIG. 4 , FIG. 7 - FIG. 12 , FIG. 15 - FIG. 17 , a maglev-type logistic monorail transportation system based on this patent will be demonstrated.
- the maglev logistic track beam system comprises a single-column pier stud form and the frame-type pier shad form.
- the single-column pier stud form is set on the planned route of the field T1, as shown in FIG. 3 .
- the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the obstacle T3, as shown in FIG. 4 .
- the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev-type logistic signal system are the same as those in the embodiment 1, and will not be repeated here.
- maglev logistic monorail transportation system It is known that a section of the maglev logistic monorail transportation system has been built in an urban street, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system.
- the distributed power logistic vehicles are adopted in the logistic vehicle system, and the specific implementation is as follows:
- the maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form.
- the single-column pier stud form is set on the green belt, the region between an urban street C1 and an urban street C2, in the center of urban streets, as shown as in FIG. 5 .
- the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the urban street C3, as shown in FIG. 6 .
- the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev-type logistic signal system are the same as those in the embodiment 1, and will not be repeated here.
- maglev logistic track beam system the maglev logistic vehicle system
- maglev logistic turnout system the maglev logistic handling system
- maglev logistic signal system the maglev logistic signal system.
- Centralized power logistic vehicles are adopted in the maglev logistic vehicle system, and the specific implementation is as follows:
- FIG. 1 , FIG. 2 , FIG. 7 - FIG. 10 , FIG. 13 - FIG. 17 A maglev-type logistic monorail transportation system based on this patent will be demonstrated with reference to FIG. 1 , FIG. 2 , FIG. 7 - FIG. 10 , FIG. 13 - FIG. 17 .
- the maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form.
- the single-column pier stud form is set on the green belt in the center of the highway, the space between the highway G1 and the highway G2, as shown in FIG. 1 .
- the frame-type pier shad is adopted, and the frame-type pier shad is erected on both sides of the road, that is, the road G3 and the road G4, as shown in FIG. 2 .
- maglev logistic vehicle system in this embodiment 4, the principle and structure of a single-column pier stud form and a frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system are the same as the above embodiments 1 and won't be repeated here.
- the following text focuses on the maglev logistic vehicle system in this embodiment.
- the structure of the maglev logistic vehicle comprises a car body 5 - 41 , a car body 5 - 61 , a maglev bogie 5 - 44 , a maglev bogie 5 - 64 and a connecting piece 5 - 5 .
- the car body 5 - 41 and the car body 5 - 61 are open-type structures.
- a cargo container 5 - 42 and a cargo container 5 - 43 are installed on the car body 5 - 41 ; a cargo container 5 - 62 and a cargo container 5 - 63 are installed on the car body 5 - 61 .
- the maglev bogie 5 - 44 is installed at the bottom of the car body 5 - 41 .
- the maglev bogie 5 - 44 comprises an electromagnet 5 - 45 and a linear motor 5 - 46 .
- the electromagnet 5 - 45 is used for the suspension and guidance of the car body 5 - 41 ;
- the linear motor 5 - 46 is used for the front and rear driving of the car body 5 - 41 ;
- the bottom of the car body 5 - 61 is equipped with the maglev bogie 5 - 64 , which comprises a electromagnet 5 - 65 ;
- the electromagnet 5 - 65 is used for the suspension and guidance of the car body 5 - 61 , and the car body 5 - 41 and the car body 5 - 61 are connected by the connecting system 5 - 5 .
- the number of logistic vehicles in the maglev logistic vehicle system is not only two.
- the number of specific logistic vehicles depends on the specific logistic and transportation conditions.
- the position of the bogie 5 - 44 with linear motor 5 - 46 can be grouped at the head of the logistic vehicle, and it can also be at the rear of the marshalling logistic vehicle or in the middle of the marshalling logistic vehicle.
- maglev-type logistic monorail transportation system It is known that a section of maglev-type logistic monorail transportation system has been constructed in a field, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system.
- the centralized power logistic vehicles are used in the maglev-type logistic vehicle system, and the specific implementation is as follows:
- the maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form.
- the single-column pier stud form is set on the planned route of the field T1, as shown in FIG. 3 .
- the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the obstacle T3, as shown in FIG. 4 .
- the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system are the same as the above-mentioned embodiment 4, and will not be repeated here.
- maglev logistic monorail transportation system It is known that a section of maglev logistic monorail transportation system has been built in an urban street, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system.
- the centralized power logistic vehicles are used in the integrated logistic vehicle system, and the specific implementation is as follows:
- the maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form.
- the single-column pier stud form is set on the green belt in the center of urban streets, the space between an urban street C1 and an urban street C2, as shown in FIG. 5 .
- the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of an urban street C3, as shown in FIG. 6 .
- the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system are the same as those in the above-mentioned embodiment 4, and will not be repeated here.
- maglev type logistic monorail transportation system is taken as an example to describe the logistic monorail transportation system according to the present invention.
- the logistic monorail transportation system according to the present invention may also comprise a straddle-type logistic monorail transportation system or a suspended logistic monorail transportation system. The differences will be described below with reference to the drawings.
- the straddle logistic monorail transportation system according to the present invention has basically the same structure as the above-mentioned maglev logistic monorail transportation system, and the difference lies in the use of straddle-type monorail guideways and straddle-type logistic monorail vehicles.
- FIG. 18 is a schematic diagram showing a single-column pier stud straddle-type logistic monorail bridge guideway system set on the central reservation of the expressway, in which a straddle-type monorail guideway is adopted.
- the straddle logistic monorail transportation system can also have the configuration as shown in FIG. 2-6 .
- the straddle logistic monorail vehicle system in this embodiment 7 will be described below, known as FIG. 19 and FIG. 20 .
- the structure of the straddle logistic monorail vehicle is composed of a car body 5 - 11 ′, a car body 5 - 31 ′, and the bogies of straddle monorail vehicle 5 - 14 ′, bogies 5 - 34 ′ and a connecting piece 5 - 2 ′.
- Car body 5 - 11 ′ and car body 5 - 31 ′ are open-type structures; cargo container 5 - 12 ′ and cargo container 5 - 13 ′ are installed on car body 5 - 11 ′; cargo container 5 - 32 ′ and cargo container 5 - 33 ′ are installed on the car body 5 - 31 ′.
- the straddle monorail bogie 5 - 14 ′ is installed at the bottom of the car body 5 - 11 ′, and the straddle monorail bogie 5 - 14 ′ comprises walking wheels 5 - 15 ′, guide wheels 5 - 16 ′ and steady wheels 5 - 17 ′.
- the walking wheels 5 - 15 ′ is used for the support and traction of the car body 5 - 11 ′; the guide wheels 5 - 16 ′ is used for the guidance of the car body 5 - 11 ′, and the steady wheels 5 - 17 ′ is used to maintain the car body 5 - 11 ′ balance and stability.
- the straddle monorail bogie 5 - 34 ′ is installed at the bottom of car body 5 - 31 ′.
- the straddle monorail bogie 5 - 34 ′ comprises walking wheels 5 - 35 ′, guide wheels 5 - 36 ′ and steady wheels 5 - 37 ′.
- Walking wheels 5 - 35 ′ are used for the support and traction of the car body 5 - 31 ′.
- Guide wheels 5 - 36 ′ are used for guiding the car body 5 - 31 ′, and the steady wheels 5 - 37 ′ is used to maintain the balance and stability of the car body 5 - 31 ′, and the car body 5 - 11 ′ and the car body 5 - 31 ′ are connected by a connecting system 5 - 2 ′.
- the number of logistic vehicles in the straddle logistic monorail vehicle system is not only two.
- the number of specific logistic vehicles depends on the specific logistic and transportation conditions.
- the straddle logistic monorail vehicle may be a decentralized power logistic vehicle or a centralized power logistic vehicle. When it is a centralized power logistic vehicle, the same walking wheels can be shared by two or more vehicle bodies.
- the single-column pier stud form and frame-type pier shad form of the straddle logistic monorail bridge guideway system of a straddle logistic monorail transportation system, a straddle logistic single turnout beam with system, and a straddle logistic monorail handling system and a straddle logistic monorail signal system are respectively the same as the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the above-mentioned maglev logistic monorail transportation system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system, so they won't be repeated here.
- the straddle logistic monorail transportation system with decentralized power logistic vehicles or the straddle logistic monorail transportation system with centralized power logistic vehicles according to the present invention can be installed on the highway, in the field, or in the urban area. In the street, the setting method is the same as that of the maglev-type logistic monorail transportation system, and will not be repeated here.
- the suspended monorail system according to the present invention has basically the same structure as the above-mentioned maglev monorail system, the only difference lies in the use of suspended monorail guideways and suspended logistic monorail vehicles.
- FIG. 21 shows a schematic diagram of a single-column pier stud suspended monorail bridge guideway system setting on the central reservation of the expressway, in which a straddle monorail guideway is used.
- the suspended logistic monorail transportation system can also have the installation form as shown in FIG. 2-6 , which means that it can be installed in the field or in the urban street.
- a single pier of the suspended logistic monorail track beam system comprises a bridge pier 1 a ′′, a bridge pier 2 a ′′, a suspended monorail guideway 3 a ′′, a suspended monorail guideway 4 a ′′, and a suspended logistic monorail vehicle 5 a ′′.
- the suspended monorail guideway 3 a ′′ is installed at the bottom of a cover beam 10 a ′′ and a cover beam 11 a ′′ through a steel cable 12 a ′′.
- Bearing 8 a ′′ and 9 a ′′ are installed at the bottom of the cover beam 10 a ′′ and the cover beam 11 a ′′, and an unmanned suspended logistic monorail vehicle 5 a ′′ is suspended on the suspended monorail guideway 4 a′′.
- the frame-type pier shad form of the suspended logistic monorail track beam system is adopted.
- the frame-type pier shad structure of the suspended logistic monorail track beam system comprises piers 1 - 1 b ′′, piers 1 - 2 b ′′, pier 2 - 1 b ′′, pier 2 - 2 b ′′, suspended monorail guideway 3 b ′′, suspended monorail guideway 4 b ′′, suspended logistic monorail vehicle 5 b ′′.
- the suspended monorail guideway 3 b ′′ is installed on the bottom of a cover beam 10 b ′′ and a cover beam 11 b ′′ through a steel cable 12 b ′′.
- Bearings 6 b ′′ and 7 b ′′, and the suspended monorail guideway 4 b ′′ are installed at the bottom of the cover beam 10 b ′′ and the cover beam 11 b ′′ through a steel cable 13 b ′′.
- Bearings 8 b ′′ and 9 b ′′, and the unmanned suspended logistic monorail vehicle 5 b ′′ are suspended on the suspended monorail guideway 4 b ′′ for operation. It should be pointed out that the single-column pier stud form of the suspended logistic monorail track beam system and the frame-type pier shad form of the suspended logistic monorail track beam system should be determined according to the specific conditions of the line.
- the suspended logistic monorail track beam, the single-column pier stud form of the system and the frame-type pier shad form of the suspended logistic monorail track beam system can also be used at the same time.
- the suspended logistic monorail vehicle structure comprises a car body 5 - 11 ′′, a car body 5 - 31 ′′, a suspended monorail bogie 5 - 14 ′′, a suspended monorail vehicle bogie 5 - 34 ′′ and a connecting piece 5 - 2 ′′.
- Car body 5 - 11 ′′ and car body 5 - 31 ′′ are open-bottom structures; cargo containers 5 - 12 ′′ and cargo containers 5 - 13 ′′ are installed under car body 5 - 11 ′′; cargo containers 5 - 32 ′′ and cargo container 5 - 33 ′′ are installed under the car body 5 - 31 ′′; the top of the car body 5 - 11 ′′ is installed with the suspended monorail bogie 5 - 14 ′′.
- Each side of the suspended monorail bogie 5 - 14 ′′ comprises walking wheels 5 - 15 ′′, walking wheels 5 - 16 ′′, walking wheels 5 - 17 ′′ and guide wheels 5 - 18 ′′, while walking wheels 5 - 15 ′′, walking wheels 5 - 16 ′′ and walking wheels 5 - 17 ′′ are used for the support and traction of the car body 5 - 11 ′′, and the guide wheels 5 - 18 ′′ are used for the guidance of the car body 5 - 11 ′′;
- the suspended monorail bogie 5 - 34 ′′ is installed on the top of the car body 5 - 31 ′′; each side of the suspended monorail bogie 5 - 34 ′′ comprises walking wheels 5 - 35 ′′, walking wheels 5 - 36 ′′ and walking wheels 5 - 37 ′′ and guide wheels 5 - 38 ′′, while walking wheels 5 - 35 ′′, walking wheels 5 - 36 ′′ and walking wheels 5 - 37 ′′ are used for the support and traction of the car body 5 - 31 ′′.
- Guide wheels 5 - 38 ′′ are used to guide the car body 5 - 31 ′′; the car body 5 - 11 ′′ and the car body 5 - 31 ′′ are connected by the connecting system 5 - 2 ′′. It should be pointed out that the number of logistic vehicles in the suspended logistic monorail vehicle system is not only two. The number of specific logistic vehicles depends on the specific logistic and transportation conditions.
- the suspended logistic monorail turnout structure is composed of a single pillar 1 c ′′, a frame 2 c ′′, a frame 3 c ′′, a frame 4 c ′′, and a suspended monorail switch beam 5 c ′′.
- the suspended monorail turnout beam 5 c ′′ is a guideway with three flexible joints.
- the suspended monorail turnout beam 5 c ′′ can be rotated at the bottom area of the frame 2 c ′′ and the bottom area of the frame 3 c ′′.
- a rail trolley 9 c ′′ is installed at a rail 6 c ′′ at the bottom of the frame 2 c ′′, which is used to drive the rotation of the suspended monorail turnout beam 5 c ′′, and a rail trolley 10 c ′′ is arranged on a rail 7 c ′′ at the bottom of the frame 3 c ′′ for driving the rotation of the suspended monorail turnout beam 5 c ′′.
- the rail trolley 11 c ′′ is arranged on the track 8 c ′′ at the bottom of the frame 4 c ′′, and is used to drive the rotation of the suspended monorail turnout beam 5 c ′′.
- the suspended monorail turnout beam 5 c ′′ is rotated by the coordinated work of the rail trolley 9 c ′′, the rail trolley 10 c ′′, and a rail trolley 11 c ′′ to a suitable position to achieve the steering goal of the suspended logistic monorail turnout system.
- the suspended logistic monorail handling structure comprises a distribution station 1 d ′′, a forklift 2 d ′′ and a forklift 3 d ′′.
- cargo 4 d ′′, cargo 5 d ′′, cargo 6 d ′′, cargo 7 d ′′, cargo 8 d ′′, and cargo 9 d ′′ are loaded by forklift 2 d ′′ and forklift 3 d ′′ into the logistic vehicle from the bottom.
- the suspended logistic monorail signal system comprises an unmanned driving system and a turnout control signal system.
- the suspended logistic monorail vehicle is controlled by the unmanned driving system to run according to the line conditions, and the suspended logistic monorail switch is controlled by the turnout control signal system to convert line according to the operation of the suspended logistic monorail vehicle to make the suspended logistic monorail vehicle travel along the target line.
- the embodiment 8 has been described by setting up a suspended logistic monorail transportation system with distributed power logistic vehicles on the central reservation of highway, in the fields or in the urban streets.
- the suspended logistic monorail transportation system according to the present invention can also comprise the centralized power logistic vehicle, which can also perform the above three setting methods.
- the centralized power logistic vehicle will be described.
- the suspended monorail vehicle structure comprises a car body 5 - 11 ′′, a car body 5 - 31 ′′, suspended monorail bogies 5 - 14 ′′, 5 - 34 ′′ and a connecting piece 5 - 2 ′′.
- Car body 5 - 11 ′′ and car body 5 - 31 ′′ are open-type structure; a cargo container 5 - 12 ′′ and a cargo container 5 - 13 ′′ are installed under the car body 5 - 11 ′′; a cargo container 5 - 32 ′′ and a cargo container 5 - 33 ′′ are installed under the car body 5 - 31 ′′; the top of the car body 5 - 11 ′′ is installed with the suspended monorail bogie 5 - 14 ′′, and the suspended monorail bogie 5 - 14 ′′ comprises walking wheels 5 - 15 ′′, guide wheels 5 - 16 ′′ and steady wheels 5 - 17 ′′, while the walking wheels 5 - 15 ′′ are used for the support and traction of car body 5 - 11 ′′, and the guide wheels 5 - 16 ′′ are used to guide the car body 5 - 11 ′′; the steady wheels 5 - 17 ′′ are used to maintain the balance and stability of the car body 5 - 11 ′′.
- the monorail bogies 5 - 34 ′′ is installed on the top of the car body 5 - 31 ′′, which comprises walking wheels 5 - 35 ′′, guide wheels 5 - 36 ′′ and steady wheels 5 - 37 ′′.
- the walking wheels 5 - 35 ′′ are used to support the car body 5 - 31 ′′
- the guide wheels 5 - 36 ′′ are used to guide the car body 5 - 31 ′′
- the steady wheels 5 - 37 ′′ are used to maintain the balance and stability of the car body 5 - 31 ′′.
- the car body 5 - 11 ′′ and the car body 5 - 31 ′′ are connected through the connection piece 5 - 2 ′′. It should be pointed out that the number of logistic vehicles in the suspended logistic monorail vehicle system is not only two.
- the number of specific logistic vehicles depends on the specific logistic and transportation conditions.
- the position of the bogie 5 - 14 ′′ of the walking wheels 5 - 15 ′′ with traction function can be at the head of a marshalling logistic vehicle, the rear of the marshalling logistic vehicle, or the middle of the marshalling logistic vehicle.
- the suspended logistic monorail transportation system with decentralized power logistic vehicles or the suspended logistic monorail transportation system with centralized power logistic vehicles can be installed on the central reservation of highway, in the field, or in the urban streets, which is the same as the maglev logistic monorail transportation system, and won't be repeated here.
- the structure comprises a bridge pier 1 a ′′′′, a bridge pier 2 a ′′′′, a maglev steel box guideway 3 a ′′′′, a maglev steel box guideway 4 a ′′′′, a suspended monorail I-shaped steel guideway 5 a ′′′′ and a suspended monorail I-shaped steel guideway 6 a ′′′′.
- the maglev steel box guideway 3 a ′′′′ and the maglev steel box guideway 4 a ′′′′ are installed on cover beams 7 a ′′′′ and 8 a ′′′′ by bearings.
- Suspended monorail I-shaped steel guideway 5 a ′′′′ and suspended monorail I-shaped steel guideway 6 a ′′′′ are installed at the bottom of the cover beam 7 a ′′′′ and the cover beam 8 a ′′′′ by bearings and cables.
- a double-mode monorail system based on this patent is demonstrated in conjunction with reference to FIG. 33 .
- the structure comprises a bridge pier 1 b ′′′′, a bridge pier 2 b ′′′′, a maglev steel box guideway 3 b ′′′′, a maglev steel box guideway 4 b ′′′′, and a suspended monorail bottom opening steel box guideway 5 b ′′′′ and a suspended monorail bottom opening steel box guideway 6 b ′′′′.
- maglev steel box guideway 3 b ′′′′ and the maglev steel box guideway 4 b ′′′′ are installed at the top of cover beams 7 b ′′′′ and 8 b ′′′′ by bearings; the suspended monorail bottom opening steel box guideway 5 b ′′′′ and the suspended monorail bottom opening steel box guideway 6 b ′′′′ are installed at the bottom of cover beams 7 b ′′′′ and 8 b ′′′′ by bearings and cables.
- the structure comprises a bridge pier 1 c ′′′′, a bridge pier 2 c ′′′′, a maglev I-shaped steel guideway 3 c ′′′′, a maglev I-shaped steel guideway 4 c ′′′′, a suspended monorail I-steel guideway 5 c ′′′′, and a suspended monorail I-shaped steel guideway 6 c ′′′′.
- maglev I-steel guideway 3 c ′′′′ and the maglev I-steel guideway 4 c ′′′′ are installed on the top of cover beams 7 c ′′′′ and 8 c ′′′′ by bearings, and the suspended monorail I-shaped steel guideway 5 c ′′′′ and the suspended monorail I-shaped steel guideway 6 c ′′′′ are installed at the bottom of cover beams 7 c ′′′′ and 8 c ′′′′ by bearings and cables.
- the structure is composed of a bridge pier 1 d ′′′′, a bridge pier 2 d ′′′′, a maglev I-shaped steel guideway 3 d ′′′′, a maglev I-shaped steel guideway 4 d ′′′′, a suspended monorail bottom opening steel box guideway 5 d ′′′′ and a suspended monorail bottom opening steel box guideway 6 d ′′′′.
- maglev type I-shaped steel guideway 3 d ′′′′ and the maglev I-shaped steel guideway 4 d ′′′′ are installed on top of cover beams 7 d ′′′′ and 8 d ′′′′ by bearings; the suspended monorail bottom opening steel box guideway 5 d ′′′′ and the suspended monorail bottom opening steel box guideway 6 d ′′′′ are installed on the bottom of cover beams 7 d ′′′′ and 8 d ′′′′ by bearings and cables.
- the structure comprises a bridge pier 1 e ′′′′, a bridge pier 2 e ′′′′, a straddle monorail steel box guideway 3 e ′′′′, a straddle monorail steel box guideway 4 e ′′′′, a suspended monorail steel guideway 5 e ′′′′ and a suspended monorail I-shaped steel guideway 6 e ′′′′.
- the straddle monorail steel box guideway 3 e ′′′′ and the straddle monorail steel box guideway 4 e ′′′′ are installed on top of cover beams 7 e ′′′′ and 8 e ′′′′ by bearings; suspended monorail I-shaped steel guideway 5 e ′′′′ and suspended monorail I-shaped steel guideway 6 e ′′′′ are installed on the bottom of the cover beam 7 e ′′′′ and the cover beam 8 e ′′′′ by bearings and cables.
- the structure comprises a bridge pier if′′′′, a bridge pier 2 f ′′′′, a straddle monorail steel box guideway 3 f ′′′′, a straddle monorail steel box guideway 4 f ′′′′, a suspended monorail bottom open steel box guideway 5 f ′′′′ and a suspended monorail bottom open steel box guideway 6 f ′′′′.
- the straddle monorail steel box guideway 3 f ′′′′ and the straddle monorail steel box guideway 4 f ′′′′ are installed on the top of cover beams 7 f ′′′′ and 8 f ′′′′ by bearings; the suspended monorail bottom opening steel box guideway 5 f ′′′′ and the suspended monorail bottom opening steel box guideway 6 f ′′′′ are installed at the bottom of cover beams 7 f ′′′′ and 8 f ′′′′ by bearings and cables.
- the structure comprises a bridge pier 1 g ′′′′, a bridge pier 2 g ′′′′, a maglev concrete guideway 3 g ′′′′, a maglev concrete guideway 4 g ′′′′, and a suspended monorail bottom opening concrete guideway 5 g ′′′′ and a suspended monorail bottom opening concrete guideway 6 g ′′′′.
- maglev concrete guideway 3 g ′′′′ and the maglev concrete guideway 4 g ′′′′ are installed on cover beams 7 g ′′′′ and 8 g ′′′′ by bearings; the suspended monorail bottom opening concrete guideway 5 g ′′′′ and the suspended monorail bottom opening concrete guideway 6 g ′′′′ are installed on the bottom of cover beams 7 g ′′′′ and 8 g ′′′′ by bearings and cables.
- the structure comprises a bridge pier 1 h ′′′′, a bridge pier 2 h ′′′′, a straddle monorail concrete guideway 3 h ′′′′, a straddle monorail concrete guideway 4 h ′′′′, a suspended monorail bottom opening concrete guideway 5 h ′′′′ and a suspended monorail bottom opening concrete guideway 6 h ′′′′.
- the straddle monorail concrete guideway 3 h ′′′′ and the straddle monorail concrete guideway 4 h ′′′′ are installed on top cover beams 7 h ′′′′ and the cover beam 8 h ′′′′ through the bearings; the suspended monorail bottom opening concrete guideway 5 h ′′′′ and the suspended monorail bottom opening concrete guideway 6 h ′′′′ are installed at the bottom of the cover beam 7 h ′′′′ and the cover beam 8 h ′′′′ through the bearings and the cables.
- the structure comprises a bridge pier 1 - 1 i ′′′′, bridge piers 1 - 2 i ′′′′, a bridge pier 2 - 1 i ′′′′, a bridge pier 2 - 2 i ′′′′, a maglev concrete guideways 3 i ′′′′, a maglev concrete guideway 4 i ′′′′, a suspended monorail I-shaped steel guideway 5 i ′′′′ and a suspended monorail I-shaped steel guideway 6 i ′′′′.
- the maglev concrete guideway 3 i ′′′′ and the maglev concrete guideway 4 i ′′′′ are installed on the top of cover beams 7 i ′′′′ and 8 i ′′′′ by bearings; the suspended monorail I-shaped steel guideway 5 i ′′′′ and the suspended monorail I-shaped steel guideway 6 i ′′′′ are installed at the bottom of the cover beam 7 i ′′′′ and the cover beam 8 i ′′′′ through bearings and cables.
- the structure comprises a pier 1 - 1 j ′′′′, a pier 1 - 2 j ′′′′, a pier 2 - 1 j ′′′′, a pier 2 - 2 j ′′′′, a straddle monorail concrete guideway 3 j ′′′′, a straddle monorail concrete guideway 4 j ′′′′, a suspended monorail I-steel guideway 5 j ′′′′ and a suspended monorail I-shaped steel guideway 6 j ′′′′.
- the straddle monorail concrete guideway 3 j ′′′′ and the straddle-type monorail concrete guideway 4 j ′′′′ are installed on the top of cover beams 7 j ′′′′ and 8 j ′′′′ by bearings; the suspended monorail I-shaped steel guideway 5 j ′′′′ and the suspended monorail I-shaped steel guideway 6 j ′′′′ are installed at the bottom of the cover beam 7 j ′′′′ and the cover beam 8 j ′′′′ through the bearings and the cables.
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Abstract
A logistic monorail transportation system. The logistic monorail transportation system comprises a logistic track beam system, a logistic vehicle system, a logistic turnout system, a logistic handling system, and a logistic signal system. The logistic track beam system is set up on the road, in the field, or in the streets in the form of single-column pier studs or frame-type pier shads. The technical solution of the present application solves the problems of short distance, high costs, and low speed of existing transportation systems, and the purpose of long-distance, low-cost, and high-speed logistic monorail transportation is achieved.
Description
- This application is a 371 of International Patent Application No. PCT/CN2019/104239 with a filing date of Sep. 3, 2019, designating the United States, now pending, and further claims priority to Chinese Patent Application No. 201811021475.3, filed on Sep. 3, 2018, No. 201811021621.2, filed on Sep. 3, 2018, No. 201811022993.7, filed on Sep. 3, 2018, No. 201811023548.2, filed on Sep. 3, 2018, the entire content of which is incorporated herein by reference.
- The present invention relates to a logistic monorail transportation system, which is applied to the field of rail transportation.
- With the development of transportation, modern logistic industry has become an important force to promote economic growth. The characteristics of monorail transportation are fast speed, strong climbing ability, and small turning radius. By adopting monorail transportation, the problems of small transportation volume, high cost, low transportation efficiency, and congestion in existing logistic transportation can be effectively solved. The monorail logistic system is the development direction of modern logistics.
- However, only passengers can be transported within short distances within the city of the existing monorail due to structural reasons and the requirements of long-distance cargo transportation cannot be met. For example, the existing monorail transport serves passengers in the urban area, and the distance between stations is too small, resulting in a low operation speed. Furthermore, the passenger comfort needs to be considered in the vehicle system, resulting in large carriages and low train speed. Besides, the existing monorail system must have a large space to ensure passenger safety, resulting in excessive construction costs. The above-mentioned problems will be solved in the logistic transportation.
- For example, the existing monorail traffic is for passenger transport, and the cost is affected by many factors as follows:
-
- where W1 is the material and construction cost; W2 is the increased cost for vehicle comfort requirements; W3 is the increased cost of structure's noise influence on the surrounding environment; W4 is the increased cost for high vehicle speed requirements; and W5 is the increased cost of construction requirements for interior decoration and platform paving.
- To realize the logistic monorail transportation system, it is necessary to make breakthroughs in the key technologies in the existing monorail transportation such as long distance, light weight, low cost, and high speed.
- In response to the above problems, combined with the actual situation and characteristics of monorail transportation, a lot of analysis and simulation has been conducted. Based on existing theories and practical experience, this patent is proposed, which considering the advantages of monorail transportation and the characteristics of long-distance logistic transportation.
- The terms involved in this patent are defined as follows:
- Single-mode: Refers to a single mode of monorail transportation running on the same pier or on the same frame system, comprising straddle monorail transportation, suspended monorail transportation and maglev system.
- Double-mode: Refers to two modes of monorail transportation running on the same pier or on the same frame system, comprising double-mode transportation comprising straddle monorail and suspended monorail, or double-mode transportation comprising maglev and suspended monorail.
- Crane: Refers to the lifting equipment for lifting heavy objects, mainly used for loading and unloading cargos on straddle monorail vehicles or maglev vehicles.
- Lifting truck: Refers to equipment used for loading and unloading cargos, which can be manned or unmanned, and is mainly used for loading and unloading cargos on suspended monorail vehicles, for example, the forklift.
- Turnout beam with flexible joint: Comprise several steel guideways with hinge joint and are supported by the trolley. Both sides of the beams are equipped with guide panels and stabilizing panels. One end of the turnout beam is fixed when switching, and the beam moves as a whole to make the movable end of the turnout beam connect with the other turnout beam to form a fork road, changing the route of the vehicle.
- Movable turnout beam: Comprise one or several linear steel beams and one or several fixed curved steel beams, supported by trolleys, and the beams keep the fixed distance between each other. With the help of the balanced guide device, the turnout beam moves back and forth in parallel with the line or in the fixed direction, and connects with the turnout beam that is set to be butted to form a branch or passage, changing the route of the vehicle.
- Pivot turnout beam: Comprise of rotatable steel turnout beam. Through the rotation and locking of the entire turnout beam, the line connection between the turnout beams is completed, so as to realize the purpose of converting the vehicle from one line to another.
- The technical problems to be solved by this patent are: by proposing a logistic monorail transportation system, using a logistic track beam system, a logistic vehicle system, a logistic turnout system, a logistic handling system and a logistic signal system, it solves the problems of short distance, large size, high cost, and low speed for existing transportation, and to achieve the goal of a long-distance, light-weight, low-cost, and high-speed logistic monorail transportation system.
- The technical solutions adopted by this patent to solve its technical problems are:
- The logistic monorail transportation system comprises the logistic track beam system, the logistic vehicle system, the logistic turnout system, the logistic handling system, and the logistic signal system. The logistic track beam system is in the form of a single-column pier studs or frame-type pier shads setting up on highways, fields or urban streets.
- The characteristics of logistic monorail transportation system are that the system comprises a maglev monorail logistic system, a straddle monorail logistic system, or a suspended monorail logistic system.
- The characteristics of logistic monorail transportation system are that the open structure is adopted in a logistic vehicle system for transporting cargo containers, and the logistic vehicle system is provided with a cargo container in the vehicle.
- The characteristics of logistic monorail transportation system are that a centralized power system or a distributed power system are adopted in the logistic vehicle system.
- The characteristics of logistic monorail transportation system are that a frame structure is adopted in the logistic turnout system to finish line conversion in the air.
- The characteristics of logistic monorail transportation system are that the logistic turnout system comprises a pier column, a frame and a turnout beam with, and the turnout beam with flexible joint or movable turnout beam or pivot turnout beam. A track trolley is set on the track on the top of the frame to drive the movement of the maglev turnout beam with.
- The characteristics of logistic monorail transportation system are that cranes or lifting trucks are adopted in the logistic handling system to load and unload containers on logistic vehicles.
- The characteristics of logistic monorail transportation system are that the logistic signal system comprises an unmanned driving system for controlling the logistic monorail vehicle and a turnout control signal system for controlling the monorail switch to change line.
- The characteristics of logistic monorail transportation system are a single-mode monorail or double-mode monorail transportation is provided on the same pier stud, or a single-mode monorail or double-mode monorail transportation is provided on the same frame.
- The characteristics of logistic monorail transportation system are that the upper level of the double-mode monorail is a straddle monorail system or a maglev system, and the lower level of the double-mode monorail transportation is a suspended monorail system.
- The characteristics of logistic monorail transportation system are that the guideways of the straddle monorail system in the double-mode monorail system are steel box guideways or concrete guideways.
- The characteristics of logistic monorail transportation system are that guideways of the maglev system in the double-mode monorail transportation are steel box guideways, I-shaped steel guideways or concrete guideways.
- The characteristics of logistic monorail transportation system are that guideway of the suspended monorail system in the double-mode monorail transportation is a steel box guideway with an opening at the bottom, an I-shaped guideway or a concrete guideway with an opening at the bottom.
- Compared with the existing technology, the beneficial effects of this patent are:
- The logistic monorail transportation system is proposed in this patent, comprising the logistic track beam system, the logistic vehicle system, the logistic turnout system, the logistic handling system and the logistic signal system. The problems of short distance, large size, high cost, and low speed for existing transportation can be solved by using this system, and the goal of a long-distance, light-weight, low-cost, and high-speed logistic monorail transportation system can be achieved.
- The logistic monorail transportation system is proposed in this patent, in which the problem of small span for existing maglev bridge guideways can be solved by the logistic track beam system. The span of the maglev beam can be reduced by adopting a frame-type pier shad system, and it is suitable for a variety of terrains, and land occupation, unnecessary demolition and costs will be reduced.
- The logistic monorail transportation system is proposed in this patent, in which the logistic vehicle is improved according to the characteristics of logistic transportation in the logistic vehicle system. The open structure is adopted in the logistic vehicle and mainly cargo containers are transported. The centralized power system or the distributed power system are adopted in the logistic vehicle to meet the needs of container logistic transportation and the goals of small size and high speed will be achieved.
- The logistic monorail transportation system is proposed in this patent, in which the frame structure is adopted in the logistic turnout system to achieve line conversion in the air. Compared with the existing switch system, the problem of land occupation can be effectively solved, saving ground space, reducing costs and the size of the turnout beam with.
- The logistic monorail transportation system is proposed in this patent, in which the crane is adopted in the logistic handling system to load and unload containers. The loading and unloading time of containers and labor costs can be effectively reduced.
- The logistic monorail transportation system is proposed in this patent, in which the logistic signal system comprises the unmanned driving system for controlling the logistic monorail vehicle and the turnout control signal system for controlling the monorail switch to change lines. The transportation efficiency can be increased by using the combination of unmanned driving system and turnout control signal system in logistic transportation. The labor costs will be saved, and human operation errors will be reduced, and the needs of long-distance transportation can well be met.
- The double-mode monorail system is proposed in this patent, in which the double-mode monorail is set on the same pier stud and can be operated in the same three-dimensional space. The current problems of low space utilization and low levels of single-model monorail can be solved, and the goal of improving the level of double-mode monorail can be truly achieved.
- The double-mode monorail system is proposed in this patent, in which the double-mode monorail system can be adopted on a bridge pier line and integrated construction. The two monorails operate independently without mutual interference, in which the space utilization can be improved.
-
FIG. 1 is a schematic diagram showing a maglev bridge track beam system with a single-column installed on the central zone of the expressway. -
FIG. 2 is a schematic diagram showing the maglev bridge track beam system with frame-type pier shads installed on the central zone of the expressway. -
FIG. 3 is a schematic diagram showing the maglev bridge track beam system with the single-column installed on the field. -
FIG. 4 is a schematic diagram showing the maglev bridge track beam system with a frame-type pier shad installed on the field. -
FIG. 5 is a schematic diagram showing the maglev bridge track beam system with the single-column installed on the urban streets. -
FIG. 6 is the schematic diagram showing the maglev bridge track beam system with the frame-type pier shad installed on the urban streets. -
FIG. 7 is the front view of a single-column pier stud system for a maglev bridge guideway for logistics. -
FIG. 8 is the three-dimensional schematic diagram showing the single-column pier stud system for a maglev logistic bridge guideway. -
FIG. 9 is the front view of a frame-type pier shad system for the maglev logistic bridge guideway. -
FIG. 10 is the three-dimensional schematic diagram showing the frame-type pier shad system for the maglev logistic bridge guideway. -
FIG. 11 is the front view of the distributed power system for a maglev logistic vehicle. -
FIG. 12 is the three-dimensional schematic diagram showing the distributed power system for the maglev logistic vehicle. -
FIG. 13 is the front view of the centralized power system for the maglev logistic vehicle. -
FIG. 14 is the three-dimensional schematic diagram showing the centralized power system for the maglev logistic vehicle. -
FIG. 15 is the three-dimensional schematic diagram showing a maglev logistic turnout system. -
FIG. 16 is the front view of a maglev logistic handling system. -
FIG. 17 is the schematic diagram showing a maglev logistic signal system. -
FIG. 18 is the schematic diagram showing a straddle logistic monorail bridge track beam system with single-pier installed on the central zone of an expressway. -
FIG. 19 is the front view of a straddle logistic monorail vehicle system. -
FIG. 20 is the three-dimensional schematic diagram showing the straddle logistic monorail vehicle system. -
FIG. 21 is the schematic diagram of a suspended monorail bridge guideway system with single-pier installed on the central zone of the expressway. -
FIG. 22 is the front view of the single-column pier stud system for a suspended monorail bridge guideway. -
FIG. 23 is the three-dimensional schematic diagram showing the single-column pier stud system for the suspended monorail bridge guideway. -
FIG. 24 is the front view of a frame-type pier shad system for a suspended monorail bridge guideway. -
FIG. 25 is the three-dimensional schematic diagram showing the frame-type pier shad system for the suspended monorail bridge guideway. -
FIG. 26 is the front view of a suspended logistic monorail vehicle system. -
FIG. 27 is the three-dimensional schematic diagram showing a suspended logistic monorail vehicle system. -
FIG. 28 is the three-dimensional schematic diagram showing a suspended logistic monorail turnout system. -
FIG. 29 is the top view of the suspended logistic monorail turnout system. -
FIG. 30 is the front view of a suspended logistic monorail handling system. -
FIG. 31 is the schematic diagram showing a suspended logistic monorail signal system. -
FIG. 32 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type steel box guideway and lower suspended monorail I-shaped steel guideway. -
FIG. 33 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type steel box guideways and lower suspended monorail steel box guideways with opening in the bottom. -
FIG. 34 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev I-shaped steel guideways and lower suspended monorail I-shaped steel guideways. -
FIG. 35 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev type I-shaped steel guideways and lower suspended monorail steel box guideways with opening in the bottom. -
FIG. 36 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail steel box guideways and lower suspended monorail I-shaped steel guideways. -
FIG. 37 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail steel box guideways and lower suspended monorail steel box guideways with opening in the bottom. -
FIG. 38 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev concrete guideways and lower suspended monorail concrete guideways with opening at the bottom. -
FIG. 39 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail concrete guideways and lower suspended monorail concrete guideways with opening in the bottom. -
FIG. 40 is the three-dimensional schematic diagram showing a double-mode monorail system with upper maglev concrete guideways and a lower suspended monorail I-shaped steel rail beam frame. -
FIG. 41 is the three-dimensional schematic diagram showing a double-mode monorail system with upper straddle monorail concrete guideways and a lower suspended monorail I-shaped steel guideway frame. -
FIG. 42 is the explanatory diagram showing the principle for the patent. - It is not difficult for the experts in the field to understand the features shown by the numbers in the figures in combination with the following embodiments, and therefore no more will be repeated.
- The principle of this patent will be explained below.
- The working principle of the maglev logistic monorail transportation system is explained in the following with reference to
FIG. 7 andFIG. 8 . But before that, it should be pointed out that the embodiments described in the figures are only for demonstration of the principle and cannot be understood as the limitation for the present invention. - First, the principle of the maglev logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 7 andFIG. 8 . From the perspective of force, amaglev guideway 3 a is installed on the top of cover beams 10 a and 11 a throughbearings maglev guideway 4 a is installed on the cover beams 10 a and 11 a throughbearings bearings bridge piers 1 a and 2 a to the underground. - For the maglev logistic monorail transportation system, the construction cost needs to consider the following factors:
-
- where W1 is the material and construction cost; W2 is the increased cost for high vehicle speed requirements; and W3 is the increased cost of in-car and distribution station construction requirements.
- Because it is cargo transportation, the vehicle comfort requirements, the structure's impact on surrounding noise and the construction costs will be relatively reduced.
- At present, the existing monorail system is all single-mode monorail system. For example, only the lower space of the pier cover beam is used in the suspended monorail traffic and upper space of the pier cover beam is discarded, while in the straddle monorail traffic and maglev traffic, only the upper space is used and the lower space of the pier cover beam is discarded. Therefore, for this single-mode monorail transportation, the biggest problem is that the space utilization rate is too low. From the point of view of traffic level, only one level is used. The passenger flow of the traffic section is Q=q0, and q0 is the cross-section single-mode traffic passenger flow per unit time. The logistic flow of the traffic of the cross-section is W=w0·w0 is single-mode traffic volume per unit time.
- In response to the above problems, combined with the actual situation and characteristics of monorail transportation, a lot of research and simulation has been conducted. Based on the existing theories and practical experience, this patent is proposed which considering the advantages of monorail transportation and the concept of elevated three-dimensional space.
- The double-mode monorail system is proposed in this patent. The working principle of the double-mode monorail system is explained in the following texts with reference to the accompanying figures. But before that, it should be pointed out that the embodiments described in the figures are only for demonstration of the principle and cannot be understood as the limitation for the present invention.
- First, the principle of the double-mode monorail system based on this patent will be demonstrated with reference to
FIG. 42 . From the perspective of structure, maglevsteel box guideways 3 a″″ and 4 a″″ are installed on the top ofcover beams 7 a″″ and 8 a″″, and suspended monorail I-shapedsteel guideways 5 a″″ and 6 a″″ are installed at the bottom of the cover beams 7 a″″ and 8 a″″. A gravity G1 of the maglev steel box track girder and a gravity G2 of the suspended monorail I-shaped steel track girder are transmitted to the bridge pier cover girder. - The principle of the double-mode monorail system based on this patent will be demonstrated with reference to
FIG. 42 . The double-mode monorail system is proposed in this patent, in which the system is set on the same pier stud. - The space is divided into two levels by a bridge pier cover beam structure, K1 and K2, the lower and upper levels of the cover beam. The lower and upper traffic levels are used to increase the cross-section passenger flow or logistic flow, and the cross-section passenger flow or logistic transportation capacity is improved.
- In terms of passenger flow, the total passenger flow of a certain section is calculated as follows:
-
- where q1 is the monorail traffic passenger flow in level K1; and q2 is the monorail traffic passenger flow in level K2.
- Compared with the existing single-mode transportation system, the passenger transportation capacity of this patent has increased to the two-level space passenger transportation capacity, which is double the passenger flow transportation capacity of the existing single-mode transportation system.
- In terms of logistics, the total logistic flow of a certain section is calculated as follows:
-
- where w1 is the monorail traffic volume in level K1; and w2 is the monorail traffic volume in level K2.
- Compared with the existing single-mode transportation system, the logistic transportation capacity of this patent has increased to a two-level spatial logistic transportation capacity, which is doubled compared to the existing single-mode transportation system. The double-mode monorail transportation can be operated in a same three-dimensional space, in which the problems of low space utilization rate and less level in current single-mode monorail system will be solved, and the goal of improving the double-mode monorail level will be truly achieved. The burden of ground transportation will be obviously reduced.
- The double-mode monorail system is proposed in this patent, in which the double-mode monorail system can be adopted on the bridge pier line and integrated construction. The two monorails operate independently without mutual interference, in which the space utilization can be improved. This patent will be further explained with embodiments.
- It is known that a section of maglev logistic monorail transportation system has been built on the central zone of the highway, comprising a maglev logistic track beam system, a maglev logistic vehicle system, a maglev logistic turnout system, a maglev logistic handling system and a maglev logistic signal system. Power logistic vehicles are used in the maglev logistic vehicle system, and the specific implementation is as follows:
- The maglev logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 1 ,FIG. 2 ,FIG. 7 -FIG. 12 , andFIG. 15 -FIG. 17 . - The maglev logistic track beam system comprises a single-column pier stud form and a frame-type pier shad form. The single-column pier stud form is set on the green belt in the center of a highway, that is, between the highway G1 and the highway G2, as shown in
FIG. 1 . When the distance between the green belt is too small or the obstacles exist in the belt, the frame-type pier shad form is adopted, and the frame-type pier shad form is erected on both sides of the highway, namely, a highway G3 and a highway G4, as shown inFIG. 2 . - In the single-column pier stud form of the maglev logistic track beam system, the single-column pier stud structure of the maglev logistic track beam system comprises
bridge piers 1 a, 2 a,maglev guideways logistic vehicle 5 a. Themaglev guideway 3 a is installed on the top of cover beams 10 a and 11 a through thebearings maglev guideway 4 a is installed on the top of the cover beams 10 a and 11 a throughbearings logistic vehicle 5 a runs on themaglev guideway 4 a straddling. - In some complex lines, the frame-type pier shad form of the maglev logistic track beam system is adopted. The frame-type pier shad structure of the maglev logistic track beam system comprises the piers 1-1 b, 1-2 b, 2-1 b, 2-2 b, the
maglev guideways logistic vehicle 5 b. Themaglev guideway 3 b is installed on the top of cover beams 10 b and 11 b throughbearings maglev guideway 4 b is installed on the top of cover beams 10 b and 11 b throughbearings logistic vehicle 5 b runs on themaglev guideway 4 b straddling. It should be pointed out that the adoption of the single-column pier stud form or the frame-type pier shad form of the maglev logistic track beam system should depend on the specific conditions of the route. Only one form of single-column pier stud, or frame-type pier shad can be adopted in the maglev logistic track beam system. The form of single-column pier stud and frame-type pier shad can also be adopted at the same time. - The vehicle structure used in the maglev logistic vehicle system comprises the car bodies 5-11, 5-31, maglev bogies 5-14, 5-34 and a connecting piece 5-2. The car body 5-11 and 5-31 are open structure, and cargo containers 5-12 and 5-13 are installed on 5-11. Cargo containers 5-32 and 5-33 are installed on 5-31. The maglev bogie 5-14 is installed at the bottom of the car body 5-11, and comprises an electromagnet 5-15 and a linear motor 5-16. The electromagnet 5-15 is used for the suspension and guide of the car body 5-11. The linear motor 5-16 is used for front and rear driving of the car body 5-11. The maglev bogie 5-34 is installed at the bottom of the car body 5-31, and comprises an electromagnet 5-35 and a linear motor 5-36. The electromagnet 5-35 is used for the suspension and guide of the car body 5-31. The linear motor 5-36 is used for the front and rear driving of the car body 5-31. The car body 5-11 and 5-31 are connected through the connection system 5-2. It should be pointed out that the number of logistic vehicles in the maglev logistic vehicle system is not only two. The number of logistic vehicles depends on the specific logistic transportation conditions.
- In the maglev logistic turnout system, the switch structure is composed of a
single pillar 1 c, frames 2 c, 3 c, 4 c and amaglev turnout beam 5 c. The maglev turnout beam with 5 c is a track beam with three flexible joints, which can be rotated at the top area of theframe rail trolley 9 c is arranged on atrack 6 c on the top of theframe 2 c, which is used to drive the rotation of themaglev turnout beam 5 c; therail trolley 10 c is arranged on arail 7 c on the top of theframe 3 c, which is used to drive the rotation of themaglev turnout beam 5 c; arail trolley 11 c is arranged ontrack 8 c on the top of theframe 4 c, which is used to drive the rotation of themaglev turnout beam 5 c. The coordinated work of therail trolley maglev turnout beam 5 c rotate to the suitable position to achieve the goal of the maglev logistic turnout system. - In the maglev type logistic handling system, the maglev type logistic loading and unloading structure is composed of a
distribution station 1 d, anoverhead traveling crane 2 d, anoverhead traveling crane 3 d and anoverhead traveling crane 4 d. When loading,cargo 5 d,cargo 6 d,cargo 7 d,cargo 8 d,cargo 9 d andcargo 10 d are loaded bycrane 2 d,crane 3 d andcrane 4 d into the logistic vehicle from the upper part. When unloading,cargos crane 2 d andcrane 3 d and thecrane 4 d from the logistic vehicle and then sent to a suitable storage place. It should be noted that the above is only the implementation mode. In the actual distribution station, the number of cranes is not only three. The specific number of cranes should be considered comprehensively according to the scale of the distribution station. - In the signal systems of the maglev logistics, the maglev logistic signal system comprises an unmanned driving system and a turnout control signal system. Maglev logistic vehicles are controlled by the unmanned driving system to run according to the route conditions, and the maglev logistic switch is controlled by the turnout control signal system to switch line according to the operation of the maglev logistic vehicles to make the maglev logistic vehicles travel along the target line.
- It is known that a section of maglev logistic monorail transportation system is constructed in a field, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system. The distributed power logistic vehicles are used in the maglev logistic vehicle system, and the specific implementation is as follows:
- With reference to
FIG. 3 ,FIG. 4 ,FIG. 7 -FIG. 12 ,FIG. 15 -FIG. 17 , a maglev-type logistic monorail transportation system based on this patent will be demonstrated. - The maglev logistic track beam system comprises a single-column pier stud form and the frame-type pier shad form. The single-column pier stud form is set on the planned route of the field T1, as shown in
FIG. 3 . When there are obstacles T3 such as trees in the planned route in the field T2, the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the obstacle T3, as shown inFIG. 4 . - In this
embodiment 2, the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev-type logistic signal system are the same as those in the embodiment 1, and will not be repeated here. - It is known that a section of the maglev logistic monorail transportation system has been built in an urban street, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system. The distributed power logistic vehicles are adopted in the logistic vehicle system, and the specific implementation is as follows:
- A maglev-type logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 5-12 andFIG. 15-17 . - The maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form. The single-column pier stud form is set on the green belt, the region between an urban street C1 and an urban street C2, in the center of urban streets, as shown as in
FIG. 5 . When the spacing between the separation belts in the center of urban streets is too small or there are obstacles, the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the urban street C3, as shown inFIG. 6 . - In this embodiment 3, the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev-type logistic signal system are the same as those in the embodiment 1, and will not be repeated here.
- It is known that a section of maglev-type logistic monorail transportation system has been built on the central reservation of a certain highway, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system. Centralized power logistic vehicles are adopted in the maglev logistic vehicle system, and the specific implementation is as follows:
- A maglev-type logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 1 ,FIG. 2 ,FIG. 7 -FIG. 10 ,FIG. 13 -FIG. 17 . - The maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form. The single-column pier stud form is set on the green belt in the center of the highway, the space between the highway G1 and the highway G2, as shown in
FIG. 1 . When the distance of the separation belt is too small, or there is the influence of obstacles, the frame-type pier shad is adopted, and the frame-type pier shad is erected on both sides of the road, that is, the road G3 and the road G4, as shown inFIG. 2 . - In this embodiment 4, the principle and structure of a single-column pier stud form and a frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system are the same as the above embodiments 1 and won't be repeated here. The following text focuses on the maglev logistic vehicle system in this embodiment.
- In the maglev type logistic vehicle system in embodiment 4, the structure of the maglev logistic vehicle comprises a car body 5-41, a car body 5-61, a maglev bogie 5-44, a maglev bogie 5-64 and a connecting piece 5-5. The car body 5-41 and the car body 5-61 are open-type structures. A cargo container 5-42 and a cargo container 5-43 are installed on the car body 5-41; a cargo container 5-62 and a cargo container 5-63 are installed on the car body 5-61. The maglev bogie 5-44 is installed at the bottom of the car body 5-41. The maglev bogie 5-44 comprises an electromagnet 5-45 and a linear motor 5-46. The electromagnet 5-45 is used for the suspension and guidance of the car body 5-41; the linear motor 5-46 is used for the front and rear driving of the car body 5-41; the bottom of the car body 5-61 is equipped with the maglev bogie 5-64, which comprises a electromagnet 5-65; the electromagnet 5-65 is used for the suspension and guidance of the car body 5-61, and the car body 5-41 and the car body 5-61 are connected by the connecting system 5-5. It should be pointed out that the number of logistic vehicles in the maglev logistic vehicle system is not only two. The number of specific logistic vehicles depends on the specific logistic and transportation conditions. The position of the bogie 5-44 with linear motor 5-46 can be grouped at the head of the logistic vehicle, and it can also be at the rear of the marshalling logistic vehicle or in the middle of the marshalling logistic vehicle.
- It is known that a section of maglev-type logistic monorail transportation system has been constructed in a field, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system. The centralized power logistic vehicles are used in the maglev-type logistic vehicle system, and the specific implementation is as follows:
- A maglev type logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 3 ,FIG. 4 ,FIG. 7 -FIG. 10 ,FIG. 13 -FIG. 17 . - The maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form. The single-column pier stud form is set on the planned route of the field T1, as shown in
FIG. 3 . When there are obstacles T3 such as trees in the planned route in the field T2, the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of the obstacle T3, as shown inFIG. 4 . - In this
embodiment 5, the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system, and the maglev logistic signal system are the same as the above-mentioned embodiment 4, and will not be repeated here. - It is known that a section of maglev logistic monorail transportation system has been built in an urban street, comprising the maglev logistic track beam system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system. The centralized power logistic vehicles are used in the integrated logistic vehicle system, and the specific implementation is as follows:
- A maglev-type logistic monorail transportation system based on this patent will be demonstrated with reference to
FIG. 5-10 andFIG. 13-17 . - The maglev logistic track beam system comprises the single-column pier stud form and the frame-type pier shad form. The single-column pier stud form is set on the green belt in the center of urban streets, the space between an urban street C1 and an urban street C2, as shown in
FIG. 5 . When the spacing between the green belts in the center of urban streets is too small or there are obstacles, the frame-type pier shad form is adopted, and the frame-type pier shads are erected on both sides of an urban street C3, as shown inFIG. 6 . - In the embodiment 6, the principle and structure of the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the maglev logistic monorail transportation system, the maglev logistic vehicle system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system are the same as those in the above-mentioned embodiment 4, and will not be repeated here.
- In the above description, the maglev type logistic monorail transportation system is taken as an example to describe the logistic monorail transportation system according to the present invention. The logistic monorail transportation system according to the present invention may also comprise a straddle-type logistic monorail transportation system or a suspended logistic monorail transportation system. The differences will be described below with reference to the drawings.
- The straddle logistic monorail transportation system according to the present invention has basically the same structure as the above-mentioned maglev logistic monorail transportation system, and the difference lies in the use of straddle-type monorail guideways and straddle-type logistic monorail vehicles.
FIG. 18 is a schematic diagram showing a single-column pier stud straddle-type logistic monorail bridge guideway system set on the central reservation of the expressway, in which a straddle-type monorail guideway is adopted. Of course, the straddle logistic monorail transportation system can also have the configuration as shown inFIG. 2-6 . - The straddle logistic monorail vehicle system in this embodiment 7 will be described below, known as
FIG. 19 andFIG. 20 . The structure of the straddle logistic monorail vehicle is composed of a car body 5-11′, a car body 5-31′, and the bogies of straddle monorail vehicle 5-14′, bogies 5-34′ and a connecting piece 5-2′. Car body 5-11′ and car body 5-31′ are open-type structures; cargo container 5-12′ and cargo container 5-13′ are installed on car body 5-11′; cargo container 5-32′ and cargo container 5-33′ are installed on the car body 5-31′. The straddle monorail bogie 5-14′ is installed at the bottom of the car body 5-11′, and the straddle monorail bogie 5-14′ comprises walking wheels 5-15′, guide wheels 5-16′ and steady wheels 5-17′. The walking wheels 5-15′ is used for the support and traction of the car body 5-11′; the guide wheels 5-16′ is used for the guidance of the car body 5-11′, and the steady wheels 5-17′ is used to maintain the car body 5-11′ balance and stability. The straddle monorail bogie 5-34′ is installed at the bottom of car body 5-31′. The straddle monorail bogie 5-34′ comprises walking wheels 5-35′, guide wheels 5-36′ and steady wheels 5-37′. Walking wheels 5-35′ are used for the support and traction of the car body 5-31′. Guide wheels 5-36′ are used for guiding the car body 5-31′, and the steady wheels 5-37′ is used to maintain the balance and stability of the car body 5-31′, and the car body 5-11′ and the car body 5-31′ are connected by a connecting system 5-2′. It should be pointed out that the number of logistic vehicles in the straddle logistic monorail vehicle system is not only two. The number of specific logistic vehicles depends on the specific logistic and transportation conditions. The straddle logistic monorail vehicle may be a decentralized power logistic vehicle or a centralized power logistic vehicle. When it is a centralized power logistic vehicle, the same walking wheels can be shared by two or more vehicle bodies. - In the embodiment 7, the single-column pier stud form and frame-type pier shad form of the straddle logistic monorail bridge guideway system of a straddle logistic monorail transportation system, a straddle logistic single turnout beam with system, and a straddle logistic monorail handling system and a straddle logistic monorail signal system are respectively the same as the single-column pier stud form and frame-type pier shad form of the maglev logistic track beam system of the above-mentioned maglev logistic monorail transportation system, the maglev logistic turnout system, the maglev logistic handling system and the maglev logistic signal system, so they won't be repeated here. The straddle logistic monorail transportation system with decentralized power logistic vehicles or the straddle logistic monorail transportation system with centralized power logistic vehicles according to the present invention can be installed on the highway, in the field, or in the urban area. In the street, the setting method is the same as that of the maglev-type logistic monorail transportation system, and will not be repeated here.
- The suspended monorail system according to the present invention has basically the same structure as the above-mentioned maglev monorail system, the only difference lies in the use of suspended monorail guideways and suspended logistic monorail vehicles.
FIG. 21 shows a schematic diagram of a single-column pier stud suspended monorail bridge guideway system setting on the central reservation of the expressway, in which a straddle monorail guideway is used. The suspended logistic monorail transportation system can also have the installation form as shown inFIG. 2-6 , which means that it can be installed in the field or in the urban street. - The following text describes the suspended logistic monorail vehicle system in this
embodiment 8, referring toFIG. 22-31 . In the single-column pier stud form of the suspended logistic monorail track beam system, a single pier of the suspended logistic monorail track beam system comprises a bridge pier 1 a″, abridge pier 2 a″, a suspendedmonorail guideway 3 a″, a suspendedmonorail guideway 4 a″, and a suspendedlogistic monorail vehicle 5 a″. The suspendedmonorail guideway 3 a″ is installed at the bottom of acover beam 10 a″ and acover beam 11 a″ through asteel cable 12 a″.Bearings 6 a″ and 7 a″, and the suspendedmonorail guideway 4 a″ passes asteel cable 13 a″.Bearing 8 a″ and 9 a″ are installed at the bottom of thecover beam 10 a″ and thecover beam 11 a″, and an unmanned suspendedlogistic monorail vehicle 5 a″ is suspended on the suspendedmonorail guideway 4 a″. - In some complex lines, the frame-type pier shad form of the suspended logistic monorail track beam system is adopted. The frame-type pier shad structure of the suspended logistic monorail track beam system comprises piers 1-1 b″, piers 1-2 b″, pier 2-1 b″, pier 2-2 b″, suspended
monorail guideway 3 b″, suspendedmonorail guideway 4 b″, suspendedlogistic monorail vehicle 5 b″. The suspendedmonorail guideway 3 b″ is installed on the bottom of acover beam 10 b″ and acover beam 11 b″ through asteel cable 12 b″.Bearings 6 b″ and 7 b″, and the suspendedmonorail guideway 4 b″ are installed at the bottom of thecover beam 10 b″ and thecover beam 11 b″ through asteel cable 13 b″.Bearings 8 b″ and 9 b″, and the unmanned suspendedlogistic monorail vehicle 5 b″ are suspended on the suspendedmonorail guideway 4 b″ for operation. It should be pointed out that the single-column pier stud form of the suspended logistic monorail track beam system and the frame-type pier shad form of the suspended logistic monorail track beam system should be determined according to the specific conditions of the line. It can use only one single-column pier stud form of the suspended logistic monorail track beam system; or only the frame-type pier shad form of the suspended logistic monorail track beam system. The suspended logistic monorail track beam, the single-column pier stud form of the system and the frame-type pier shad form of the suspended logistic monorail track beam system can also be used at the same time. - In the above-mentioned suspended logistic monorail vehicle system, the suspended logistic monorail vehicle structure comprises a car body 5-11″, a car body 5-31″, a suspended monorail bogie 5-14″, a suspended monorail vehicle bogie 5-34″ and a connecting piece 5-2″. Car body 5-11″ and car body 5-31″ are open-bottom structures; cargo containers 5-12″ and cargo containers 5-13″ are installed under car body 5-11″; cargo containers 5-32″ and cargo container 5-33″ are installed under the car body 5-31″; the top of the car body 5-11″ is installed with the suspended monorail bogie 5-14″. Each side of the suspended monorail bogie 5-14″ comprises walking wheels 5-15″, walking wheels 5-16″, walking wheels 5-17″ and guide wheels 5-18″, while walking wheels 5-15″, walking wheels 5-16″ and walking wheels 5-17″ are used for the support and traction of the car body 5-11″, and the guide wheels 5-18″ are used for the guidance of the car body 5-11″; the suspended monorail bogie 5-34″ is installed on the top of the car body 5-31″; each side of the suspended monorail bogie 5-34″ comprises walking wheels 5-35″, walking wheels 5-36″ and walking wheels 5-37″ and guide wheels 5-38″, while walking wheels 5-35″, walking wheels 5-36″ and walking wheels 5-37″ are used for the support and traction of the car body 5-31″. Guide wheels 5-38″ are used to guide the car body 5-31″; the car body 5-11″ and the car body 5-31″ are connected by the connecting system 5-2″. It should be pointed out that the number of logistic vehicles in the suspended logistic monorail vehicle system is not only two. The number of specific logistic vehicles depends on the specific logistic and transportation conditions.
- In the suspended logistic monorail turnout system, the suspended logistic monorail turnout structure is composed of a
single pillar 1 c″, aframe 2 c″, aframe 3 c″, aframe 4 c″, and a suspendedmonorail switch beam 5 c″. The suspendedmonorail turnout beam 5 c″ is a guideway with three flexible joints. The suspendedmonorail turnout beam 5 c″ can be rotated at the bottom area of theframe 2 c″ and the bottom area of theframe 3 c″. Arail trolley 9 c″ is installed at arail 6 c″ at the bottom of theframe 2 c″, which is used to drive the rotation of the suspendedmonorail turnout beam 5 c″, and arail trolley 10 c″ is arranged on arail 7 c″ at the bottom of theframe 3 c″ for driving the rotation of the suspendedmonorail turnout beam 5 c″. Therail trolley 11 c″ is arranged on thetrack 8 c″ at the bottom of theframe 4 c″, and is used to drive the rotation of the suspendedmonorail turnout beam 5 c″. The suspendedmonorail turnout beam 5 c″ is rotated by the coordinated work of therail trolley 9 c″, therail trolley 10 c″, and arail trolley 11 c″ to a suitable position to achieve the steering goal of the suspended logistic monorail turnout system. - In the suspended logistic monorail handling system, the suspended logistic monorail handling structure comprises a
distribution station 1 d″, aforklift 2 d″ and aforklift 3 d″. When loading,cargo 4 d″,cargo 5 d″,cargo 6 d″,cargo 7 d″,cargo 8 d″, andcargo 9 d″ are loaded byforklift 2 d″ andforklift 3 d″ into the logistic vehicle from the bottom. When unloading, thecargo 4 d″,cargo 5 d″,cargo 6 d″,cargo 7 d″,cargo 8 d″ andcargo 9 d″ are taken byforklift 2 d″ and theforklift 3 d″ from the logistic vehicle and transport them to the appropriate depository. It should be pointed out that the above is only the implementation mode. In the actual distribution station, the number of cranes is not only three, and the number of forklifts is not only two. The specific number of cranes and forklifts should be considered comprehensively according to the scale of the distribution station. In the suspended logistic monorail signal system, the suspended logistic monorail signal system comprises an unmanned driving system and a turnout control signal system. The suspended logistic monorail vehicle is controlled by the unmanned driving system to run according to the line conditions, and the suspended logistic monorail switch is controlled by the turnout control signal system to convert line according to the operation of the suspended logistic monorail vehicle to make the suspended logistic monorail vehicle travel along the target line. - The
embodiment 8 has been described by setting up a suspended logistic monorail transportation system with distributed power logistic vehicles on the central reservation of highway, in the fields or in the urban streets. The suspended logistic monorail transportation system according to the present invention can also comprise the centralized power logistic vehicle, which can also perform the above three setting methods. In the following text, the centralized power logistic vehicle will be described. - As shown in
FIG. 26 andFIG. 27 , the suspended monorail vehicle structure comprises a car body 5-11″, a car body 5-31″, suspended monorail bogies 5-14″, 5-34″ and a connecting piece 5-2″. Car body 5-11″ and car body 5-31″ are open-type structure; a cargo container 5-12″ and a cargo container 5-13″ are installed under the car body 5-11″; a cargo container 5-32″ and a cargo container 5-33″ are installed under the car body 5-31″; the top of the car body 5-11″ is installed with the suspended monorail bogie 5-14″, and the suspended monorail bogie 5-14″ comprises walking wheels 5-15″, guide wheels 5-16″ and steady wheels 5-17″, while the walking wheels 5-15″ are used for the support and traction of car body 5-11″, and the guide wheels 5-16″ are used to guide the car body 5-11″; the steady wheels 5-17″ are used to maintain the balance and stability of the car body 5-11″. The monorail bogies 5-34″ is installed on the top of the car body 5-31″, which comprises walking wheels 5-35″, guide wheels 5-36″ and steady wheels 5-37″. The walking wheels 5-35″ are used to support the car body 5-31″, the guide wheels 5-36″ are used to guide the car body 5-31″, and the steady wheels 5-37″ are used to maintain the balance and stability of the car body 5-31″. The car body 5-11″ and the car body 5-31″ are connected through the connection piece 5-2″. It should be pointed out that the number of logistic vehicles in the suspended logistic monorail vehicle system is not only two. The number of specific logistic vehicles depends on the specific logistic and transportation conditions. The position of the bogie 5-14″ of the walking wheels 5-15″ with traction function can be at the head of a marshalling logistic vehicle, the rear of the marshalling logistic vehicle, or the middle of the marshalling logistic vehicle. - According to the present invention, the suspended logistic monorail transportation system with decentralized power logistic vehicles or the suspended logistic monorail transportation system with centralized power logistic vehicles can be installed on the central reservation of highway, in the field, or in the urban streets, which is the same as the maglev logistic monorail transportation system, and won't be repeated here.
- An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 32 . The structure comprises a bridge pier 1 a″″, abridge pier 2 a″″, a maglevsteel box guideway 3 a″″, a maglevsteel box guideway 4 a″″, a suspended monorail I-shapedsteel guideway 5 a″″ and a suspended monorail I-shapedsteel guideway 6 a″″. The maglevsteel box guideway 3 a″″ and the maglevsteel box guideway 4 a″″ are installed oncover beams 7 a″″ and 8 a″″ by bearings. Suspended monorail I-shapedsteel guideway 5 a″″ and suspended monorail I-shapedsteel guideway 6 a″″ are installed at the bottom of thecover beam 7 a″″ and thecover beam 8 a″″ by bearings and cables. - A double-mode monorail system based on this patent is demonstrated in conjunction with reference to
FIG. 33 . The structure comprises abridge pier 1 b″″, abridge pier 2 b″″, a maglevsteel box guideway 3 b″″, a maglevsteel box guideway 4 b″″, and a suspended monorail bottom openingsteel box guideway 5 b″″ and a suspended monorail bottom openingsteel box guideway 6 b″″. The maglevsteel box guideway 3 b″″ and the maglevsteel box guideway 4 b″″ are installed at the top ofcover beams 7 b″″ and 8 b″″ by bearings; the suspended monorail bottom openingsteel box guideway 5 b″″ and the suspended monorail bottom openingsteel box guideway 6 b″″ are installed at the bottom ofcover beams 7 b″″ and 8 b″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 34 . The structure comprises abridge pier 1 c″″, abridge pier 2 c″″, a maglev I-shapedsteel guideway 3 c″″, a maglev I-shapedsteel guideway 4 c″″, a suspended monorail I-steel guideway 5 c″″, and a suspended monorail I-shapedsteel guideway 6 c″″. The maglev I-steel guideway 3 c″″ and the maglev I-steel guideway 4 c″″ are installed on the top ofcover beams 7 c″″ and 8 c″″ by bearings, and the suspended monorail I-shapedsteel guideway 5 c″″ and the suspended monorail I-shapedsteel guideway 6 c″″ are installed at the bottom ofcover beams 7 c″″ and 8 c″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 35 . The structure is composed of abridge pier 1 d″″, abridge pier 2 d″″, a maglev I-shapedsteel guideway 3 d″″, a maglev I-shapedsteel guideway 4 d″″, a suspended monorail bottom openingsteel box guideway 5 d″″ and a suspended monorail bottom openingsteel box guideway 6 d″″. The maglev type I-shapedsteel guideway 3 d″″ and the maglev I-shapedsteel guideway 4 d″″ are installed on top ofcover beams 7 d″″ and 8 d″″ by bearings; the suspended monorail bottom openingsteel box guideway 5 d″″ and the suspended monorail bottom openingsteel box guideway 6 d″″ are installed on the bottom ofcover beams 7 d″″ and 8 d″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 36 . The structure comprises a bridge pier 1 e″″, abridge pier 2 e″″, a straddle monorailsteel box guideway 3 e″″, a straddle monorailsteel box guideway 4 e″″, a suspendedmonorail steel guideway 5 e″″ and a suspended monorail I-shapedsteel guideway 6 e″″. The straddle monorailsteel box guideway 3 e″″ and the straddle monorailsteel box guideway 4 e″″ are installed on top ofcover beams 7 e″″ and 8 e″″ by bearings; suspended monorail I-shapedsteel guideway 5 e″″ and suspended monorail I-shapedsteel guideway 6 e″″ are installed on the bottom of thecover beam 7 e″″ and thecover beam 8 e″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 37 . The structure comprises a bridge pier if″″, abridge pier 2 f″″, a straddle monorailsteel box guideway 3 f″″, a straddle monorailsteel box guideway 4 f″″, a suspended monorail bottom opensteel box guideway 5 f″″ and a suspended monorail bottom opensteel box guideway 6 f″″. The straddle monorailsteel box guideway 3 f″″ and the straddle monorailsteel box guideway 4 f″″ are installed on the top ofcover beams 7 f″″ and 8 f″″ by bearings; the suspended monorail bottom openingsteel box guideway 5 f″″ and the suspended monorail bottom openingsteel box guideway 6 f″″ are installed at the bottom ofcover beams 7 f″″ and 8 f″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 38 . The structure comprises abridge pier 1 g″″, abridge pier 2 g″″, a maglevconcrete guideway 3 g″″, a maglevconcrete guideway 4 g″″, and a suspended monorail bottom openingconcrete guideway 5 g″″ and a suspended monorail bottom openingconcrete guideway 6 g″″. The maglevconcrete guideway 3 g″″ and the maglevconcrete guideway 4 g″″ are installed oncover beams 7 g″″ and 8 g″″ by bearings; the suspended monorail bottom openingconcrete guideway 5 g″″ and the suspended monorail bottom openingconcrete guideway 6 g″″ are installed on the bottom ofcover beams 7 g″″ and 8 g″″ by bearings and cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 39 . The structure comprises abridge pier 1 h″″, abridge pier 2 h″″, a straddle monorailconcrete guideway 3 h″″, a straddle monorailconcrete guideway 4 h″″, a suspended monorail bottom openingconcrete guideway 5 h″″ and a suspended monorail bottom openingconcrete guideway 6 h″″. The straddle monorailconcrete guideway 3 h″″ and the straddle monorailconcrete guideway 4 h″″ are installed ontop cover beams 7 h″″ and thecover beam 8 h″″ through the bearings; the suspended monorail bottom openingconcrete guideway 5 h″″ and the suspended monorail bottom openingconcrete guideway 6 h″″ are installed at the bottom of thecover beam 7 h″″ and thecover beam 8 h″″ through the bearings and the cables. - An example of a double-mode monorail system based on this patent will be described with reference to
FIG. 40 . The structure comprises a bridge pier 1-1 i″″, bridge piers 1-2 i″″, a bridge pier 2-1 i″″, a bridge pier 2-2 i″″, a maglev concrete guideways 3 i″″, a maglevconcrete guideway 4 i″″, a suspended monorail I-shaped steel guideway 5 i″″ and a suspended monorail I-shapedsteel guideway 6 i″″. The maglev concrete guideway 3 i″″ and the maglevconcrete guideway 4 i″″ are installed on the top ofcover beams 7 i″″ and 8 i″″ by bearings; the suspended monorail I-shaped steel guideway 5 i″″ and the suspended monorail I-shapedsteel guideway 6 i″″ are installed at the bottom of thecover beam 7 i″″ and the cover beam 8 i″″ through bearings and cables. - An example of a dual-standard monorail system based on this patent will be described with reference to
FIG. 41 . The structure comprises a pier 1-1 j″″, a pier 1-2 j″″, a pier 2-1 j″″, a pier 2-2 j″″, a straddle monorailconcrete guideway 3 j″″, a straddle monorail concrete guideway 4 j″″, a suspended monorail I-steel guideway 5 j″″ and a suspended monorail I-shapedsteel guideway 6 j″″. The straddle monorailconcrete guideway 3 j″″ and the straddle-type monorail concrete guideway 4 j″″ are installed on the top ofcover beams 7 j″″ and 8 j″″ by bearings; the suspended monorail I-shaped steel guideway 5 j″″ and the suspended monorail I-shapedsteel guideway 6 j″″ are installed at the bottom of thecover beam 7 j″″ and thecover beam 8 j″″ through the bearings and the cables. - The purpose, technical solutions and beneficial effects of this patent are explained in the specific implementation methods described above. It should be emphasized that the above are only specific embodiments of this patent, and can't be used to limit the scope of this patent. Any modification, equivalent replacement or improvement made within the spirit and principle of this patent shall be included in the protection scope of this patent.
Claims (13)
1. A logistic monorail transportation system comprising:
a logistic track beam system;
a logistic vehicle system;
a logistic turnout system;
a logistic handling system;
and a logistic signal system;
wherein, the logistic track beam system is in a form of single-column pier studs or frame-type pier shads, setting up on highways, fields or urban streets.
2. The logistic monorail transportation system of claim 1 , wherein the system comprises a maglev logistic transportation system, a straddle monorail logistic transportation system, or a suspended monorail logistic transportation system.
3. The logistic monorail transportation system of claim 1 , wherein
an open structure is adopted in the logistic vehicle system for transporting cargo containers;
the logistic vehicle system is provided with a cargo container in the vehicle.
4. The logistic monorail transportation system of claim 3 , wherein a centralized power system or a distributed power system are adopted in the logistic vehicle system.
5. The logistic monorail transportation system of claim 1 , wherein a frame structure is adopted in the logistic turnout system to realize line switching in the air.
6. The logistic monorail transportation system of claim 5 , wherein
the logistic turnout system comprises a pier column, a frame and a turnout beam;
a joint in the turnout can be a flexible beam or shifting beam or pivot beam.
7. The logistic monorail transportation system of claim 1 , wherein cranes or lifting trucks are adopted in the logistic handling system to load and unload containers on logistic vehicles.
8. The logistic monorail transportation system of claim 1 , wherein the logistic signal system comprises an unmanned driving system for controlling a logistic monorail vehicle and a turnout control signal system for controlling a monorail turnout to change lines.
9. The logistic monorail transportation system of claim 2 , wherein
a single-mode monorail or double-mode monorail are provided on a same column pier stud;
or a single-mode monorail or double-mode monorail transportation are provided on a same frame-type pier shad.
10. The logistic monorail transportation system of claim 9 , wherein
an upper level of the double-mode monorail transportation is a straddle monorail system or a maglev system;
a lower level of the double-mode monorail transportation is a suspended monorail system.
11. The logistic monorail transportation system of claim 10 , wherein guideways of a straddle monorail system in the double-mode monorail system are steel box guideways or concrete guideways.
12. The logistic monorail transportation system of claim 10 , wherein guideways of a maglev system in the double-mode monorail system are steel box guideways, I-shaped steel guideways or concrete guideways.
13. The logistic monorail transportation system of claim 10 , wherein guideways of a suspended monorail system in the double-mode monorail system are a steel box guideway with an opening at the bottom, an I-shaped guideway or a concrete guideway with an opening at the bottom.
Applications Claiming Priority (9)
Application Number | Priority Date | Filing Date | Title |
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CN201811022993.7A CN109131376A (en) | 2018-09-03 | 2018-09-03 | A kind of maglev type Logistics Transportation system |
CN201811021621.2A CN109131375A (en) | 2018-09-03 | 2018-09-03 | A kind of suspended material-transfer monorail traffic system |
CN201811022993.7 | 2018-09-03 | ||
CN201811023548.2A CN109162156A (en) | 2018-09-03 | 2018-09-03 | A kind of straddle-type logistics monorail traffic system |
CN201811023548.2 | 2018-09-03 | ||
CN201811021475.3 | 2018-09-03 | ||
CN201811021621.2 | 2018-09-03 | ||
CN201811021475.3A CN109137641A (en) | 2018-09-03 | 2018-09-03 | A kind of double-standard monorail traffic system |
PCT/CN2019/104239 WO2020048460A1 (en) | 2018-09-03 | 2019-09-03 | Logistic monorail transportation system |
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US17/272,990 Pending US20210323583A1 (en) | 2018-09-03 | 2019-09-03 | Logistic monorail transportation system |
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US20190313813A1 (en) * | 2017-11-01 | 2019-10-17 | Michael Honermann | Slidable Rod Rack System |
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DE19638578A1 (en) * | 1996-09-20 | 1998-03-26 | Rolf Eisele | Elevated railway system |
CN205474626U (en) * | 2015-11-10 | 2016-08-17 | 北京交通大学 | Concrete track roof beam that bottom plate opening, roof hung |
CN106828510A (en) * | 2017-01-06 | 2017-06-13 | 吕怀民 | The means of transportation of the vehicles of various mobile devices and various tracks |
CN106945688A (en) * | 2017-01-10 | 2017-07-14 | 王国伟 | Rail changing device, method and the track of straddle-type monorail track |
CN206706545U (en) * | 2017-04-14 | 2017-12-05 | 中铁第四勘察设计院集团有限公司 | The bridge arrangement of highway and rail traffic building jointly |
CN107724225B (en) * | 2017-11-21 | 2023-05-16 | 中铁第四勘察设计院集团有限公司 | Suspension type single-rail large-span track beam system |
CN209410051U (en) * | 2018-09-03 | 2019-09-20 | 北京交通大学 | A kind of suspended material-transfer monorail transit structure |
CN109131375A (en) * | 2018-09-03 | 2019-01-04 | 北京交通大学 | A kind of suspended material-transfer monorail traffic system |
CN109131376A (en) * | 2018-09-03 | 2019-01-04 | 北京交通大学 | A kind of maglev type Logistics Transportation system |
CN209410052U (en) * | 2018-09-03 | 2019-09-20 | 北京交通大学 | A kind of maglev type Logistics Transportation structure |
CN109162156A (en) * | 2018-09-03 | 2019-01-08 | 北京交通大学 | A kind of straddle-type logistics monorail traffic system |
CN109137641A (en) * | 2018-09-03 | 2019-01-04 | 北京交通大学 | A kind of double-standard monorail traffic system |
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2019
- 2019-09-03 WO PCT/CN2019/104239 patent/WO2020048460A1/en active Application Filing
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US20190313813A1 (en) * | 2017-11-01 | 2019-10-17 | Michael Honermann | Slidable Rod Rack System |
US11882948B2 (en) * | 2017-11-01 | 2024-01-30 | Quality Wood Designs Inc. | Slidable rod rack system |
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