JP4522804B2 - A complex transportation system that preserves the environment in the Bedtown area - Google Patents

Description

  The present invention relates to the construction of a complex transportation system that can harmonize nature and human social life and can be constructed and maintained with limited financial resources, and in particular, preserves the environment in a bed town area.

Conventionally, individual transportation systems such as guideway buses, LRT (Light Rail Transit System), urban railways, suburban non-electric railways, and the like have been deployed in various places, and have achieved their results.
Japanese Patent No. 3545316

However, the present situation is that there has not been a sufficient development in the construction of a composite transportation system that can unite the individual transportation systems as described above and can harmonize nature and human social life.
In view of such a current situation, the inventors of the present application have concentrated each transportation facility that is presently separated into a part of the region, allowing mutual entry, arrival and departure at the same home and transfer and improving convenience. As a combined traffic system that facilitates securing land for routes by mutual entry, a system combining a suspended monorail and a tram has been proposed as Patent Document 1 above.

  The present invention further develops the above-mentioned combined transportation system, and provides a combined transportation system that can be constructed and maintained with limited financial resources, and that is low in load and that also preserves the environment of the Bedtown area. Objective.

In order to achieve the above object, the present invention provides
[1] Bedtown area that lays a semi-elevated shared runway that surrounds the bedtown area where rubber tire type vehicles and railway vehicles can run in a combined transportation system that preserves the environment of the bedtown area The common travel route is a large-diameter pipe arranged in parallel with the running direction and a small-diameter pipe connected so as to be bridged between the large-diameter pipes. A ladder-type assembly comprising pipes, a concrete foundation part in which the large-diameter pipes are embedded and forming a tire traveling road surface, a sound insulation side wall raised from a side part of the concrete foundation part, and the tire A rail laid on a step formed at the end of the traveling road surface, and a running water branched from the large-diameter pipe and having a narrow tube opening at the tip, which can flow on the tire traveling road surface Characterized by comprising a location.

[2] The composite transport system to preserve the above [1], wherein the bedroom local environment, the suburb area, net connected cyclic and common traveling path of orbiting the outer loop, the shared roadway of the annular It is constructed from a road or rail.
[3] In the combined traffic system for preserving the environment of the bed town area as described in [1] above, a block of a precast structure having a rectangular cylindrical space is equidistantly arranged below the semi-elevated shared traveling path. It is characterized by laying.

[4] In the combined traffic system for preserving the environment of the bed town area as described in [3] above, the rectangular cylindrical space of the block of the precast structure is used for a bicycle, a two-wheeled vehicle, and a light vehicle that are low-load vehicles. It is used as a storage place.
[5] In the combined traffic system for preserving the environment of the bed town area as described in [3] above, the space between the blocks of the precast structure is used as a passage for a pedestrian or a low-load vehicle.

[ 6 ] In the combined transportation system for preserving the environment of the bed town area as described in [1] above, a vehicle having a rubber tire system is provided with a traveling guide wheel guided by the rail.
[7] The composite transport system to preserve the [6], wherein the bedroom local environment, and characterized by including a running guide wheels in contact with the lower portion of the sound insulation sidewalls on both sides of the lower portion of the vehicle of the rubber tire system To do.

[8] In the composite transport system to preserve the above [1], wherein the bedroom local environment, the lane markers placed on the small diameter of the tube path, equipped with a magnetic sensor and a control unit in a running vehicle, the traveling vehicle and performing running direction of the control or interval control.

According to the present invention, the following effects can be achieved.
(1) Construction in the limited financial resources, it is maintained, at low load, yet it is possible to preserve the bedroom area of the environment.
(2) The vehicle type can be selected and operated according to the weather.
(3) By arranging a lane marker on a small-diameter pipe and mounting a magnetic sensor and a control device on the traveling vehicle, guidance control of the traveling direction of the traveling vehicle and interval control of the traveling vehicle can be performed.

(4) the movement and logistics of the residents of bed Town area, primarily due to the complex transportation system that automatic control has access to a shared travel path as possible, the operation schedule of the various vehicles by partnering day and night the not question properly, It is possible to meet demand efficiently.

In a combined transportation system that preserves the environment of the bed town area, the environment of the bed town area is constructed by laying a semi-elevated shared traveling road that can run by sharing rubber tire type vehicles and railway vehicles so as to surround the bed town area. In the composite traffic system to be maintained , the common travel path is composed of a large-diameter pipe arranged in parallel with the running direction and a small-diameter pipe connected so as to be bridged between the large-diameter pipes. An assembly of a ladder system, a concrete foundation portion in which the large-diameter pipe is embedded and forming a tire running road surface, a sound insulation side wall raised from a side portion of the concrete foundation portion, and the tire running road surface A rail laid on a step formed at an end, a water flow device branched from the large-diameter pipe, a narrow pipe opening disposed at the tip, and capable of running on the tire running road surface Comprising. Therefore, construction and maintenance can be performed with limited financial resources, and the environment of the bed town area can be preserved with low load.

Hereinafter, embodiments of the present invention will be described in detail.
FIG. 1 is a basic layout view of a combined transportation system for protecting the environment of a bed town area according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a part of a semi-elevated shared runway surrounding the bed town area. FIG. 3 is a front view showing a part of the semi-elevated shared traveling road.
In these drawings, 1 to 3 are shared main roads to the bed town area, 10 is a bed town area, 11 is an annular shared road surrounding the bed town area 10, and 12 to 25 are in the bed town area 10. It is a mesh-like shared traveling path provided.

In this way, users to or from the bedtown area 10 use the network-like shared traveling paths 12 to 25 in the main shared traveling paths 1 to 3 and the annular shared traveling path 11. .
Therefore, for example, when returning home to private house A, get off at point d from main shared road 1 via point a-point b-point c and return to private house A. When returning to private house B, get off at point g from main shared road 1 via point a-point b-point c-point e-point f and return to private house B.

  The annular shared traveling path 11 and the mesh-shaped shared traveling paths 12 to 25 are semi-elevated shared traveling paths 101 as shown in FIGS. In other words, the shared travel path 101 is laid on, for example, a half elevated (about 2 m height) 141. For this purpose, precast-structure blocks 142 having rectangular cylindrical spaces 143 are arranged at equal intervals in the lower part of the shared traveling path 101. Thereby, the rectangular cylindrical space 143 of the block 142 can be used as a place for a bicycle, a two-wheeled vehicle, a light vehicle, or the like. Further, the space 144 between the block 142 and the adjacent block 145 can be used for traffic of pedestrians, low-load bicycles, two-wheeled vehicles, and light vehicles. Note that a protective plate 151 is disposed above the space (width 2 m) 144 so that the passage of the space 144 is not hindered.

  In this way, the users of the Bedtown area 10 mainly use the shared travel route. As shown in FIG. 3, the shared travel route is used by a heavy-duty large bus or truck from the outside. Even if an attempt is made, the space 144 is low in height and narrow so that it cannot pass. Therefore, the bed town area 10 in the annular shared traveling path 11 is prevented from entering such a heavy-duty large bus or truck, and as a result, carbon dioxide and nitrogen gas are not discharged. The air is cleaned and the living environment of residents is preserved without noise. Further, since the block 142 having the precast structure having the rectangular cylindrical space 143 is laid, the ventilation is good and the natural environment is not hindered.

As will be described later, the shared traveling road can be constructed and maintained with limited financial resources, has a low load, and can maintain the environment of the bed town area.
FIG. 4 is a schematic cross-sectional view of a shared travel route of the combined traffic system showing an embodiment of the present invention, FIG. 5 is a schematic diagram of a ladder-type assembly that forms the skeleton of the shared travel route, and FIG. FIG. 7 is a schematic view of a vehicle (part 1) of a rubber tire system that travels on the common travel path, FIG. 7 (a) is a front view thereof, and FIG. 7 (b) is a perspective view thereof. FIG. 8 and FIG. 8 are schematic diagrams of a rubber tire system vehicle (No. 2) that travels on the shared travel path.

First, the common travel path 101 is connected by welding so as to span between the large diameter pipes (steel pipes) 102A and 102B arranged in parallel with the travel direction and the large diameter pipes 102A and 102B. , A ladder-type assembly 104 composed of small-diameter pipes (steel pipes) 103 (103A, 103B,...) Having a smaller diameter than the large-diameter pipes 102A and 102B is provided, and the large-diameter pipes 102A and 102B are provided. Concrete foundation portions 105A and 105B and sound insulation side walls 106A and 106B rising from the foundation portions 105A and 105B are constructed at the portions, and tire running road surfaces 107A and 107B of a rubber tire system vehicle are formed on the upper surfaces of the concrete foundation portions 105A and 105B. And step portions 108A and 108B are formed at the ends of the tire running road surfaces 107A and 107B, The step portion 108A, the 108B, rail 109A railway vehicle travels, 109B are laid. Reference numeral 110 denotes a lane marker, which is arranged on small-diameter pipes 103 (103A, 103B,...) Arranged at predetermined intervals. Further, the narrow pipe 102-1 is branched from the large diameter pipes 102A and 102B, the narrow pipe port 102-2 is arranged at the tip, and a water flow device (not shown) capable of running water on the tire running road surfaces 107A and 107B is arranged. Like to do.

  In addition, the common traveling path of the present invention is not limited to the above, and concrete foundation portions 105A and 105B in which large-diameter pipes 102A and 102B are embedded in advance are provided, and the large-diameter pipes 102A and 102B are provided. Without connecting the small diameter pipes 103 (103A, 103B,...) With the small diameter pipes 103 (103A, 103B,...) Between the concrete foundations 105A, 105B. You may make it build.

  Therefore, as shown in FIG. 6, the wheels 112 of the railway vehicle 111 travel on rails 109 </ b> A and 109 </ b> B laid on the common travel path 101. A magnetic sensor 113 is disposed at the bottom of the railway vehicle 111. The magnetic sensor 113 reads information on the lane marker 110, and the control device 114 magnetically controls the traveling direction and detects the distance between the front and rear vehicles. Thus, the interval control is performed. As a result, the guidance control in the traveling direction of the traveling vehicle and the distance control between the vehicle traveling in front of and behind the host vehicle can be automated, and automatic operation and further unmanned operation can be performed.

Further, the running sound of the railway vehicle 111 is effectively blocked by the sound insulating side walls 106A and 106B.
Further, as shown in FIG. 7A, in the case of a vehicle 121 of a rubber tire system, a support portion 123 that can be raised and lowered is provided below the bumper 122 at the head of the vehicle 121, and a bearing 124 is provided on the support portion 123. Have Traveling guide wheels 127 having rotating wheels 126A and 126B rotating on the rails 109A and 109B are arranged at both ends of the rotating shaft 125 supported by the bearing 124.

In this way, the travel of the rubber tire system vehicle 121 is guided by the travel guide wheel 127, but naturally the vehicle 121 of the rubber tire system travels by the rubber tire 128 driven by electricity or an internal combustion engine.
Accordingly, the vehicle 121 of the rubber tire system can safely travel on the tire travel road surfaces 107A and 107B by the tire 128 of the vehicle 121 while being guided by the travel guide wheels 127.

Here, when the traveling guide wheel 127 having the rotating wheels 126A and 126B is lowered by driving the support unit 123 that can be raised and lowered, the rotating wheels 126A and 126B rotate on the rails 109A and 109B, but can be raised and lowered. rotating ring 126A by driving the do support portion 123, when the running guide wheels 127 having 126B is rising, the general road rail is not laid can travel without any trouble.

Further, as shown in FIG. 8, instead of the travel guide wheel 127, travel guide wheels 132A and 132B are provided on both side surfaces of the lower part of the vehicle 131 of the rubber tire system, and the travel guide wheels 132A and 132B are provided on the side surfaces of the sound insulation side walls 106A and 106B. You may make it guide while rotating.
Magnetic sensors 129 and 133 are also arranged at the bottoms of the vehicles 121 and 131 of these rubber tire systems. The magnetic sensors 129 and 133 read the information of the lane marker 110, and the control devices 130 and 134 drive the traveling vehicle. Direction guidance control and travel vehicle distance control are performed. Thereby, automatic driving and further unattended driving are possible.

By configuring in this way, both the railway vehicle 111 and the rubber tire system vehicles 121 and 131 can travel on the shared travel path 101.
In addition, as the concrete that constitutes the common runway 101, SQC (Super Quality Concrete), which has excellent fluidity and strength characteristics, is utilized to improve the workability during construction of the structure and to provide a stable and high-quality structure. In addition, the light weight and excellent structural characteristics are achieved by making full use of the advantages of the SQC structure.

  Further, the shared traveling road 101 has a structure that can appropriately perform the maintenance. That is, in the winter season, when the tire running road surfaces 107A and 107B are frozen, it is possible to prevent the tire running road surfaces 107A and 107B from freezing by flowing warm water through the large diameter pipes 102A and 102B. In this case, the snow can be melted, and the flowing water and snow at that time can flow downward from the adjacent space portion of the ladder type small diameter pipe 103 (103A, 103B,...).

In addition, when a vehicle using a rubber tire system cannot travel on the tire traveling road surfaces 107A and 107B due to excessive snow accumulation, it can be changed to a diamond mainly composed of a railway vehicle with a Russell function. Thus, by having the common travel path 101, it has the advantage that the ratio of the operation of a vehicle by a rail vehicle and a rubber tire system can be changed suitably.
Furthermore, since the lane marker system is provided on the shared traveling road, the vehicle has magnetic sensors 113, 129, and 133 that read information on the lane marker 110, and a control device 114 that controls the vehicle based on the information. By providing 130 and 134, it is possible to automate the guidance control in the traveling direction of the traveling vehicle and the distance control with the vehicle traveling before and after the host vehicle. That is, it is possible to perform automatic driving and further unattended driving while automatically taking intervals between the front and rear vehicles.

As described above, FITS (soft communication bus system), guideway bus, LRT (lightweight track operation system), urban railway, suburban non-electrified railway, etc. are connected (shared driving route) by the combined transportation system of the present invention. This makes it possible to activate the existing transportation system.
FIG. 9 is a schematic plan view of the vicinity of the merging of the composite traffic system having a common travel path where vehicles can enter and exit according to the embodiment of the present invention. In addition, the structure of a common travel path and the structure of various vehicles are the same as that of the above-mentioned Example (refer FIGS. 4-8).

  In FIG. 9, A is a railway exclusive travel path (track) on which only a rail vehicle travels, B is a general road (paved road) on which a rubber tire system vehicle travels, and C is a rail dedicated travel path (track) A and a general road B. , D is a signal device that controls the entry of a railway vehicle, E is a signal device that controls the entry of a vehicle of a rubber tire system, and 101 is a shared travel path (see FIGS. 4 to 6).

In FIG. 9, the vehicle 131 of the rubber tire system shown in FIG. 8 is running on the common running road 101, and running guide wheels 132 </ b> A and 132 </ b> B are disposed on the side surfaces of the vehicle 131.
Similarly, the vehicle 121 of the rubber tire system shown in FIG. 7 and the railway vehicle 111 shown in FIG. 6 can also travel on the common travel path 101.

By configuring in this way, both the railway vehicle 111 and the rubber tire system vehicles 121 and 131 can travel on the shared travel path 101.
FIG. 10 is a schematic plan view of the vicinity of the merging of the composite traffic system having a common travel path where an automated vehicle can enter and exit according to an embodiment of the present invention.
In this figure, a railway-only travel path (track) A is opened and closed at a junction 230 of a railway-only travel path (track) A on which only a rail vehicle travels and a general road (paved road) B on which a rubber tire system vehicle travels. A movable sound insulation side wall 231 and its opening / closing mechanism 232 are provided to control the merging of the railway vehicle 111 (see FIG. 6). That is, as shown in FIG. 10, when the movable sound-insulating side wall 231 is located at the position a, the railway vehicle 111 traveling on the railway-dedicated traveling path (track) A can enter the shared traveling path 101. On the other hand, when the opening / closing mechanism 232 is driven, an entry prohibition signal is transmitted from the monitoring device F to the railcar 111, and the movable sound-insulating side wall 231 moves to the position b to prevent the railcar 111 from entering. become. When the movable sound-insulating side wall 231 is located at the position b, the movable sound-insulating side wall 233 disposed at the junction 230 of the railway exclusive travel path (track) A and the general road (paved road) B is located at the position c, and the rubber tire system The vehicle 131 (see FIG. 8) is in a state where it can pass through the shared travel path 101. However, when the movable sound insulation side wall 231 is at the position a, the opening and closing mechanism 234 is driven to transmit an entry prohibition signal from the monitoring device G to the vehicle 131 of the rubber tire system, and the movable sound insulation side wall 233 is moved to the position d. It will move and block the entry of the vehicle 131 of the rubber tire system.

Thus, in this embodiment, it is possible to perform automatic control in the vicinity of the merge of the railway vehicle 111 and the vehicle 131 of the rubber tire system.
FIG. 11 is a schematic diagram of the vicinity of a shunt of the vehicle showing an embodiment of the present invention, FIG. 12 is a schematic plan view of the vicinity of the shunt of the vehicle, and FIG. 13 is a schematic diagram of the vehicle of the rubber tire system that travels there.
In these drawings, reference numerals 241 and 242 denote movable sound-insulating side walls, which respectively rotate in the opposite directions, so that the railway vehicle is diverted from the common traveling path 101 and branched to the railway dedicated traveling path (track) A. It can be so. In this case, roller guards 243 and 243 ′ for preventing the riding on the rotary tire are arranged so that the vehicle 131 of the rubber tire system can travel straight at a point H where the rails 109A and 109B are bent. .

Therefore, even if the rails 109A and 109B turn to the right and branch to the railway exclusive travel path (track) A, the rubber tire system vehicle 131 goes straight and only the rubber tire system vehicle 131 travels regardless of this rail. Can travel on the general road B.
Reference numeral 245 denotes a movable sound insulation side wall control device, which includes a lever interlocking mechanism 245A and a lock mechanism 245B.

FIG. 14 is a schematic plan view of a composite traffic system configured so that vehicles once split for separation or overtaking can be joined again for separation and overtaking according to an embodiment of the present invention. The vicinity of the merging can be configured as shown in FIGS.
The main line leads from the common traveling path 101 on the right side to the common traveling path 101 on the left side, and the movable sound-insulating side wall 251 is controlled by the control device 252 of the movable sound-insulating side wall and is diverted to the rail-only traveling path (track) A. Can do. When it is desired to join the common traveling path 101 on the left side from the railway exclusive travel path (railway) A, the movable sound insulation side wall 253 is controlled by the control device 254 of the movable sound insulation sidewall, and the left side from the railway exclusive travel path (railway) A To the common travel path 101. Reference numeral 250 denotes a roller guard for preventing the rotating tire from climbing up.

If such a detour route is configured, when a railway vehicle breaks down, it can be evacuated and inspected or repaired. It can also be retracted for diamond adjustment. In addition, the control apparatus arrange | positioned at each place can implement exact control by the comprehensive traffic control center (not shown) of the area.
In this way, the railcar 111 and the rubber tire system vehicle 131 can easily enter the branch road 101 and branch off from the common road 101, and can freely build a road route.

The above-described merge method (see FIGS. 9, 10, and 13) and the diversion method (see FIGS. 11 and 12) can be used for each of the points a to g in FIG. 1.
The greatest feature of the composite traffic system according to the present invention is that a common travel route is constructed in which each traffic system can travel in common. The significance of the combined transportation system having a common transportation route is as follows.

(1) Improvement of convenience of transfer between various transportation systems and diversification of moving directions by mixing various transportation systems (installation of shared home)
(2) Functions as public roads through the introduction of various transportation systems and introduction of public funds into construction and maintenance costs (possibility of injecting road resources)
(3) Improve versatility and increase driving frequency by using multi-modal transport systems (4) Provision of public transport system and facilities for park and ride to prevent urban car traffic entry (5) Simple train control method (collision Unified control of each traffic system by prevention etc. In addition, electrification section (shared electrification section) is provided as an option on the common road, and electric operation of FITS, hybrid guideway bus, and LRT using electric motor is planned . It is also possible to improve the railway environment against noise, air pollution caused by exhaust gas, and the like.

Hereinafter, various traffic systems that can be used in the present invention will be described.
(1) FITS (software communication bus system)
For transport between airports, leisure areas, universities, etc. where transportation fluctuations are large, FITS, which has a variable capacity and can transport relatively large volumes, is introduced. For FITS, intermediate stops are treated as passing (centered for express operation), eliminating acceleration / deceleration loss and eliminating the impact on other transportation systems. In addition, taking advantage of the convenience of the bus structure, it will also respond to the diversification of destinations by manual bus operation. When it is impossible to drive on the common road, the general road can be detoured.

(2) LRT (Light-weight track operation system)
LRT vehicles that can be directly connected to existing streetcar sections in the city and that can run on batteries are used. One end of the shared route is in the urban area, the other end is in a non-electrified local railroad or AC electrified main line, etc. These suburban railway lines will be activated by setting.
(3) Guideway buses Guideway buses can be freely set up and down by ramps provided at various places, and basically the convenience of transfer to other systems at the same stop as each station stop operation. Further, when an accident or trouble occurs on the shared traveling road, it is possible to bypass the general road as in FITS. For this reason, many simple exit routes will be installed.

In addition, the shared travel route of the present invention can carry passengers and other items together with a proper operation schedule for various vehicles.
Furthermore, the convenience of mutual entry between the respective transportation systems can be improved by existing railway facilities such as stations or facilities provided with a shared traveling route.
The shared traveling road of the present invention is constructed based on the following concept.

(1) The elevated structure will be a simple precast structure (application of SQC), which will reduce construction costs, shorten the construction period, and improve the landscape.
(2) Combined with a lower girder structure and a minority main girder structure.
(3) Reduce the environmental burden by installing electrified sections.
(4) Establish snow melting facilities, etc., and ensure stable transportation capacity.

(5) Take measures against wheel rolling noise and environmental noise.
Further, according to the present invention, the movement and distribution of the population of bedroom area, by the combined transport system using mainly automatic control capable shared travel path, the operation schedule of the various vehicles suitable not question day and night As a result, it is possible to efficiently meet demand.
In addition, this invention is not limited to the said Example, Based on the meaning of this invention, a various deformation | transformation is possible and these are not excluded from the scope of the present invention.

  The combined transportation system for preserving the environment of the bed town area of the present invention can be used as a combined transportation system that forms a social foundation.

1 is a basic layout diagram of a combined transportation system for preserving the environment of a bed town area according to an embodiment of the present invention. It is a perspective view which shows a part of semi-elevated type common travel path surrounding the bed town area which shows the Example of this invention. It is a front view which shows a part of semi-elevated type common travel path surrounding the bed town area which shows the Example of this invention. It is a cross-sectional schematic diagram of the common travel path of the compound traffic system which shows the Example of this invention. It is a schematic diagram of the assembly of the ladder type | system | group which makes the frame | skeleton of a shared traveling path which shows the Example of this invention. It is a schematic diagram of the rail vehicle which drive | works the common travel path which shows the Example of this invention. It is a schematic diagram of the vehicle (the 1) of the rubber tire system which drive | works the common travel path which shows the Example of this invention. It is a schematic diagram of the vehicle (the 2) of the rubber tire system which drive | works the common travel path which shows the Example of this invention. It is a plane schematic diagram of the vicinity of the merging of the combined traffic system having a common travel path where vehicles can enter and exit according to an embodiment of the present invention. It is a plane schematic diagram of the vicinity of the merging of a composite traffic system having a shared traveling path where an automated vehicle can enter and exit according to an embodiment of the present invention. It is a schematic diagram of the vicinity of the shunt of the vehicle showing an embodiment of the present invention. FIG. 3 is a schematic plan view in the vicinity of a shunt of a vehicle showing an embodiment of the present invention. It is a schematic diagram of the vehicle of the rubber tire system which drive | works near the shunt of the vehicle which shows the Example of this invention. Is a schematic plan view of a composite transport system the vehicle is configured to be recombined were once diverted for disengaging and overtaking illustrating an embodiment of the present invention.

1 to 3 main shared roads to the bed town area 10 bed town areas 11 toroidal shared roads around the bed town area 12 to 25 mesh-like shared roads in the bed town area 101 semi-elevated shared Traveling path 102A, 102B Large diameter pipe (steel pipe)
103 (103A, 103B, ...) Small diameter pipe (steel pipe)
104 Ladder type assembly 105A, 105B Concrete foundation portion 106A, 106B Sound insulation side wall 107A, 107B Tire running road surface 108A, 108B Step portion 109A, 109B Rail 110 Lane marker 102-1 Narrow tube 102-2 Narrow tube port 111 Railroad vehicle 112 Wheel 113 , 129, 133 Magnetic sensor 114, 130, 134 Controller 121, 131 Rubber tire system vehicle 122 Bumper 123 Liftable support part 124 Bearing 125 Rotating shaft 126A, 126B Rotating wheel 127, 132A, 132B Traveling guide wheel 128 Rubber tire 141 Semi Elevated (about 2m height)
142 and 145 space 151 protective plate A railway dedicated traveling path between the space 144 blocks and blocks of the block 143 rectangular Presto cast structures (lines)
B General roads (paved roads) on which rubber tire system vehicles run
C Station D Signaling device that controls entry of railroad vehicle E Signaling device that controls entry of vehicle in rubber tire system F, G Monitoring device 230 Junction point 231,233,241,242,251,253 Movable sound insulation side wall 232,234 Open / close Mechanisms 243 , 243 ′ , 250 Roller guards for preventing rolling-up of tires 245, 252, 254 Control device for movable sound insulation side wall 245 A Lever interlock mechanism 245 B Lock mechanism

Claims (8)

A composite transportation system vehicle and rail vehicle rubber tire scheme to conserve laid to behenate Ddotaun local environment so as to surround the bedroom area shared roadway semi elevated runnable in common, the common travel The road comprises a ladder-type assembly comprising a large-diameter pipe arranged in parallel with the traveling direction and a small-diameter pipe connected so as to be spanned between the large-diameter pipes. A concrete foundation portion in which a pipe is embedded and a tire running road surface is formed, a sound insulation side wall raised from a side portion of the concrete foundation portion, and a step formed at an end portion of the tire running road surface A complex that preserves the environment in a bed town area, comprising a rail and a water flow device that is branched from the large-diameter pipe, has a narrow pipe opening at the tip, and can flow on the tire running road surface. Through the system.   The combined transportation system for preserving the environment of a bed town area according to claim 1, wherein the bed town area includes an annular shared traveling road that circulates around an outer periphery, and a mesh-like road connected to the annular shared traveling path or A complex transportation system that preserves the environment in the Bedtown area, which is built from railways. The combined transportation system for preserving the environment of the bed town area according to claim 1, wherein a precast structure block having a rectangular cylindrical space is laid at equal intervals in the lower part of the semi-elevated shared traveling path. A complex transportation system that preserves the environment of the characteristic Bedtown area. The combined transportation system for preserving the environment of the bed town area according to claim 3, wherein the rectangular cylindrical space of the block of the precast structure is used as a place for a bicycle, a two-wheeled vehicle, and a light vehicle that are low-load vehicles. A combined transportation system that preserves the environment in the Bedtown area.   4. The combined transportation system for preserving the environment of the bed town area according to claim 3, wherein the space between the blocks of the precast structure is used as a passage for a pedestrian or a low-load vehicle. Combined transportation system.   2. The combined traffic system for preserving the environment of a bed town area according to claim 1, wherein a traveling guide wheel guided by the rail is provided in a vehicle of a rubber tire system. system. 7. The combined transportation system for preserving the environment of a bed town area according to claim 6 , further comprising traveling guide wheels that contact the lower part of the sound insulation side wall on both sides of the lower part of the vehicle of the rubber tire system. A complex transportation system that preserves the environment. In the composite transport system to preserve the claim 1, wherein the bedroom local environment, the lane markers placed on the small diameter of the tube path, equipped with a magnetic sensor and a control unit in a running vehicle, the traveling direction of the traveling vehicle complex transportation system to preserve the bedroom area of the environment which is characterized in that the control and interval control.

Images