WO2020148408A1 - Automated system for transporting goods - Google Patents
Automated system for transporting goods Download PDFInfo
- Publication number
- WO2020148408A1 WO2020148408A1 PCT/EP2020/051065 EP2020051065W WO2020148408A1 WO 2020148408 A1 WO2020148408 A1 WO 2020148408A1 EP 2020051065 W EP2020051065 W EP 2020051065W WO 2020148408 A1 WO2020148408 A1 WO 2020148408A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- shuttle
- shuttles
- goods
- infrastructure
- loading
- Prior art date
Links
- 238000004891 communication Methods 0.000 claims abstract description 48
- 230000032258 transport Effects 0.000 claims description 55
- 230000033001 locomotion Effects 0.000 claims description 15
- 230000001133 acceleration Effects 0.000 claims description 13
- 230000000149 penetrating effect Effects 0.000 claims description 7
- 230000008878 coupling Effects 0.000 claims description 6
- 238000010168 coupling process Methods 0.000 claims description 6
- 238000005859 coupling reaction Methods 0.000 claims description 6
- 238000012545 processing Methods 0.000 description 22
- 230000009471 action Effects 0.000 description 16
- 238000003860 storage Methods 0.000 description 16
- 230000006870 function Effects 0.000 description 13
- 238000012423 maintenance Methods 0.000 description 13
- 238000001514 detection method Methods 0.000 description 12
- 230000005540 biological transmission Effects 0.000 description 11
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 10
- 238000013500 data storage Methods 0.000 description 10
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 9
- 239000001301 oxygen Substances 0.000 description 9
- 229910052760 oxygen Inorganic materials 0.000 description 9
- 230000015556 catabolic process Effects 0.000 description 8
- 238000004146 energy storage Methods 0.000 description 8
- 238000007726 management method Methods 0.000 description 8
- 238000012384 transportation and delivery Methods 0.000 description 8
- 239000000779 smoke Substances 0.000 description 7
- UGFAIRIUMAVXCW-UHFFFAOYSA-N Carbon monoxide Chemical compound [O+]#[C-] UGFAIRIUMAVXCW-UHFFFAOYSA-N 0.000 description 6
- 229910002091 carbon monoxide Inorganic materials 0.000 description 6
- 238000005259 measurement Methods 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 230000002829 reductive effect Effects 0.000 description 6
- 230000008439 repair process Effects 0.000 description 6
- 229910002092 carbon dioxide Inorganic materials 0.000 description 5
- 239000001569 carbon dioxide Substances 0.000 description 5
- 230000000875 corresponding effect Effects 0.000 description 5
- 230000008569 process Effects 0.000 description 5
- 239000000126 substance Substances 0.000 description 5
- 238000011144 upstream manufacturing Methods 0.000 description 5
- MWUXSHHQAYIFBG-UHFFFAOYSA-N Nitric oxide Chemical compound O=[N] MWUXSHHQAYIFBG-UHFFFAOYSA-N 0.000 description 4
- 238000013473 artificial intelligence Methods 0.000 description 4
- 230000008859 change Effects 0.000 description 4
- 238000009826 distribution Methods 0.000 description 4
- 238000010801 machine learning Methods 0.000 description 4
- 239000000203 mixture Substances 0.000 description 4
- 230000003287 optical effect Effects 0.000 description 4
- 238000005457 optimization Methods 0.000 description 4
- 238000012546 transfer Methods 0.000 description 4
- 230000002457 bidirectional effect Effects 0.000 description 3
- 238000010276 construction Methods 0.000 description 3
- 230000004048 modification Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 3
- 239000002245 particle Substances 0.000 description 3
- 230000035939 shock Effects 0.000 description 3
- 238000013528 artificial neural network Methods 0.000 description 2
- 230000033228 biological regulation Effects 0.000 description 2
- 238000002485 combustion reaction Methods 0.000 description 2
- 238000007689 inspection Methods 0.000 description 2
- 238000012067 mathematical method Methods 0.000 description 2
- 230000002093 peripheral effect Effects 0.000 description 2
- 230000009467 reduction Effects 0.000 description 2
- 230000004044 response Effects 0.000 description 2
- 231100000331 toxic Toxicity 0.000 description 2
- 230000002588 toxic effect Effects 0.000 description 2
- 238000012549 training Methods 0.000 description 2
- 238000013024 troubleshooting Methods 0.000 description 2
- 238000010200 validation analysis Methods 0.000 description 2
- MGWGWNFMUOTEHG-UHFFFAOYSA-N 4-(3,5-dimethylphenyl)-1,3-thiazol-2-amine Chemical compound CC1=CC(C)=CC(C=2N=C(N)SC=2)=C1 MGWGWNFMUOTEHG-UHFFFAOYSA-N 0.000 description 1
- 230000002159 abnormal effect Effects 0.000 description 1
- 238000009825 accumulation Methods 0.000 description 1
- 230000006399 behavior Effects 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- OIPMQULDKWSNGX-UHFFFAOYSA-N bis[[ethoxy(oxo)phosphaniumyl]oxy]alumanyloxy-ethoxy-oxophosphanium Chemical compound [Al+3].CCO[P+]([O-])=O.CCO[P+]([O-])=O.CCO[P+]([O-])=O OIPMQULDKWSNGX-UHFFFAOYSA-N 0.000 description 1
- 230000036772 blood pressure Effects 0.000 description 1
- 238000009933 burial Methods 0.000 description 1
- 239000003990 capacitor Substances 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- 239000000567 combustion gas Substances 0.000 description 1
- 150000001875 compounds Chemical class 0.000 description 1
- 239000004567 concrete Substances 0.000 description 1
- 230000001143 conditioned effect Effects 0.000 description 1
- 239000013256 coordination polymer Substances 0.000 description 1
- 230000002596 correlated effect Effects 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 230000001934 delay Effects 0.000 description 1
- 238000003745 diagnosis Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 230000001747 exhibiting effect Effects 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 230000003100 immobilizing effect Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000006698 induction Effects 0.000 description 1
- 230000000670 limiting effect Effects 0.000 description 1
- 230000004807 localization Effects 0.000 description 1
- 239000011159 matrix material Substances 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000003032 molecular docking Methods 0.000 description 1
- JCXJVPUVTGWSNB-UHFFFAOYSA-N nitrogen dioxide Inorganic materials O=[N]=O JCXJVPUVTGWSNB-UHFFFAOYSA-N 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 230000036961 partial effect Effects 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 239000000825 pharmaceutical preparation Substances 0.000 description 1
- 229940127557 pharmaceutical product Drugs 0.000 description 1
- 238000011176 pooling Methods 0.000 description 1
- 238000007781 pre-processing Methods 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 239000011150 reinforced concrete Substances 0.000 description 1
- 230000002787 reinforcement Effects 0.000 description 1
- 230000000284 resting effect Effects 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
- 238000002604 ultrasonography Methods 0.000 description 1
- 238000005303 weighing Methods 0.000 description 1
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/04—Forecasting or optimisation specially adapted for administrative or management purposes, e.g. linear programming or "cutting stock problem"
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61B—RAILWAY SYSTEMS; EQUIPMENT THEREFOR NOT OTHERWISE PROVIDED FOR
- B61B13/00—Other railway systems
- B61B13/10—Tunnel systems
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
Definitions
- the present invention relates to systems for transporting goods, in particular in an urban environment.
- a transport system comprising a micro-tunnel buried at a relatively great depth has been proposed.
- Such a system is intended to ensure the transport of a high daily tonnage of goods and must be perfectly reliable, because any stoppage of it would pose the problem of the accumulation of undistributed goods.
- the reliability of the system is all the more critical as the depth of the tunnel is likely to make any repair or emergency response more difficult, compared to a transport system located on the surface.
- the invention aims to further improve freight transport systems, in order to address the issue of the distribution of goods in the heart of cities, and in particular to ensure the proper management of the flow of goods.
- an automated system for transporting goods comprising:
- the shuttles can each be loaded with at least one merchandise and / or at least one merchandise transport container, at least one degree of priority being assigned to at least one merchandise and / or at least one container,
- this infrastructure comprising stations for loading and / or unloading the shuttles, making it possible to load and / or unload the goods and / or the containers and to take charge of these goods and / or containers with surface vehicles,
- the shuttles to receive information relating to the remaining reception capacity of each loading and / or unloading station to receive goods and / or containers, the selection of loading stations and / or unloading where the shuttles are loaded and / or unloaded taking place automatically according to the remaining capacity of the stations, the final destination and the degree of priority of the goods (s) and / or containers transported by the shuttles.
- the invention makes it possible in particular to guarantee a good circulation of goods respecting the priorities imposed in their distribution.
- the automated goods transport system also has at least one of the following characteristics, and more preferably all of the following characteristics:
- each shuttle being arranged for:
- Each shuttle may have wheels, which may or may not be steered and equipped or not with tires. These wheels can be configured to allow the shuttles to move on rail tracks or not. These wheels can turn if necessary around non-parallel axes of rotation, for example to rest directly on a non-planar wall of a tunnel.
- Each shuttle can include at least one braking member.
- the motor means of each shuttle is configured to set the shuttle in motion, at least during one phase of its operation.
- the shuttle can be driven during another phase by a drive cable or another vehicle, for example.
- the motor means can be inactive or operate as an electric generator, for example to recharge a battery.
- This motor means may include at least one electric motor, which may be unique.
- the driving means comprises at least two driving wheels each provided with a motor. This can reduce the risk of the shuttle immobilizing in the event of a breakdown, reduce the size of the motors and simplify the transmission.
- each shuttle may include at least one energy storage means configured to supply energy to the shuttle, and in particular to its medium motor. This ensures at least partially, or even entirely, the energy autonomy of the shuttle.
- the storage means can include one or more accumulators.
- This storage means can be rechargeable. It may for example be a fast recharging storage means of the super-capacitor type.
- each shuttle When powered by at least one electric motor autonomously, each shuttle can be electrically recharged in various ways.
- the shuttles are recharged during their journey within G infrastructure, in particular by one-off or linear recharging terminals, for example by induction or by contact with electrically supplied connectors.
- each shuttle has at least one generating means for supplying energy to the storage means.
- the shuttle may include at least one wheel driven by the speed differential between the shuttle and the infrastructure and configured to drive an alternator in order to recharge the storage means.
- the shuttle can be coupled during at least one phase of operation to a mobile drive cable within the infrastructure so as to be driven over at least part of the infrastructure by the drive cable, and the wheel abovementioned is driven in rotation in order to reload the storage means of the shuttle.
- the shuttle can disconnect from the drive cable and move by using its motor means powered by the storage means.
- the work provided by the drive cable is used to store energy within the storage means with a view to returning it to the motor means of the shuttle at times when the shuttle needs to move autonomously.
- the autonomy conferred on the shuttle outside the sections equipped with drive cables allows the shuttle in particular to easily manage the bends in the journey, without having to have complex mechanical systems to ensure angular deflection of the drive cable. in the bends. This can simplify and reduce the cost of the shuttle traffic infrastructure.
- the traffic infrastructure can include at least one electrified track, arranged for example along at least a portion of a section of a traffic lane, to supply energy to the shuttle, in particular to supply its means. motor and / or recharge its energy storage means.
- the infrastructure can also be devoid of such a track, which simplifies its construction and increases its reliability.
- the shuttles can have a space for receiving one or more loading units such as containers or palletized goods, and preferably two, four, six or eight loading units arranged side by side.
- This reception space can be sized to receive four, six or eight containers arranged in two rows of two, three or four containers, each container being adapted to receive a standard pallet, in particular a pallet, a half-pallet or a quarter-pallet.
- ISO type also called American or universal
- EPAL / EUR also called European
- CP or VMF As a variant, the reception space can be adapted to receive two, three or four double containers, each double container being adapted to receive two standard pallets arranged side by side within the double container.
- the containers can be detachably attached to the reception area.
- the containers can have a cross section of any general shape, circular or not, with a flat, polygonal, in particular square.
- Each shuttle may have a roof that extends above the loading unit (s), and front and rear bulkheads on which the roof rests and between which the loading unit (s) are disposed.
- the shuttles are without front and rear partitions.
- Each shuttle can be opened on the sides.
- the automated transport system may include at least one shuttle equipped to fight the fire, preferably entirely dedicated to this function.
- This shuttle may include at least one fire detector that is more sensitive than those possibly present on the other shuttles not dedicated to this function.
- This shuttle can also include a reservoir containing a product for extinguishing the fire, such as for example carbon dioxide, and a system for projecting this product, for example a robotic lance.
- This shuttle may include an infrared reflecting coating and one or more cameras or radar allowing vision in the presence of smoke.
- the dedicated fire-fighting shuttle (s) can run permanently on the infrastructure, at predefined intervals, or be parked in predefined locations along the infrastructure, and only be put into service in the event of of problem.
- each shuttle is preferably sufficiently powerful to allow it to push and / or tow at least one preceding or following shuttle, the motor means of which would be faulty, this troubleshooting being able to be carried out at a reduced speed.
- the automated transport system may include at least one shuttle equipped for the maintenance and / or troubleshooting of at least one other shuttle.
- This shuttle may have a more powerful motor means, making it possible to tow or push one or more shuttles at a relatively high speed.
- This shuttle can also be equipped with a system for diagnosing the failure and / or making up for it.
- each shuttle has at least one connector which can be coupled automatically to a corresponding connector of another shuttle or of the shuttle dedicated to the breakdown function, in order to facilitate the exchange of information, in particular by case of failure of the wireless connection, and / or to allow energy transfer between the shuttles, for example to supply electrically the motor means of the faulty shuttle.
- At least one unloaded shuttle can circulate within the infrastructure.
- This shuttle can be inserted between shuttles traveling with a load.
- a shuttle without loading can be inserted in a regular manner all the n loaded shuttles which follow one another, with n integer greater than or equal to 2.
- This shuttle without loading can play the role of communication relay as explained below, or can be used to come to the aid of a faulty loaded shuttle.
- Each shuttle preferably has an identifier, which can be read by the other shuttles and by the infrastructure.
- Each shuttle can include at least one optical identifier, for example in the form of a bar code or matrix, and / or at least one identifier detectable by radio frequency, for example in the form of an RFID chip.
- the shuttle traffic infrastructure may include at least one shuttle traffic lane along which the shuttles run, this lane including in particular several sections, some of which may be completely straight for example. All or part of the shuttle traffic infrastructure can be underground.
- the shuttles can run on at least part of the infrastructure within a tunnel extending in particular under the foundations of surface buildings and / or underground or not, pre-existing infrastructure.
- the tunnel is advantageously buried at a depth greater than or equal to 5 m.
- the use of a tunnel in the invention makes it possible to provide a greater burial depth, for example greater than 20 m or 30 m, or even greater than or equal to 35 m, 40 m or 50 m or more, so as to pass widely under existing foundations and infrastructure and not interfere with them.
- the tunnel has a cross section of generally circular shape.
- the tunnel can be produced in various ways and for example comprise sections assembled one after the other, in particular with a length of between 2.5 and 3.5 m, and a wall thickness of between 150 and 500 mm, these sections preferably being designed to withstand a sinking thrust of at least 500 tonnes.
- the tunnel has assembled segments.
- the sections or segments are at least partially made of reinforced concrete, in particular with a double layer of reinforcement.
- the tunnel may include a liner, in particular made of metal.
- a larger internal dimension of the tunnel, in cross section, in particular its internal diameter is between 1.5 m and 4 m, in particular between 1.5 and 2.5 m or between 2.5 m and 4 m, for example between 1.5 and 2.2 m or between 3 and 4 m.
- the shuttles may have in cross section a general shape at least partially matching that of the tunnel, and in particular may include a cradle for receiving at least one container or other loading unit, of arcuate shape concentric with the tunnel wall. This can allow the best use of the system by reducing the section of the tunnel not used for the transport of goods.
- the shuttle traffic infrastructure may include, as mentioned above, at least one drive cable to drive the shuttles over at least part of the infrastructure.
- the use of a drive cable reduces the cost of shuttles while providing a fast and reliable automated transportation system.
- the cable can run between two ends of a section of a traffic lane.
- the drive cable can be set in motion by one or more electric motors.
- the cable arranged in a section can be more than 1 km long, for example at least 4 km, better 6 km, for example 8 km or more, which then allows the realization of a section of 4 km or more since the cable runs in one direction pulling the shuttles and in the other when empty.
- the cable can be mounted on pulleys and tension rollers, similar to the systems used in ski lifts or chair lifts.
- the drive cable can be a rope, chain, belt or any other traction device.
- the drive cable can be located on the ground. It can also be located high up, above or next to the shuttles.
- the cable can run at a speed greater than or equal to 5 m / s, better still greater than or equal to 7 m / s, for example of the order of 8 m / s or more.
- the shuttles can include means for coupling and uncoupling independently or not from the drive cable, in particular as a function of an energy reserve.
- the motor means of the shuttles can be used for this function, as mentioned above.
- each shuttle has a disengageable mechanical clamp which closes or opens to attach the shuttle to or release the cable.
- Each shuttle can thus be accelerated, in particular when it leaves a loading and / or unloading station, to reach the speed of the cable and gradually reduce its speed or even stop, in particular when it arrives at the loading station. and / or next unloading.
- At least part of the shuttle traffic infrastructure can be railroaded. The infrastructure can then be equipped with rails on which the shuttles move. The use of rails is preferable when the shuttles are towed by a drive cable. In this case, the cable can run between the rails, parallel to them, which makes it possible to gain in compactness, and if necessary to mount the cable guide structure on a common support with the rails.
- At least part of the shuttle traffic infrastructure may have a track on which the shuttles travel, the latter being fitted with tires, for example.
- the shuttle traffic infrastructure may include at least one traffic lane, in particular at least partially buried, on which the shuttles preferably run unidirectionally.
- the traffic lane may be in a closed loop, in particular in the shape of a figure eight, with one or more penetrating, if necessary.
- the loop formed may include a succession of sections the length of which is for example greater than 1 km.
- the loop can include straight sections if desired, connected by bends which provide a link between straight sections of different orientations.
- the loop is at least partially buried, this may facilitate the digging and construction of the tunnel as well as the driving of shuttles along the loop.
- the straight sections are compatible with the use of a cable system to tow the shuttles.
- the bends in the loop can be located at the shuttle loading and / or unloading stations.
- Shuttle traffic infrastructure may have a "figure eight" loop traffic lane.
- This “eight” shaped loop may include two secondary loops, preferably interconnected.
- the interconnection is such that a shuttle can selectively control the corresponding routing element (s) to remain on the same secondary loop or switch to the other secondary loop.
- Each secondary loop can be connected to a penetrating line.
- each penetrating line comprises two traffic lanes (outward and return) within a tunnel or in two respective parallel tunnels.
- the shuttles circulate unidirectionally within the loop and bidirectionally within the penetrating lines.
- the shuttles advantageously circulate unidirectionally over at least part of the infrastructure. Each section is thus traveled by shuttles which circulate in the same direction within this section.
- the traffic infrastructure includes at least one tunnel
- the shuttles do not cross each other within the tunnel, which makes it possible to closely adapt the section of the tunnel to the section of a loaded shuttle and reduce the section of the tunnel not useful for the transport of goods.
- the invention does not exclude that the goods are transported in the infrastructure using at least one line where the goods on board shuttles circulate in a bidirectional way. This line can be two-track within a tunnel or two parallel tunnels.
- the infrastructure may include at the bend a routing system such as a rotating platform comprising a movable track portion on which a shuttle can position itself. This turntable can assume a position where the moving track comes into alignment with a shuttle infeed track, and a position where said moving track aligns with the track of the next section to be traveled.
- a routing system such as a rotating platform comprising a movable track portion on which a shuttle can position itself. This turntable can assume a position where the moving track comes into alignment with a shuttle infeed track, and a position where said moving track aligns with the track of the next section to be traveled.
- the infrastructure may include an auxiliary drive system to make the desired turn.
- the shuttles can be carried by casters or by a roller conveyor or conveyed by any other conveying system making it possible to make the shuttles take tight turns.
- the traffic infrastructure may include at least one parking area, in particular underground.
- This parking zone can be located inside or outside, for example at the edge of the traffic lane.
- the parking area is preferably large enough to accommodate several shuttles.
- a faulty shuttle can for example steer independently or be brought by at least one other shuttle into the parking area so as to extract itself or to be extracted from the traffic lane. This can make it possible to reduce the risk of a slowing down or even of stopping the circulation of the other shuttles within the infrastructure caused by the faulty shuttle.
- the parking area can be configured to repair a failed shuttle and be equipped with a maintenance station.
- the parking area can be configured to fight against a fire occurring on a shuttle and be equipped with extinguishing means and / or suction means allowing the evacuation of combustion gases.
- the parking area can be equipped with a motorized door controlled from the supervision system.
- the shuttle traffic infrastructure may include at least one shuttle pre-parked in the parking area, in particular a shuttle without loading or a shuttle equipped to fight against fire and / or for maintenance and / or repair of vehicles. 'at least one other shuttle, as discussed above.
- the pre-parked shuttle can reach a site within the infrastructure to intervene if necessary, in particular to fight against a fire occurring on a shuttle or on the infrastructure and / or to push or tow a faulty shuttle.
- the pre-parked shuttle can intervene to push or tow a shuttle with a faulty engine means to a parking zone or to a parking zone configured to fight against the fire a shuttle on which a fire occurs .
- the parking area can be equipped with a trans-bordage system to transfer goods from one shuttle to another. This allows, for example, at the level of the parking area, the transfer of goods transported by a shuttle whose motor means are faulty to a shuttle without loading and whose motor means are functional. Thus, the continuity of the transport of goods can be ensured.
- the parking area can be equipped with means making it possible to recharge the energy storage means of each shuttle.
- the parking zone can be configured to allow overtaking between shuttles.
- This can allow, for example, a shuttle equipped to fight fire and / or for maintenance and / or repair to be able to double one or more shuttles that precede so as to access its intervention site more quickly within the infrastructure.
- This can also allow, for example, a shuttle to which a certain degree of priority has been assigned to be able to double the shuttle or shuttles whose degree of priority is lower so that this shuttle can reach its destination more quickly.
- the shuttle traffic infrastructure is preferably placed under an inert atmosphere or under a reduced oxygen atmosphere.
- the oxygen level can be 15% lower, better 20% or 50%, or even more, than the nominal level in the open air. This limits the risk of fire and lowers the cost of infrastructure by not requiring certain safety features that would otherwise be required by standards.
- the shuttle traffic infrastructure may include means of communication, as explained below.
- the infrastructure may include at least one sensor allowing the identification of the shuttles passing nearby.
- the infrastructure can also include identifiers that are readable, for example optically, for example bar codes, in particular 1D or 2D, or by radio frequency, RFID chips, distributed along at least part of the path followed by the shuttles.
- the shuttles can be configured to read these identifiers, which allows them, by referring to a table giving the position of each identifier within the infrastructure, to be precisely located within it.
- Each shuttle can include an optical or radiofrequency reader allowing optical reading of these identifiers. These can also make it possible to reset a localization system integrated into the shuttle, so as to allow the latter to know its position more precisely.
- the infrastructure may include one or more anemometers, in particular distributed along at least part of the path followed by the shuttles. This can help determine the movement of air masses within the infrastructure.
- the infrastructure may include routing elements, such as a switch or a rotating platform, in particular between two straight sections, configured to allow the shuttles to change lanes or to move towards a parking area.
- the routing elements may include means of communication, in particular radio, allowing their remote control by the centralized supervision system or at least one shuttle.
- the shuttle traffic infrastructure can include shuttle loading and / or unloading stations communicating with the surface and each comprising a shaft allowing the descent of goods and / or shuttles to the tunnel and their ascent after transport within the tunnel.
- the shuttle and its loading can be extracted from the loop and then brought together to the surface.
- the shuttle can then be unloaded from its load or transported with its load on a surface vehicle.
- the loading and / or unloading station can be arranged to make a turn for the shuttles which circulate within the traffic infrastructure.
- the supervision system can manage the loading and / or unloading of the shuttles.
- Each transport shuttle of the system according to the invention has on-board intelligence.
- each shuttle has computer means, such as a microcomputer, which allow it to perform a number of functions independently.
- Each shuttle can include an electronic device that can include at least one on-board sensor, one on-board processing module and one on-board communication module.
- the on-board sensor can be configured to perform at least one measurement relating to at least one parameter linked to the state of the shuttle, such as its speed, its location, the level of wear of a component thereof, the '' remaining autonomy of its storage medium of energy, the detection of a failure of a given component, and / or its environment, for example the speed of a shuttle which precedes or follows, the qualitative and / or quantitative composition of the surrounding air, the rate of humidity, pressure, temperature, rate of oxygen, carbon monoxide or carbon dioxide in the air, etc., and to generate a corresponding digital data.
- at least one measurement relating to at least one parameter linked to the state of the shuttle such as its speed, its location, the level of wear of a component thereof, the '' remaining autonomy of its storage medium of energy, the detection of a failure of a given component, and / or its environment, for example the speed of a shuttle which precedes or follows, the qualitative and / or quantitative composition of the surrounding air, the rate of humidity, pressure, temperature, rate of oxygen, carbon
- the onboard processing module can be configured to process, in particular in real time, the data generated by the onboard sensor (s) of the shuttle or at least one other shuttle and / or information transmitted to the shuttle by the supervision system. centralized and to trigger an action on the shuttle if necessary, for example an action on its speed to regulate it.
- the on-board processing module can include at least one processor, one microprocessor or one microcontroller. It may also include a computer device comprising in particular an operating system and software codes.
- the processing carried out by the on-board processing module can allow the generation in real time of an alert signal when the data generated by the on-board sensor (s) exceeds a predefined threshold.
- the on-board communication module can be configured to exchange data, on the one hand between the shuttle and at least one other shuttle, and on the other hand, between the shuttle and the centralized supervision system.
- the communication module is arranged to transmit, to at least one other shuttle and / or to the centralized supervision system, raw data generated by the onboard sensor (s) and / or the data generated by the onboard sensor (s) afterwards. preprocessing by the processing module.
- the communication module can also be arranged to receive this data from at least one other shuttle and / or information from the centralized supervision system.
- the on-board communication module may include at least one radio transceiver configured to communicate with at least one other shuttle and / or with the centralized supervision system.
- the electronic device may further include an on-board data storage module which can be configured to store the data generated by the on-board sensor (s) and / or the data generated by the on-board sensor (s) and processed by the processing module.
- This on-board data storage module can also make it possible to store the operating system and the software codes of the on-board processing module.
- This data storage module may include electronic storage means, in particular removable, such as a ROM or flash memory.
- the electronic device may also include an interface capable of parameterizing or configuring the device. For example, settings can be made by a computer terminal connected to the device locally via a physical connection or by a remote computer terminal communicating with the device using radio waves, in particular a terminal of the centralized supervision system. Examples of remote actions include updating the operating system and processing module software codes, etc.
- the on-board sensor (s) can be configured to perform continuous measurements. This makes it possible to have a complete reading at all times of information concerning the conditions related to the state of the shuttle and / or its environment. It is thus possible to continuously monitor, for example, the quality of the air within the traffic infrastructure.
- the onboard sensor (s) are configured to carry out measurements periodically over a determined period.
- each shuttle can be arranged to react to information transmitted by the centralized supervision system and / or by at least one other shuttle.
- each shuttle can be arranged to react in the event of a threshold being exceeded detected by the onboard sensor (s) of the shuttle and / or at least one other shuttle.
- the centralized supervision system can be configured to allow control of the routing elements.
- each shuttle can be configured to allow the control of at least part of the routing elements by the shuttle itself, in particular to allow it to modify its route independently.
- the shuttle can be configured to itself control the rotation of the turntable at a bend or switches in the event that the shuttle is moving on a railway track.
- the shuttle can send a control signal to a routing element, in particular when approaching said routing element. routing. This allows the shuttle to change lanes or move to a parking area if necessary, independently.
- the shuttle can be arranged to check, before ordering a routing element, that no shuttle is traveling in front of it upstream of the routing element.
- each shuttle can for example send to the shuttles which follow and precede a signal comprising its identifier and its position, as well as its destination, if applicable.
- each shuttle can be configured to allow it to be located within the infrastructure and in relation to the other shuttles circulating within the infrastructure, in particular in relation to the shuttle preceding it and the shuttle. the next one.
- Each shuttle can be arranged to maintain a predefined safety distance with the preceding shuttle.
- each shuttle can be arranged to autonomously manage the acceleration, deceleration and stopping phases required in the vicinity of loading and / or unloading stations.
- Each shuttle can transmit to the shuttles preceding or following a signal that indicates whether the shuttle is accelerating or decelerating. This can allow other shuttles to anticipate more quickly the variation in the distance between them and thus to adjust their speed faster, for example in order to maintain a predefined safety distance.
- each shuttle can be arranged to automatically transmit information relating to the proper functioning of the shuttle to the centralized supervision system and / or to at least one other shuttle.
- Each shuttle can include at least one on-board sensor which can be of any type.
- Signals generated by some on-board sensors can be used for different functions.
- a camera can be used to locate the shuttle by reading identifiers distributed within the infrastructure along at least part of the path followed by the shuttles, to detect the start of combustion by the presence of smoke, in detecting the presence of a preceding or following shuttle, in determining the distance separating the shuttle from this preceding or following shuttle, etc.
- Each shuttle can include at least one on-board sensor for measuring the quality of the gaseous environment around the shuttle.
- This on-board sensor can be a sensor of qualitative and / or quantitative composition of G gaseous environment. It is thus possible to control the quality of the gaseous environment within the infrastructure, and in particular to detect the presence or even quantify corrosive, toxic or flammable compounds. This is particularly important when the shuttles circulate in a confined environment in which the renewal of the air is limited, which is for example the case when the shuttle traffic infrastructure is underground and / or when it comprises a tunnel. It is thus possible to detect a potential chemical, toxic, fire or explosion risk within the shuttle traffic infrastructure.
- This on-board sensor can still be an oxygen sensor. This makes it possible to obtain information relating to the level of oxygen in the gaseous environment, in particular around the shuttle circulating within the infrastructure.
- This on-board sensor can also be a carbon monoxide (CO), carbon dioxide (CO 2 ), nitrogen monoxide (NO) and / or nitrogen dioxide (NO 2 ) sensor.
- This sensor can be electrochemical or spectroscopic.
- This on-board sensor can also be a sensor of particles in suspension, in particular resulting from combustions, smoke and / or flame. This can allow early and rapid detection of a fire, as well as its precise location.
- Each shuttle can be arranged to emit an alert signal in the event of detection of particles, smoke or flame, to the other shuttles and to the centralized supervision system. This allows other shuttles to slow down or stop, so as to maintain a sufficient safety distance.
- the alert signal can be relayed by at least one shuttle to reach the centralized supervision system.
- the latter can cross-check the information transmitted by shuttles present at different positions within the infrastructure and possibly cross-check them with other information coming from the infrastructure, such as for example air movements observed in the tunnels, so as to identify the source of the release of particles, smoke and / or flame, which can allow a quicker and more efficient response.
- Each shuttle can include at least one on-board sensor for locating the shuttle.
- This on-board sensor can be an encoder wheel, which rotates in proportion to the distance traveled by the shuttle within G infrastructure. This can make it possible to determine the location of the shuttle within G infrastructure, from the knowledge of a starting position and the distance traveled since the latter.
- This on-board sensor can also be a tachometer, in particular coupled to a clock. This can make it possible to obtain information relating to the speed of movement of the shuttle circulating within the infrastructure.
- This on-board sensor can also be an accelerometer. This can help to determine the position of the shuttle, to detect possible shocks to the shuttle and therefore possible damage to the shuttle and / or its load, and to detect when the shuttle is moving or stopped.
- This on-board sensor can still be a camera. This can allow the location of the shuttle by reading identifiers distributed within the infrastructure along at least part of the path followed by the shuttles.
- This on-board sensor can still be an identifier, which can be read by other shuttles and by the infrastructure.
- the shuttle comprises an element for coupling to a drive cable, such as a disengageable mechanical clamp which closes or opens to hook the shuttle to the cable or to release it
- the latter may include a tensiometer on board configured to measure the tension on the coupling element of the shuttle to the drive cable.
- the intelligence on board the shuttle can be arranged to automatically generate, in particular in real time, an alert signal when the voltage measured by the onboard blood pressure monitor exceeds a predefined threshold.
- the intelligence on board the shuttle can also be arranged to automatically transmit, in particular in real time, the alert signal generated to the centralized supervision system and / or to at least one other shuttle, in particular a preceding or following shuttle.
- Such a warning signal can make it possible to detect any anomalies on the infrastructure, such as the presence of an obstacle on the traffic lane, and / or on the shuttle, such as too heavy a load, an under inflating a tire or even a wheel blocked in its rotational movement, for example by abnormal actuation of the braking member.
- Each shuttle can include at least one on-board wear sensor of at least one component of the shuttle. This can make it possible to check the state of wear of the mechanical parts of the shuttle such as a component of its motor means, its braking member, its wheels or tires, if any, etc.
- Each shuttle can include at least one on-board vibration sensor. This can provide information on any shocks suffered by the shuttle during its movement within the infrastructure. It is then possible to determine whether the shuttle has undergone an impact which could impair its proper functioning, and in particular to determine whether its load has been damaged. Vibration detection can also provide information on the wear phenomenon of certain components or the infrastructure, and allow predictive maintenance. The signals delivered by the shuttles can be processed to see those that are correlated to infrastructure faults, in order to perform predictive maintenance of the infrastructure.
- Each shuttle can measure the remaining autonomy, and if necessary modify its route according to it.
- each shuttle may include at least one onboard sensor of the converging meter type. It is thus possible to measure, for example, the deformation of the ovalization of the tunnel section.
- Each shuttle can also include one or more onboard sensors, in particular of the laser type, configured to allow inspection of the condition of the tunnel, for example the condition of the joints, faults, cracks, concrete, lining of the tunnel. , etc.
- each shuttle can include one or more onboard sensors, in particular of the laser type, configured to allow inspection of the condition of the rails, for example. 'gauge, bearing, curvature, alignment, condition of sleepers, condition of joints, etc.
- Each shuttle can also include at least one onboard sensor chosen from the following list: microwave radar, laser range finder, camera, in particular infrared, lidar, ultrasonic sensor, light, humidity, pressure, temperature, weighing sensor , vibrations, etc.
- the fact that each shuttle has at least one on-board sensor is particularly advantageous because it allows each shuttle to communicate information relating to its state (for example the state of its motor means, of its energy storage means, of certain components such as as bearings, the state of wear of its mechanical parts, its autonomy, to detect faults, to locate oneself, to know its speed, its level of acceleration, its distance from the shuttles preceding it and the following, etc.), in the state of at least one other shuttle, in particular a preceding or following shuttle, and / or in the state of the traffic infrastructure (quality of the gaseous environment, oxygen level, d (humidity, temperature, condition of tunnel walls, condition of rails, condition of auxiliary drive systems such as cables, wheel motors, etc.).
- the shuttles travel within the infrastructure, it is possible to determine the condition of the infrastructure as a whole using sensors onboard each shuttle. This makes it possible to reduce the number of sensors installed within the infrastructure, or even to have sections of the infrastructure totally devoid of sensors or certain types of sensors. This makes it possible to build the infrastructure at a lower cost, facilitate its maintenance and improve its reliability.
- the centralized supervision system can be passive or active.
- the centralized supervision system When the centralized supervision system is passive, it makes it possible to display information transmitted by the shuttles or the infrastructure to the centralized supervision system, but does not make it possible to issue instructions intended to actively control the infrastructure of traffic and shuttles. There is a unidirectional transmission of information, which is done to the centralized supervision system. The shuttles are then completely autonomous.
- the centralized supervision system When the centralized supervision system is active, the latter not only makes it possible to display information but also to send infrastructure and / or shuttle control instructions. It is possible to have a two-way transmission of information between the shuttles and the centralized supervision system.
- the latter can control the operation of the shuttles to a greater or lesser extent.
- the shuttles can operate autonomously in an unsupervised mode but can also be controlled remotely in a supervised mode, the centralized supervision system being able to decide at any time of the supervised mode or not of a shuttle bus.
- the centralized supervision system can be configured to allow remote control of the shuttles, in particular in the event of failure of their on-board intelligence.
- the centralized supervision system can be configured to allow remote control of the destination, route and / or speed of the shuttles.
- the centralized supervision system may include at least one screen allowing the display of information, in particular transmitted by the shuttles or the infrastructure to the centralized supervision system.
- the display of this information can be done in real time.
- the information displayed by the centralized supervision system may relate to the shuttles: their identity, their location, their route, their speed, their destination, their operating status, for example display of the remaining autonomy, any faults, etc. .
- This information can also relate to the infrastructure: qualitative and / or quantitative composition of the surrounding air, humidity level, pressure, temperature, oxygen, carbon monoxide and carbon dioxide levels in the air , display of the occurrence of incidents or fires within the infrastructure, etc.
- the centralized supervision system can be configured to issue an alert, in particular light and / or sound, for example when a failure is detected on a shuttle or when an incident or fire occurs within the infrastructure.
- the centralized supervision system provides a real-time view of the state of the infrastructure as a whole. An operator can thus monitor in real time and at any time the state of the infrastructure and the traffic and be alerted in the event of incidents.
- the system according to the invention comprises at least one communication network allowing the shuttles to communicate with each other and with the centralized supervision system, in particular by radio, powerline, optically or any combination of these transmission means.
- the communication network comprises radio transmission means and emergency wire transmission means configured to take over in the event of failure of the radio transmission means.
- the communication network can also allow the shuttles to communicate with one or more elements of the infrastructure allowing their training or their routing or the gripping of goods.
- This communication between a shuttle and an element of the infrastructure can be done directly, or indirectly, either through another shuttle, or through the centralized supervision system. This makes it possible to have a redundancy of the communication modes which is particularly advantageous in the event of failure of one of the communication modes.
- the traffic infrastructure may include means of communication, such as one or more radio transceivers, preferably distributed along at least part of the path followed by the shuttles, configured to allow the shuttles to exchange information. information with the centralized supervision system.
- Each shuttle can include an on-board communication module comprising at least one radio transceiver configured to communicate with at least one other shuttle and / or the centralized supervision system.
- Each shuttle can be configured to communicate with at least one other shuttle, preferably with at least two other shuttles, in particular a shuttle which precedes it and a shuttle which follows it.
- Each shuttle can be configured to communicate with the centralized supervision system.
- At least one piece of information transmitted by the shuttle to the centralized supervision system or vice versa can pass exclusively through another shuttle which relays this information.
- Each shuttle can be arranged to relay signals transmitted by other shuttles.
- the relayed signals can thus pass from shuttle to shuttle to communication terminals with the infrastructure and / or the centralized supervision system. Relaying information by shuttles can reduce the number of radio relays within the infrastructure, and reduce its cost while facilitating its maintenance.
- Communication terminals are for example located in exchange stations with the surface.
- the use of radio transmission is advantageous because it allows the tunnel to be used as a waveguide, which can increase the range of transmission.
- the traffic infrastructure may include radio or optical repeaters, preferably distributed along at least part of the path followed by the traffic.
- Shuttle Buses This can allow the propagation of waves at great distances and the improvement of communication, for example between two shuttles very distant from each other.
- the infrastructure as well as each shuttle can also include emergency radio transceivers configured to take over in the event of failure.
- the communication network may include a system for securing the data exchanged by encryption and / or authentication techniques.
- At least one section of the infrastructure may not be equipped with means of communication.
- the means of communication in the infrastructure can be concentrated at the loading / unloading stations.
- the centralized supervision system can communicate directly with the shuttles present in the vicinity of the loading and / or unloading stations.
- each shuttle can be configured to communicate with at least one other shuttle.
- the unchanged information between the centralized supervision system and the shuttles present in the vicinity of the loading and / or unloading stations can be transmitted step by step to the other shuttles present within the infrastructure. This makes it possible to have sections without means of communication, since it is the shuttles themselves which play the role of communication relays.
- Information of a certain type can be exchanged between the shuttles and the centralized supervision system when the shuttles are present in the loading / unloading stations, in particular information on the destination of the shuttles and / or information concerning a diagnosis of the traffic. operating status of the shuttles.
- Direct communication between a shuttle and an infrastructure communication terminal can be used to transmit a greater flow of information from the shuttle to the centralized supervision system or from the latter to the shuttle.
- the transmission rate may be lower.
- each shuttle can thus be arranged to detect whether it establishes direct communication with a communication terminal or not, and the nature of the information sent from the shuttle to the centralized supervision system can be determined according to the result of this detection. For example, if a shuttle determines that it cannot communicate directly with a communication terminal of G infrastructure, the flow of information transmitted remains limited and the information transmitted relates for example to identity, position and speed. If the shuttle detects that it is in direct communication with the communication terminal, the information transmitted includes for example additional information, such as for example the measurements of certain sensors useful for performing predictive maintenance.
- the supervision system can transmit information, in particular orders, to the shuttles and / or stations, relating in particular to the loading and / or unloading of the shuttles, via the communication network and in particular this information can pass through the intermediary of 'at least one shuttle.
- each shuttle can be arranged to transmit, in particular in real time and permanently, all or part of the information coming from the onboard sensor (s) to the centralized supervision system, allowing an in-line view. real time and permanently the state of the shuttle traffic infrastructure as a whole thanks to the information provided by the shuttles.
- Each of the shuttles circulating within the infrastructure can permanently transmit to the centralized supervision system the information coming from one or more on-board sensors, and in the event of the predefined thresholds detected by this or these on-board sensors being exceeded, a signal of The alert can be transmitted to the centralized supervision system.
- Maintenance is preferably hyper-predictive, which makes it possible to improve the robustness and reliability of the automated transport system, by making it possible to prevent failures and breakdowns, by reducing repair and intervention costs and by maximizing the duration life of the transport system.
- each shuttle can be arranged to process the information coming from the onboard sensor (s) in order to determine whether this information indicates a fire, and if so to discriminate whether this fire comes from the infrastructure, from the shuttle itself. same or a shuttle that precedes or follows. For example, exceeding a predefined threshold detected by the on-board temperature, carbon monoxide, carbon dioxide, smoke and / or flame sensor can make it possible to detect an abnormally high temperature, the presence of flame and / or smoke, which can in particular make it possible to detect a fire within the transport system. In case of probable detection of a fire, the shuttle can interrogate the other shuttles which precede or follow it in order to know if these other shuttles have also detected the same thing. If so, corresponding information can be fed back to the centralized supervision system. This can help to clear up any doubt about the reality of the incident more quickly.
- each shuttle is arranged to allow regulation and optimization of the speed and the level of acceleration / deceleration of the shuttle, in particular as a function of the speed and of the level of acceleration / deceleration of the shuttles. which precedes it and follows it.
- This optimizes the flow of shuttle traffic within the traffic infrastructure. This also makes it possible to avoid excessive braking / acceleration phases and to maintain sufficient distances between the shuttles.
- An extension of the autonomy of the shuttles as well as a reduction in the wear of their mechanical components can be obtained.
- each shuttle comprises at least one on-board distance sensor, in particular a radar, lidar or ultrasound sensor to determine the distance between the shuttle and that which precedes it and that which follows it, and the shuttle is arranged to communicate at least with the shuttle that precedes and the shuttle that follows.
- a distance sensor in particular a radar, lidar or ultrasound sensor to determine the distance between the shuttle and that which precedes it and that which follows it
- the shuttle is arranged to communicate at least with the shuttle that precedes and the shuttle that follows.
- This allows the speed of the shuttle to be regulated and optimized as a function of the traffic within the traffic infrastructure, in particular to avoid collisions between shuttles.
- each shuttle can autonomously manage its speed to maintain the appropriate safety distance from the other shuttles that circulate in the infrastructure.
- the regulation and optimization of the speed of the shuttle can also be carried out according to specific features of the route followed by the shuttle, in particular the presence of turns, of sloping section, of the on-board weight, of the remaining range, etc.
- each shuttle is advantageously arranged to detect a failure of the shuttle and / or of at least one other shuttle and / or of the infrastructure, and in particular to autonomously manage the failure thus detected.
- each shuttle can be arranged to signal the failure thus detected to at least one other shuttle and / or to the centralized supervision system.
- a failure is for example a shuttle whose motor means and / or at least one onboard sensor is defective.
- Another example of a failure is a shuttle that no longer transmits certain types of information, or even that no longer transmits any information, to other shuttles and / or to the centralized supervision system.
- a failure can also be an exceeding of a predefined threshold detected by an onboard sensor of a shuttle.
- each shuttle can be arranged to allow a faulty shuttle to automatically and autonomously change its destination, in particular to reach the nearest parking area or loading / unloading station.
- the goods transported by it can be transferred to another shuttle without loading present within the infrastructure or the faulty shuttle can be pushed or towed by at least one another shuttle.
- a failed shuttle can manage its failure alone or in cooperation with at least one other shuttle.
- the intelligence onboard each shuttle is arranged to allow a failed shuttle to automatically and autonomously navigate to a predefined parking area or closest to the shuttle.
- the shuttle can periodically receive a list of available parking areas in the event of a fault, which enables it to determine the closest. This allows a failed shuttle to be quickly removed from the lane, reducing the risk of slowing or stopping the flow of other shuttles within the infrastructure.
- each shuttle is arranged to allow a faulty shuttle to be brought by one or more other shuttles to the parking area.
- a dialogue can be established between the faulty shuttle and a shuttle which follows or which precedes; this shuttle can move closer to the faulty shuttle and hook onto it to push or tow it.
- the system can include at least one container for transporting goods or, where appropriate, a cabin for transporting people such as maintenance personnel, or even passengers, configured to be transported by a shuttle and comprising a computer circuit capable of transmitting. automatically to the shuttle which transports it and / or to the centralized supervision system at least one information on the destination, origin, recipient, sender, market value, degree of priority, nature and / or load weight inside.
- Said information may also relate to the temperature measured inside the container, in particular the current temperature measured and / or a history of the temperatures measured, in particular since the loading of the goods into the container.
- the container can thus include a temperature sensor configured to measure, in particular periodically or continuously, the temperature inside the container and a data storage module configured to record a history of the measured temperatures
- each shuttle can be arranged to automatically generate, especially in real time, an alert signal when the current temperature exceeds or when the history reveals that the temperature has exceeded a predefined threshold, transmit automatically, in particular in time real, the alert signal generated to the centralized supervision system and / or to at least one other shuttle, in particular a preceding or following shuttle, and if necessary increase the degree of priority assigned to the container so as to ensure faster delivery from the container to its final destination.
- Said information may also relate to the volume, dimensions, number of packages contained inside the container and / or a possible specific nature of the goods, such as a fragile, perishable and / or dangerous nature, for example a chemical hazard or fire.
- Said information may also relate to the upstream surface conveyor (ie surface conveyor bringing the goods to the entry of the system) and / or downstream (ie surface transporter bringing the goods from the exit of the system to their final destination), in particular relating to their identity and / or their nature.
- upstream surface conveyor ie surface conveyor bringing the goods to the entry of the system
- downstream ie surface transporter bringing the goods from the exit of the system to their final destination
- Each shuttle can be configured to automatically adapt its destination, its speed of movement, its level of acceleration / deceleration, its distance from the shuttles preceding it and the following, according to said information.
- Each shuttle can be configured to automatically adapt its speed of movement and / or its level of acceleration / deceleration according to the weight of the load contained in the container or the cabin it transports so as to extend the durability of the mechanical parts of the vehicle. shuttle bus.
- Each shuttle can be configured to automatically adapt its distance from the shuttles preceding and following it according to its speed of movement, the weight and / or the nature of the load contained in the container or cabin it is transporting.
- the shuttle will automatically and autonomously adapt its speed, its level of acceleration / deceleration and its safety distances from the preceding and following shuttles.
- each shuttle can be arranged to allow other shuttles to independently dock this shuttle to push or tow it on the traffic infrastructure. This allows the transport in convoy of relatively heavy freight containers by pooling the motor means of several shuttles.
- each shuttle can be arranged to enable active management of the energy autonomy of the shuttle.
- Each shuttle can be configured to operate according to different predetermined operating modes and to adopt one of the operating modes depending on the remaining autonomy of the shuttle. This makes it possible to optimize the energy use of the shuttle, and in particular to extend its autonomy.
- Each shuttle can be configured to automatically adapt its destination and / or its speed of movement and / or its level of acceleration / deceleration and / or the weight of the goods that it loads according to the remaining autonomy of the shuttle. For example, if the remaining autonomy is low, the shuttle may only accept lighter goods whose transport is compatible with this autonomy.
- Each shuttle can be configured to automatically reduce the power delivered by its motor means and / or automatically put some of its on-board sensors into a standby state when the remaining autonomy of the shuttle falls below a predetermined threshold. This helps to preserve the remaining autonomy of the shuttle.
- the automated goods transport system may experience disturbances upstream (modification of a customer's order, delay in reaching the system entrance, etc.) and / or downstream (reduced reception capacity of stations, surface congestion, etc.) of the latter. It is therefore necessary to be able to reduce the consequences, or even prevent such disturbances.
- the automated goods transport system may include sensors located within the infrastructure, shuttles, goods and / or containers, these sensors making it possible to generate, continuously or periodically, data relating to the shuttles (speed, level acceleration / deceleration, location, state of its motor means, state of certain components such as bearings, state of wear of its mechanical parts, remaining autonomy of its energy storage means, etc.), to goods and / or containers (destination, origin, recipient, sender, market value, degree of priority, nature, temperature measured inside the container, in particular current temperature measured and / or history of measured temperatures, weight, volume, dimensions, number of packages contained inside the container, any specific character of the goods, such as a fragile, perishable and / or dangerous character, for example a chemical or fire risk, tra upstream and / or downstream surface carrier, etc.), to the infrastructure (remaining capacity of the stations), and to infrastructure and / or shuttle failures (breakdowns, fires, etc.).
- data relating to the shuttles speed, level acceleration / deceleration, location, state
- the centralized supervision system may include at least one communication network, preferably several communication networks, in particular one network. main network and a backup network that can take over in the event of failure of the main network.
- the centralized supervision system can also comprise at least one, preferably several data storage modules, in particular removable, such as a ROM or flash memory, and / or at least one, preferably several processing modules comprising computer means. such as a microprocessor or microcontroller.
- the redundancy of communication networks, data storage modules and processing modules increases the reliability of the centralized supervision system.
- the centralized supervision system can be configured to collect, via the communication network (s), the data generated by the sensors, in particular in real time, and to store this data on the storage module (s).
- the centralized supervision system may include, on the storage means (s), pre-recorded data comprising previous data generated by the sensors over the same period of time and associated with a known situation.
- the centralized supervision system can be configured to determine, in particular in real time (up to the processing delay), whether the data generated by the sensors at the present moment corresponds to a known situation, and to independently trigger a corrective action if this is the case. If desired, the centralized supervision system can be configured to allow remote validation of some of these actions at least by a human operator, before applying them.
- These corrective actions may include assigning a new level of priority to a container and / or shuttle, modifying the speed of the shuttles and / or the drive cable, engaging a shuttle without loading or '' a shuttle equipped to fight against fire and / or for the maintenance and / or repair of at least one other shuttle, placing a faulty shuttle in the parking area, actuation of the means to fight against fire, and / or the automatic sending of an alert notification to the recipient or to a downstream surface transporter, for example in the form of an SMS or a push notification on a mobile phone, indicating a change in the expected delivery time.
- the centralized supervision system can make it possible to process the data generated by the sensors, compare this data with previous data and trigger corrective actions.
- the processing, comparison and triggering of corrective actions can involve mathematical methods of artificial intelligence such as machine learning or "machine learning", for example using neural networks.
- Such a centralized supervision system can make it possible to predict the occurrence of an unwanted situation, in particular using the principle of "weak signals", and trigger corrective action so as to avoid the occurrence of such an unwanted situation. This can thus make it possible to optimize the delivery of goods and / or containers as well as the operation of the automated goods transport system by anticipating possible disruptions.
- Each shuttle may experience disruptions during its journey within the automated goods transport system (slowing down or even stopping the movement of shuttles, for example due to the reduced reception capacity of a station, breakdown, accident, fire, maintenance work on the infrastructure, etc.). It is therefore necessary to be able to reduce the consequences, or even prevent such disruptions, in order to guarantee delivery of the goods to their final destination on time.
- Each shuttle can include onboard sensors, these sensors making it possible to generate, continuously or periodically, data relating to the shuttle (speed, level of acceleration / deceleration, location, state of its engine means, state of certain components such as bearings, state of wear of its mechanical parts, remaining autonomy of its energy storage means, etc.), to the goods and / or containers it transports (destination, origin, recipient, sender, market value, degree of priority, nature, temperature measured inside the container, in particular current temperature measured and / or history of measured temperatures, weight, volume, dimensions, number of packages contained inside the container, any specific character of the goods, such as '' a fragile, perishable and / or dangerous nature, for example a chemical or fire risk, identity and / or nature of the upstream and / or downstream surface carrier, etc.), and failures on the shuttle (breakdowns, fires, etc.).
- each shuttle can be arranged to collect the data generated by the onboard sensors, in particular in real time, and store this data on the onboard data storage module of the shuttle.
- Each shuttle can also be configured to transmit the data generated by the onboard sensors, in particular in real time, to the centralized supervision system which preferably stores these data.
- Each shuttle can include, on the onboard data storage module, pre-recorded data comprising previous data generated by the onboard sensors over the same period of time and associated with a known situation.
- each shuttle can be arranged to determine, in particular in real time (except for processing delay), whether the data generated by the sensors on board at the present moment correspond to a known situation, and to independently trigger a corrective action if this is the case.
- on-board intelligence can be configured to allow remote validation of some of these actions at least by a human operator, before they are applied.
- These corrective actions may include the assignment of a new degree of priority to the container and / or the shuttle, the modification of the loading and / or unloading station where the shuttle is loaded and / or unloaded, the modification of the speed or even stopping a shuttle, recharging the battery of another shuttle or repairing another shuttle by pulling or pushing it, automatically sending an alert signal to the centralized supervision system, and / or placing the shuttle in the parking area.
- the intelligence onboard each shuttle can process the data generated by the sensors, compare this data with previous data and trigger corrective actions.
- the processing, comparison and triggering of corrective actions can call for artificial intelligence mathematical methods such as machine learning or "machine learning", for example using neural networks.
- Such on-board intelligence can make it possible to predict the occurrence of an unwanted situation, in particular using the principle of "weak signals", and trigger corrective action in order to prevent the occurrence of such an unwanted situation. This can thus make it possible to optimize the delivery of goods and / or containers as well as the operation of the automated goods transport system by anticipating possible disruptions.
- Figure 1 is a schematic and partial vertical section of an example of an automated system for transporting goods according to the invention
- Figure 2 shows schematically and partially, in cross section, an example of a shuttle and container assembly, traveling in a tunnel,
- Figure 3 shows schematically and partially, in cross section, an example of a shuttle and container assembly, traveling in a tunnel,
- FIG 4 is a diagram illustrating an example of a shuttle traffic infrastructure belonging to an automated freight transport system according to the invention
- FIG. 5 schematically represents an example of an infrastructure comprising a closed-loop traffic lane
- Figure 6 represents, schematically, an example of an infrastructure comprising a traffic lane
- Figure 7 shows schematically an example of a shuttle driven by a drive cable
- FIG 8 Figure 8 schematically shows an example of a shuttle with on-board intelligence
- FIG. 9 schematically represents an example of an infrastructure comprising a closed-loop traffic lane
- Figure 10 shows, schematically, an exemplary embodiment of the selection of loading and / or unloading stations where the shuttles are loaded and / or unloaded.
- the transport system 1 can be used for the transport of passengers and / or all kinds of freight. It comprises a set of shuttles that can travel on one or more traffic lanes.
- System 1 comprises a tunnel 2 extending at least partially under a dense urban environment and comprising, as can be seen in FIG. 1, surface buildings B as well as underground infrastructures I, under which the tunnel extends. 2. This the latter is designed to allow the automated transport of goods present in loading units such as containers 3.
- the containers 3 can be carried by transport shuttles 17 which circulate in the tunnel 2.
- These transport shuttles 17 can have a sectional shape chosen so as to best occupy the section of the tunnel 2.
- the shuttles 17 can have, as illustrated, a cradle 19 which receives at least one container 3.
- Each shuttle 17 can then include a mechanism which allows it to be centered in the lower part of the tunnel 2, for example by varying the angle between the axes of rotation of the wheels 18 of the shuttle 17 which rest on the wall of the tunnel 2.
- the transport shuttles 17 move on railway tracks 300 within the tunnel 2, as illustrated in FIG. 3.
- the shuttles run on tracks which may have sections arranged in various ways, for example:
- FIG. 4 illustrates an example of a traffic lane comprising two successive sections 107 each located between two loading / unloading stations 4.
- the sections shown are rectilinear, and there is between them a transition zone 212 forming a bend.
- the sections of the traffic lane can be located at ground level, in height (the shuttles being suspended or resting on supports built in height) and / or be underground.
- FIG. 5 An exemplary embodiment of a transport loop 7, comprising sections 107 rectilinear or substantially rectilinear, connected by loading / unloading stations 4.
- the main flow of goods injected into the loop 7 can circulate by a line 110 called penetrating, connected to a peripheral scheduling station 6 which constitutes a rear base, and where the goods to be transported are conditioned and scheduled according to their destination.
- the goods intended to transit through the same loading / unloading station 4 of the loop 7 to reach their final destination can be packaged within the same loading unit, and this packaging can advantageously take place at the level of the scheduling station. 6.
- the order of loading the shuttles 17 at the level of the scheduling station 6 can also be carried out according to the destination of the goods loaded on each of these shuttles.
- the station 6 can thus ensure the management of a large part of the flow of goods which is injected into the loop 7, and can make it possible to limit the flow of goods loaded onto the shuttles from the loading / unloading stations 4 located on the loop 7.
- Line 110 can be bidirectional, and implemented in the form of a two-lane tunnel or two tunnels, parallel or not.
- FIG. 9 shows an exemplary embodiment of a transport loop 7 having the shape of an "eight" and comprising sections 107 which are rectilinear or substantially rectilinear or curvilinear, connected by loading / unloading stations 4.
- the “eight” shaped transport loop 7 comprises two secondary loops 901 and 902 which are preferably interconnected at their contact zone 900.
- Each secondary loop 901 or 902 can be connected to one or more lines 910 or 920 called penetrating, each connected to a peripheral scheduling station 6 which constitutes a rear base, and where the goods to be transported are packaged and scheduled according to their destination.
- the "eight" shaped transport loop 7 is unidirectional.
- the shuttles can circulate on the two secondary loops 901 and 902 passing from one to the other in a path in the form of an “eight”, the two secondary loops 901 and 902 being interconnected. It is still possible that the shuttles circulate on only one of the two secondary loops 901 and 902, for example make a complete turn on one of these secondary loops without passing over the other secondary loop, depending on their destination and / or traffic on the other loop or because the system is operating in degraded mode, if one of the loops is unavailable for example.
- lines 910 and 920 are bidirectional. They can each be made in the form of a two-lane tunnel or of two parallel or non-parallel tunnels, preferably in the form of a two-lane tunnel.
- FIG. 6 an embodiment of the transport loop 7, comprising sections 107 rectilinear or substantially rectilinear, connected by the loading / unloading stations 4.
- the sections 107 and / or the loading / unloading stations 4 may include parking zones 310, in particular for shuttles exhibiting failures.
- Each parking area 310 can be equipped with a trans-boarding system 311 making it possible to transfer goods from one shuttle to another.
- FIG. 7 shows an example of a shuttle 17 comprising wheels 18 allowing the shuttle to run directly on the wall of the tunnel 2 or on rails while being towed by a cable 501.
- This shuttle 17 further comprises a wheel. 500, for example in a central position, which can be coupled to the cable 501 or decoupled.
- the wheel 500 When the wheel 500 is coupled to the cable 501 and locked in rotation, the shuttle 17 circulates within the infrastructure at the driving speed of the cable 501, being towed by the latter. In another mode of operation of shuttle 17, it is stopped at a location in the infrastructure, with its wheels 18 locked.
- the wheel 500 still coupled to the cable 501, drives an alternator in order to recharge an energy storage means of the shuttle 17. When the storage means is full, the wheel 500 can be decoupled from the cable 501.
- a block 410 in this figure is represented by an electronic device configured to provide on-board intelligence to the shuttle 17, which allows the latter to be autonomous as explained above.
- the braking member 470 and the motor means 460 are connected to the electronic device 410 which can control them.
- the energy storage means 450 comprises for example a rechargeable battery 451, the charge of which is managed by an integrated circuit in the battery and / or the electronic device 410.
- the electronic device 410 comprises in this example an on-board detection system 420, an on-board processing module 430 and a on-board communication 440.
- the electronic device 410 can also include an on-board data storage module 480.
- This on-board data storage module 480 can include electronic storage means, in particular removable, such as a ROM or flash memory.
- the on-board detection system 420 is configured to perform continuously, or alternatively periodically, at least one measurement relating to at least one parameter of a condition linked to the state of the shuttle 17 and / or to its environment, such as explained above, for example the temperature, the oxygen level, the humidity level and any shocks undergone by the shuttle 17.
- the detection system 420 comprises, for example, an on-board temperature sensor 421, an on-board oxygen sensor 422, an on-board humidity sensor 423 and an accelerometer 424, among other possible sensors, and whose functions have been described above.
- the on-board processing module 430 comprises for example a microprocessor 431 making it possible to process the data 425 generated by the on-board detection system 420.
- the on-board processing module 430 can trigger various actions on the shuttle 17, for example to regulate its speed by acting on the braking member 470 and / or the motor means 460 of the shuttle 17.
- the on-board communication module 440 comprises a radio transceiver 441 allowing the shuttle 17 to communicate with at least one other shuttle 17 and / or with the centralized supervision system 400.
- the on-board communication module 440 is connected to the on-board detection system 420 and to the on-board processing module 430 and can transmit by wireless communication the digital data generated by each of these two modules 420 and 430 to at least one other shuttle 17 and / or the centralized supervision system 400.
- the on-board communication module 440 is also capable of receiving information coming from at least one other shuttle 17 and / or from the centralized supervision system 400. This information received is processed by the on-board processing module 430. Selection of stations
- At least one level of priority can be assigned to at least one good and / or at least one container for transporting goods, this level of priority being all the higher as the goods must benefit from a reduced transport time for be transported to their final destination.
- a commodity and / or a container will be assigned an increasing degree of priority depending on whether it must be delivered to its final destination in less than 48 hours, 24 hours, 12 hours, 2 hours, etc.
- Perishable goods, valuable products, pharmaceutical products, goods that have accumulated delays in reaching the entrance to the transport system, or goods for which the recipient has paid an additional cost may be examples of goods affected by high costs. priority degrees.
- each shuttle and / or the centralized supervision system can be configured to determine the closest loading and / or unloading station n to the final destination of the goods and / or containers.
- the intelligence on board each shuttle and / or the centralized supervision system can be configured to determine an optimal path that the shuttle must take to reach said nearest station //, this optimal path being determined by minimizing the distance and / or the duration of the journey.
- the optimal route is determined taking into account the traffic conditions and any slowdowns in the traffic infrastructure.
- each shuttle and / or the centralized supervision system can be configured to allow the shuttle to unload the goods (s) and / or containers at said nearest station //, if the remaining reception capacity (for example a number of containers likely to be accommodated in addition) of said closest station (3 ⁇ 4 is greater than a capacity threshold x, w predetermined for said nearest station, whatever their degree of priority y.
- each loading and / or unloading station is configured to generate information relating to its remaining reception capacity and transmit said information to the shuttles when the latter are present in the vicinity of the station
- the realization of such a selection causes the shuttle to move first in the direction of the nearest station n, then possibly in a second step in the direction of the next station "+7, then possibly in a third time in the direction of the station which precedes n-1, then possibly in a fourth step towards the nearest station n and so on.
- Such a selection can allow an optimization of the storage of goods within stations while avoiding their saturation and can allow the delivery of goods to their final destination with guaranteed punctuality.
- the selection of the loading or unloading stations 4 of the shuttles 17 can be carried out so as to take into account the priority nature of the transport of certain goods and / or containers 3 over others.
- the system can also be arranged so that a non-priority merchandise and / or container makes a complete tour of the loop if the planned unloading station is not available; in this case, the loop serves as a storage space for goods and / or containers.
- the aforementioned communication network can be arranged to allow the shuttles 17 to receive information relating to the remaining reception capacity of each loading and / or unloading station 4, the selection of the loading and / or unloading stations 4 where the shuttles 17 are loaded and / or unloaded, for example taking place automatically as a function of the remaining capacity of the stations 4, of the final destination and of the degree of priority of the goods and / or containers.
- Each loading and / or unloading station 4 can be configured to generate information relating to its remaining capacity and transmit, in particular periodically or continuously, said information to the centralized supervision system 400 and / or to the shuttles 17, in particular when these The latter are present in the vicinity of station 4.
- the centralized supervision system 400 can also, if necessary, be configured to transmit, in particular periodically or continuously, to each shuttle 17 the information relating to the remaining capacity of each station. loading and / or unloading 4.
- the centralized supervision system 400 can be configured to assign to each merchandise and / or container 3 at least one degree of priority.
- the centralized supervision system 400 can be arranged to supervise the loading and / or unloading of the shuttles 17, in particular by giving orders for the loading and / or unloading of the latter to the systems used to carry out this loading and / or unloading. .
- Each shuttle 17 can be configured to compare the priority level (s) of the container (s) 3 and / or goods transported by the shuttle 17 with the priority level (s) of the container (s) 3 and / or goods transported by at least one other shuttle 17, in particular a shuttle 17 which precedes or follows, and adapt the behavior of the shuttle 17 as a function of the comparison of the degrees of priority.
- a shuttle 17 transporting a non-priority goods and / or container may park temporarily on a lane provided for this purpose, to allow it to be passed by a another shuttle 17 at the request of the latter.
- the infrastructure can thus include at least one parking zone 310, in particular underground, allowing a shuttle 17 to overtake at least one other shuttle 17 whose priority level (s) assigned to the goods and / or containers 3 that it transports are lower, so as to reach its loading and / or unloading station 4 more quickly.
- at least one parking zone 310 in particular underground, allowing a shuttle 17 to overtake at least one other shuttle 17 whose priority level (s) assigned to the goods and / or containers 3 that it transports are lower, so as to reach its loading and / or unloading station 4 more quickly.
- a shuttle 17 may also not unload its payload at a station 4 if another shuttle 17 requests it, in order to have the corresponding reception capacity.
- Each loading and / or unloading station can be configured to compare the degree (s) of priority of the container (s) and / or goods present within the station, and to rise to the surface and / or descend to the tunnel the latter d 'the faster the higher the priority.
- Each merchandise and / or container 3 may include a circuit capable of automatically transmitting to the shuttle 17 which transports it or it and / or to at least one other shuttle 17, in particular a shuttle 17 which precedes or follows and / or to the centralized supervision 400, at least one item of information on its final destination, its nature, its weight and / or its degree of priority.
- Each shuttle can be configured to move automatically and autonomously towards a loading and / or unloading station 4 and automatically adapt its speed of movement, its level of acceleration / deceleration, its distance from the shuttles preceding and following it, its route, depending on said information and the remaining capacity of the stations 4.
Landscapes
- Engineering & Computer Science (AREA)
- Business, Economics & Management (AREA)
- Economics (AREA)
- Human Resources & Organizations (AREA)
- Strategic Management (AREA)
- Quality & Reliability (AREA)
- Physics & Mathematics (AREA)
- Entrepreneurship & Innovation (AREA)
- Marketing (AREA)
- Operations Research (AREA)
- Development Economics (AREA)
- Tourism & Hospitality (AREA)
- Theoretical Computer Science (AREA)
- General Business, Economics & Management (AREA)
- General Physics & Mathematics (AREA)
- Game Theory and Decision Science (AREA)
- Transportation (AREA)
- Mechanical Engineering (AREA)
- Traffic Control Systems (AREA)
- Control Of Position, Course, Altitude, Or Attitude Of Moving Bodies (AREA)
Abstract
Automated system for transporting goods, comprising: - a plurality of transport shuttles, preferably autonomous, the shuttles each being able to be loaded with at least one item of goods and/or at least one goods transport container, at least one degree of priority being assigned to at least one item of goods and/or to at least one container, - an infrastructure, notably an underground infrastructure, on which the shuttles circulate, this infrastructure comprising shuttle-loading and/or -unloading stations allowing goods and/or containers to be loaded and/or unloaded and the handling of such goods and/or containers to be taken over by surface vehicles, - at least one communications network allowing the shuttles to receive information regarding the remaining capacity of each loading and/or unloading station to accept goods and/or containers, the loading and/or unloading stations at which the shuttles are loaded and/or unloaded being selected automatically on the basis of the remaining capacity of the stations, of the final destination, and of the degree of priority of the item of goods or of the goods and/or containers transported by the shuttles.
Description
Description Description
SYSTEME AUTOMATISE DE TRANSPORT DE MARCHANDISES AUTOMATED GOODS TRANSPORT SYSTEM
La présente invention concerne les systèmes de transport de marchandises, notamment en milieu urbain. The present invention relates to systems for transporting goods, in particular in an urban environment.
Technique antérieure Prior art
L’acheminement et la distribution des marchandises au cœur des villes s'effectuent aujourd'hui principalement à l'aide de véhicules tels que des camions, ce qui pose de multiples problèmes. The transport and distribution of goods in the heart of cities today is carried out mainly using vehicles such as trucks, which poses multiple problems.
Tout d'abord, la grande majorité de ces véhicules étant à moteur thermique, leur circulation contribue à la pollution atmosphérique des villes. Ensuite, le délai de distribution des marchandises se trouve allongé du fait de l'engorgement des axes de circulation. First of all, the vast majority of these vehicles being with thermal engine, their circulation contributes to the atmospheric pollution of the cities. Then, the delivery time of goods is lengthened because of the congestion of the axes of circulation.
Il existe par conséquent un besoin pour faciliter et accélérer la distribution des marchandises en milieu urbain, notamment en milieu urbain dense. There is therefore a need to facilitate and accelerate the distribution of goods in urban areas, in particular in dense urban areas.
On a proposé dans les demandes FR 3 056 200 Al et FR 3 056 201 Al un système de transport comportant un micro-tunnel enterré à une profondeur relativement importante. Un tel système est prévu pour assurer le transport d’un tonnage journalier élevé de marchandises et doit être parfaitement fiable, car tout arrêt de celui-ci poserait le problème de l’accumulation des marchandises non distribuées. La fiabilité du système est d’autant plus critique que la profondeur du tunnel est susceptible de rendre toute réparation ou intervention des secours plus difficile, comparativement à un système de transport situé en surface. In applications FR 3 056 200 A1 and FR 3 056 201 A1, a transport system comprising a micro-tunnel buried at a relatively great depth has been proposed. Such a system is intended to ensure the transport of a high daily tonnage of goods and must be perfectly reliable, because any stoppage of it would pose the problem of the accumulation of undistributed goods. The reliability of the system is all the more critical as the depth of the tunnel is likely to make any repair or emergency response more difficult, compared to a transport system located on the surface.
Exposé de l’invention Disclosure of the invention
L’invention vise à perfectionner encore les systèmes de transport de marchandises, afin de répondre à la problématique de la distribution des marchandises au cœur des villes, et notamment assurer la bonne gestion des flux de marchandises. The invention aims to further improve freight transport systems, in order to address the issue of the distribution of goods in the heart of cities, and in particular to ensure the proper management of the flow of goods.
L’invention a ainsi pour objet, selon un premier de ses aspects, un système automatisé de transport de marchandises, comportant : The object of the invention is thus, according to a first of its aspects, an automated system for transporting goods, comprising:
- une pluralité de navettes de transport, de préférence autonomes, les navettes pouvant être chargées chacune avec au moins une marchandise et/ou au moins un container de transport de marchandises, au moins un degré de priorité étant affecté à au moins une marchandise
et/ou à au moins un container, a plurality of transport shuttles, preferably autonomous, the shuttles can each be loaded with at least one merchandise and / or at least one merchandise transport container, at least one degree of priority being assigned to at least one merchandise and / or at least one container,
- une infrastructure, notamment souterraine, sur laquelle circulent les navettes, cette infrastructure comportant des stations de chargement et/ou déchargement des navettes, permettant de charger et/ou décharger les marchandises et/ou les containers et de prendre en charge ces marchandises et/ou containers avec des véhicules de surface, - an infrastructure, in particular underground, on which the shuttles run, this infrastructure comprising stations for loading and / or unloading the shuttles, making it possible to load and / or unload the goods and / or the containers and to take charge of these goods and / or containers with surface vehicles,
- au moins un réseau de communication permettant aux navettes de recevoir une information relative à la capacité d’accueil restante de chaque station de chargement et/ou déchargement pour recevoir des marchandises et/ou des containers, la sélection des stations de chargement et/ou déchargement où les navettes sont chargées et/ou déchargées s’effectuant automatiquement en fonction de la capacité d’accueil restante des stations, de la destination finale et du degré de priorité du ou des marchandises et/ou des containeurs transportés par les navettes. - at least one communication network allowing the shuttles to receive information relating to the remaining reception capacity of each loading and / or unloading station to receive goods and / or containers, the selection of loading stations and / or unloading where the shuttles are loaded and / or unloaded taking place automatically according to the remaining capacity of the stations, the final destination and the degree of priority of the goods (s) and / or containers transported by the shuttles.
L’invention permet notamment de garantir une bonne circulation des marchandises respectant les priorités imposées dans leur distribution. The invention makes it possible in particular to guarantee a good circulation of goods respecting the priorities imposed in their distribution.
De préférence, le système automatisé de transport de marchandises comporte également l’une au moins des caractéristiques suivantes, et mieux l’ensemble des caractéristiques suivantes: Preferably, the automated goods transport system also has at least one of the following characteristics, and more preferably all of the following characteristics:
- un ensemble de navettes de transport, disposant chacune d’une intelligence embarquée, d’au moins un moyen moteur et d’au moins un capteur embarqué d’une condition d’environnement de la navette, notamment de composition de l’air environnant et/ou de température, - a set of transport shuttles, each having on-board intelligence, at least one motor means and at least one on-board sensor of an environmental condition of the shuttle, in particular of the composition of the surrounding air and / or temperature,
- un système de supervision centralisé, - a centralized supervision system,
- au moins un réseau de communication permettant aux navettes de communiquer entre elles et avec le système de supervision centralisé, - at least one communication network allowing the shuttles to communicate with each other and with the centralized supervision system,
- une infrastructure de circulation des navettes, notamment souterraine, - a shuttle traffic infrastructure, in particular underground,
l’intelligence embarquée sur chaque navette étant agencée pour : the intelligence on board each shuttle being arranged for:
- assurer de façon autonome les fonctions nécessaires au transport des marchandises par la navette, notamment la localisation de la navette, son auto-positionnement et la gestion de G itinéraire et de la vitesse de circulation de la navette, - autonomously ensure the functions necessary for the transport of goods by the shuttle, in particular the location of the shuttle, its self-positioning and the management of the route and the speed of the shuttle,
- détecter une défaillance de la navette et/ou d’au moins une autre navette et/ou de l’infrastructure et assurer de façon autonome la gestion de la défaillance ainsi détectée, - detect a failure of the shuttle and / or at least one other shuttle and / or infrastructure and autonomously manage the failure thus detected,
- communiquer avec au moins une navette qui précède ou qui suit, et en cas de défaillance
de celle-ci, notamment de son moyen moteur, gérer de façon autonome l’accostage à cette navette pour la pousser ou la tracter sur l’infrastructure de circulation, - communicate with at least one shuttle that precedes or follows, and in case of failure of this, in particular of its motor means, autonomously manage the docking of this shuttle to push or tow it on the traffic infrastructure,
- transmettre au système de supervision centralisé des informations, notamment concernant la localisation de la navette et son itinéraire prévu, permettant une vision en temps réel du système de transport dans son ensemble, - transmit information to the centralized supervision system, in particular concerning the location of the shuttle and its planned route, allowing a real-time view of the transport system as a whole,
- transmettre automatiquement des informations au système de supervision centralisé et/ou à au moins une autre navette, notamment en cas de détection d’une défaillance de la navette et/ou de l’infrastructure et/ou en cas de dépassement d’un seuil détecté par le capteur embarqué de la navette. - automatically transmit information to the centralized supervision system and / or to at least one other shuttle, in particular in the event of detection of a failure of the shuttle and / or the infrastructure and / or in the event of a threshold being exceeded detected by the shuttle's onboard sensor.
Cela permet de réaliser un système de transport particulièrement robuste, fiable et rapide, facilitant la gestion automatisée et la prévention des incidents tels que des pannes ou accidents pouvant survenir au sein du système. Cela permet d’améliorer la sécurité du système et réduire le risque d’un arrêt de la circulation des navettes. This enables a particularly robust, reliable and rapid transport system to be produced, facilitating the automated management and prevention of incidents such as breakdowns or accidents that may occur within the system. This will improve the security of the system and reduce the risk of shuttle traffic stopping.
Navettes de transport Transportation shuttles
Chaque navette peut comporter des roues, lesquelles sont directrices ou non et équipées ou non de pneumatiques. Ces roues peuvent être configurées pour permettre aux navettes de se déplacer sur des voies ferrées ou non. Ces roues peuvent tourner le cas échéant autour d’axes de rotation non parallèles entre eux, par exemple pour s’appuyer directement sur une paroi non plane d’un tunnel. Each shuttle may have wheels, which may or may not be steered and equipped or not with tires. These wheels can be configured to allow the shuttles to move on rail tracks or not. These wheels can turn if necessary around non-parallel axes of rotation, for example to rest directly on a non-planar wall of a tunnel.
Chaque navette peut comporter au moins un organe de freinage. Each shuttle can include at least one braking member.
Le moyen moteur de chaque navette est configuré pour mettre en mouvement la navette, au moins durant une phase du fonctionnement de celle-ci. La navette peut être entraînée durant une autre phase par un câble d’entrainement ou un autre véhicule par exemple. Durant cette autre phase, le moyen moteur peut être inactif ou fonctionner en générateur électrique, par exemple pour recharger une batterie. The motor means of each shuttle is configured to set the shuttle in motion, at least during one phase of its operation. The shuttle can be driven during another phase by a drive cable or another vehicle, for example. During this other phase, the motor means can be inactive or operate as an electric generator, for example to recharge a battery.
Ce moyen moteur peut comporter au moins un moteur électrique, qui peut être unique. En variante, le moyen moteur comporte au moins deux roues motrices pourvues chacune d’un moteur. Cela peut réduire le risque d’immobilisation de la navette en cas de panne, diminuer la taille des moteurs et simplifier la transmission. This motor means may include at least one electric motor, which may be unique. As a variant, the driving means comprises at least two driving wheels each provided with a motor. This can reduce the risk of the shuttle immobilizing in the event of a breakdown, reduce the size of the motors and simplify the transmission.
Additionnellement, chaque navette peut comporter au moins un moyen de stockage d’énergie configuré pour fournir de l’énergie à la navette, et notamment à son
moyen moteur. Cela permet d'assurer au moins partiellement, voire entièrement, l'autonomie énergétique de la navette. Additionally, each shuttle may include at least one energy storage means configured to supply energy to the shuttle, and in particular to its medium motor. This ensures at least partially, or even entirely, the energy autonomy of the shuttle.
Le moyen de stockage peut comporter un ou plusieurs accumulateurs. Ce moyen de stockage peut être rechargeable. Il peut s'agir par exemple d'un moyen de stockage à recharge rapide du type super-condensateur. The storage means can include one or more accumulators. This storage means can be rechargeable. It may for example be a fast recharging storage means of the super-capacitor type.
Lorsque propulsé par au moins un moteur électrique de façon autonome, chaque navette peut être rechargée électriquement de diverses façons. When powered by at least one electric motor autonomously, each shuttle can be electrically recharged in various ways.
Dans un exemple, les navettes sont rechargées lors de leur voyage au sein de G infrastructure, notamment par des bornes de recharges ponctuelles ou linéaires, par exemple par induction ou par contact avec des connecteurs alimentés électriquement. In one example, the shuttles are recharged during their journey within G infrastructure, in particular by one-off or linear recharging terminals, for example by induction or by contact with electrically supplied connectors.
Dans un autre exemple, chaque navette comporte au moins un moyen générateur pour fournir de l’énergie au moyen de stockage. La navette peut comporter au moins une roue entraînée par le différentiel de vitesse entre la navette et l'infrastructure et configurée pour entraîner un alternateur afin de recharger le moyen de stockage. La navette peut s'accoupler durant au moins une phase de fonctionnement à un câble d'entrainement mobile au sein de l’infrastructure de manière à être entraînée sur au moins une partie de l’infrastructure par le câble d'entrainement, et la roue précitée est entraînée en rotation afin de recharger le moyen de stockage de la navette. Durant une autre phase de fonctionnement, la navette peut se désaccoupler du câble d'entrainement et se déplacer en utilisant son moyen moteur alimenté par le moyen de stockage. Ainsi, le travail fourni par le câble d'entrainement est utilisé pour emmagasiner de l'énergie au sein du moyen de stockage en vue de la restituer au moyen moteur de la navette à des moments où la navette a besoin de se déplacer de manière autonome, par exemple dans des tronçons de l’infrastructure ne disposant pas de câble d’entrainement, tels que des virages ou des stations d’échange avec la surface, ou pour permettre à la navette de se déplacer à une vitesse différente de celle du câble d’entrainement, et par exemple faire en sorte que la navette accélère par rapport à l’infrastructure avant de s’accoupler au câble. In another example, each shuttle has at least one generating means for supplying energy to the storage means. The shuttle may include at least one wheel driven by the speed differential between the shuttle and the infrastructure and configured to drive an alternator in order to recharge the storage means. The shuttle can be coupled during at least one phase of operation to a mobile drive cable within the infrastructure so as to be driven over at least part of the infrastructure by the drive cable, and the wheel abovementioned is driven in rotation in order to reload the storage means of the shuttle. During another phase of operation, the shuttle can disconnect from the drive cable and move by using its motor means powered by the storage means. Thus, the work provided by the drive cable is used to store energy within the storage means with a view to returning it to the motor means of the shuttle at times when the shuttle needs to move autonomously. , for example in sections of the infrastructure that do not have a drive cable, such as bends or exchange stations with the surface, or to allow the shuttle to move at a speed different from that of the cable training, and for example to ensure that the shuttle accelerates in relation to the infrastructure before coupling to the cable.
L’autonomie conférée à la navette en dehors des tronçons équipés de câbles d’entrainement permet notamment à la navette de gérer facilement les virages que comporte le trajet, sans avoir à disposer de systèmes mécaniques complexes pour assurer une déviation angulaire du câble d’entrainement dans les virages. Cela peut permettre de simplifier et diminuer le coût de l’infrastructure de circulation des navettes.
L’infrastructure de circulation peut comporter au moins une piste électrifiée, disposée par exemple le long d'une portion au moins d'un tronçon d’une voie de circulation, pour fournir de l’énergie à la navette, notamment pour alimenter son moyen moteur et/ou recharger son moyen de stockage d'énergie. L’infrastructure peut également être dépourvue d’une telle piste, ce qui simplifie sa réalisation et accroît sa fiabilité. The autonomy conferred on the shuttle outside the sections equipped with drive cables allows the shuttle in particular to easily manage the bends in the journey, without having to have complex mechanical systems to ensure angular deflection of the drive cable. in the bends. This can simplify and reduce the cost of the shuttle traffic infrastructure. The traffic infrastructure can include at least one electrified track, arranged for example along at least a portion of a section of a traffic lane, to supply energy to the shuttle, in particular to supply its means. motor and / or recharge its energy storage means. The infrastructure can also be devoid of such a track, which simplifies its construction and increases its reliability.
Les navettes peuvent présenter un espace de réception d’une ou plusieurs unités de chargement telles que des containers ou des marchandises palettisées, et de préférence de deux, quatre, six ou huit unités de chargement disposées côte-à-côte. The shuttles can have a space for receiving one or more loading units such as containers or palletized goods, and preferably two, four, six or eight loading units arranged side by side.
Cet espace de réception peut être dimensionné pour recevoir quatre, six ou huit containers disposés en deux rangées de deux, trois ou quatre containers, chaque container étant adapté à recevoir une palette standard, notamment une palette, une demi-palette ou un quart de palette de type ISO (encore appelée américaine ou universelle), EPAL/EUR (encore appelée européenne), CP ou VMF. En variante, l'espace de réception peut être adapté à recevoir deux, trois ou quatre containers doubles, chaque container double étant adapté à recevoir deux palettes standards disposées côte-à-côte au sein du container double. This reception space can be sized to receive four, six or eight containers arranged in two rows of two, three or four containers, each container being adapted to receive a standard pallet, in particular a pallet, a half-pallet or a quarter-pallet. ISO type (also called American or universal), EPAL / EUR (also called European), CP or VMF. As a variant, the reception space can be adapted to receive two, three or four double containers, each double container being adapted to receive two standard pallets arranged side by side within the double container.
Les containers peuvent être accrochés de façon amovible sur l'espace de réception. The containers can be detachably attached to the reception area.
Les containeurs peuvent avoir une section transversale de toute forme générale, circulaire ou non, avec méplat, polygonale, notamment carrée. The containers can have a cross section of any general shape, circular or not, with a flat, polygonal, in particular square.
Chaque navette peut comporter un toit qui s’étend au-dessus du ou des unités de chargement, et des cloisons avant et arrière sur lesquelles repose le toit et entre lesquelles sont disposées la ou les unités de chargement. Each shuttle may have a roof that extends above the loading unit (s), and front and rear bulkheads on which the roof rests and between which the loading unit (s) are disposed.
En variante, les navettes sont sans cloisons avant et arrière. As a variant, the shuttles are without front and rear partitions.
Chaque navette peut être ouverte sur les côtés. Each shuttle can be opened on the sides.
Le système automatisé de transport peut comporter au moins une navette équipée pour lutter contre l'incendie, de préférence entièrement dédiée à cette fonction. Cette navette peut comporter au moins un détecteur d’incendie plus sensible que ceux éventuellement présents sur les autres navettes non dédiées à cette fonction. Cette navette peut également comporter un réservoir contenant un produit d’extinction de l’incendie, tel que par exemple du dioxyde de carbone, et un système de projection de ce produit, par exemple une lance robotisée. Cette navette peut comporter un revêtement réfléchissant les infrarouges et une ou plusieurs caméras ou radar permettant une vision en présence de fumées.
La ou les navettes dédiées à la lutte contre l’incendie peuvent circuler en permanence sur l’infrastructure, à intervalles prédéfinis, ou être stationnées en des emplacements prédéfinis le long de l’infrastructure, et n’être mise en service qu’en cas de problème. The automated transport system may include at least one shuttle equipped to fight the fire, preferably entirely dedicated to this function. This shuttle may include at least one fire detector that is more sensitive than those possibly present on the other shuttles not dedicated to this function. This shuttle can also include a reservoir containing a product for extinguishing the fire, such as for example carbon dioxide, and a system for projecting this product, for example a robotic lance. This shuttle may include an infrared reflecting coating and one or more cameras or radar allowing vision in the presence of smoke. The dedicated fire-fighting shuttle (s) can run permanently on the infrastructure, at predefined intervals, or be parked in predefined locations along the infrastructure, and only be put into service in the event of of problem.
Le moyen moteur de chaque navette est de préférence suffisamment puissant pour lui permettre de pousser et/ou tracter au moins une navette qui précède ou qui suit, dont le moyen moteur serait défaillant, ce dépannage pouvant s’effectuer à une vitesse réduite. The motor means of each shuttle is preferably sufficiently powerful to allow it to push and / or tow at least one preceding or following shuttle, the motor means of which would be faulty, this troubleshooting being able to be carried out at a reduced speed.
Le système automatisé de transport peut comporter au moins une navette équipée pour l’entretien et/ou le dépannage d’au moins une autre navette. Cette navette peut disposer d’un moyen moteur plus puissant, permettant de tracter ou de pousser une ou plusieurs navettes à une vitesse relativement élevée. Cette navette peut également être équipée d’un système permettant de diagnostiquer la panne et/ou d’y suppléer. De préférence, chaque navette dispose d’au moins un connecteur pouvant être accouplé de façon automatique à un connecteur correspondant d’une autre navette ou de la navette dédiée à la fonction de dépannage, afin de faciliter l’échange d’informations, notamment en cas de défaillance de la connexion sans fil, et/ou pour permettre un transfert d’énergie entre les navettes, par exemple pour alimenter électriquement le moyen moteur de la navette défaillante. The automated transport system may include at least one shuttle equipped for the maintenance and / or troubleshooting of at least one other shuttle. This shuttle may have a more powerful motor means, making it possible to tow or push one or more shuttles at a relatively high speed. This shuttle can also be equipped with a system for diagnosing the failure and / or making up for it. Preferably, each shuttle has at least one connector which can be coupled automatically to a corresponding connector of another shuttle or of the shuttle dedicated to the breakdown function, in order to facilitate the exchange of information, in particular by case of failure of the wireless connection, and / or to allow energy transfer between the shuttles, for example to supply electrically the motor means of the faulty shuttle.
Au moins une navette sans chargement peut circuler au sein de l'infrastructure. Cette navette peut être intercalée entre des navettes circulant avec un chargement. Par exemple, une navette sans chargement peut être intercalée de manière régulière toutes les n navettes chargées qui se suivent, avec n entier supérieur ou égal à 2. Cette navette sans chargement peut jouer le rôle de relais de communication comme expliqué plus loin, ou peut servir à venir en aide à une navette chargée défaillante. At least one unloaded shuttle can circulate within the infrastructure. This shuttle can be inserted between shuttles traveling with a load. For example, a shuttle without loading can be inserted in a regular manner all the n loaded shuttles which follow one another, with n integer greater than or equal to 2. This shuttle without loading can play the role of communication relay as explained below, or can be used to come to the aid of a faulty loaded shuttle.
Chaque navette comporte de préférence un identifiant, qui peut être lu par les autres navettes et par l’infrastructure. Chaque navette peut comporter au moins un identifiant optique, par exemple sous forme de code à barres ou matriciel, et/ou au moins un identifiant détectable par radiofréquence, par exemple sous forme de puce RFID. Each shuttle preferably has an identifier, which can be read by the other shuttles and by the infrastructure. Each shuttle can include at least one optical identifier, for example in the form of a bar code or matrix, and / or at least one identifier detectable by radio frequency, for example in the form of an RFID chip.
Infrastructure de circulation des navettes Shuttle traffic infrastructure
L’infrastructure de circulation des navettes peut comporter au moins une voie de circulation des navettes le long de laquelle circulent les navettes, cette voie incluant notamment plusieurs tronçons, lesquels peuvent être pour certains totalement rectilignes par exemple.
Tout ou partie de l’infrastructure de circulation des navettes peut être enterrée.The shuttle traffic infrastructure may include at least one shuttle traffic lane along which the shuttles run, this lane including in particular several sections, some of which may be completely straight for example. All or part of the shuttle traffic infrastructure can be underground.
Les navettes peuvent circuler sur au moins une partie de l’infrastructure au sein d’un tunnel s’étendant notamment sous des fondations de bâtiments de surface et/ou des infrastructures souterraines ou non, préexistantes. The shuttles can run on at least part of the infrastructure within a tunnel extending in particular under the foundations of surface buildings and / or underground or not, pre-existing infrastructure.
Le tunnel est avantageusement enterré à une profondeur supérieure ou égale à 5 m. L'utilisation d’un tunnel dans l’invention permet de prévoir une profondeur d'enfouissement supérieure, par exemple supérieure à 20 m ou 30 m, voire supérieure ou égale à 35 m, 40m ou 50m ou plus, de façon à passer largement sous les fondations et infrastructures existantes et ne pas interférer avec celles-ci. The tunnel is advantageously buried at a depth greater than or equal to 5 m. The use of a tunnel in the invention makes it possible to provide a greater burial depth, for example greater than 20 m or 30 m, or even greater than or equal to 35 m, 40 m or 50 m or more, so as to pass widely under existing foundations and infrastructure and not interfere with them.
De préférence, le tunnel présente une section transversale de forme générale circulaire. Preferably, the tunnel has a cross section of generally circular shape.
Le tunnel peut être réalisé de diverses façons et par exemple comporter des tronçons assemblés les uns à la suite des autres, notamment de longueur comprise entre 2,5 et 3,5m, et d’épaisseur de paroi comprise entre 150 et 500 mm, ces tronçons étant de préférence agencés pour résister à une poussée de fonçage d’au moins 500 tonnes. En variante, le tunnel comporte des voussoirs assemblés. The tunnel can be produced in various ways and for example comprise sections assembled one after the other, in particular with a length of between 2.5 and 3.5 m, and a wall thickness of between 150 and 500 mm, these sections preferably being designed to withstand a sinking thrust of at least 500 tonnes. As a variant, the tunnel has assembled segments.
De préférence, les tronçons ou voussoirs sont au moins partiellement réalisés en béton armé, notamment avec une double nappe d’armatures. Preferably, the sections or segments are at least partially made of reinforced concrete, in particular with a double layer of reinforcement.
Le tunnel peut comporter un chemisage, notamment en métal. The tunnel may include a liner, in particular made of metal.
Dans un exemple de réalisation, une plus grande dimension intérieure du tunnel, en section transversale, notamment son diamètre intérieur, est comprise entre 1,5 m et 4 m, notamment entre 1,5 et 2,5 m ou entre 2,5 m et 4 m, par exemple entre 1,5 et 2,2 m ou entre 3 et 4 m. In an exemplary embodiment, a larger internal dimension of the tunnel, in cross section, in particular its internal diameter, is between 1.5 m and 4 m, in particular between 1.5 and 2.5 m or between 2.5 m and 4 m, for example between 1.5 and 2.2 m or between 3 and 4 m.
Lorsque l’infrastructure de circulation comporte au moins un tunnel, les navettes peuvent avoir en section transversale une forme générale épousant au moins partiellement celle du tunnel, et notamment peuvent comporter un berceau de réception d’au moins un containeur ou autre unité de chargement, de forme arquée concentrique avec la paroi du tunnel. Cela peut permettre d'utiliser au mieux le système en réduisant la section du tunnel non utilisée pour le transport de marchandises. When the traffic infrastructure comprises at least one tunnel, the shuttles may have in cross section a general shape at least partially matching that of the tunnel, and in particular may include a cradle for receiving at least one container or other loading unit, of arcuate shape concentric with the tunnel wall. This can allow the best use of the system by reducing the section of the tunnel not used for the transport of goods.
De plus, cela permet pour un volume de marchandises transporté égal, de minimiser la section extérieure du tunnel, et donc de faciliter sa réalisation. Compte-tenu de la longueur du tunnel, qui peut faire plusieurs kilomètres ou dizaines de kilomètres, toute
diminution de la section extérieure, même modeste, se répercute sur de façon significative sur le coût des travaux. In addition, this makes it possible, for an equal volume of goods transported, to minimize the outer section of the tunnel, and therefore to facilitate its construction. Given the length of the tunnel, which can be several kilometers or tens of kilometers, any reduction in the outer section, however modest, has a significant impact on the cost of the work.
L’infrastructure de circulation des navettes peut comporter, comme mentionné plus haut, au moins un câble d’entrainement pour entraîner les navettes sur au moins une partie de l’infrastructure. L’utilisation d’un câble d’entrainement permet de réduire le coût des navettes tout en disposant s’un système automatisé de transport rapide et fiable. The shuttle traffic infrastructure may include, as mentioned above, at least one drive cable to drive the shuttles over at least part of the infrastructure. The use of a drive cable reduces the cost of shuttles while providing a fast and reliable automated transportation system.
Le câble peut circuler entre deux extrémités d’un tronçon d’une voie de circulation. The cable can run between two ends of a section of a traffic lane.
Le câble d’entrainement peut être mis en mouvement par un ou plusieurs moteurs électriques. The drive cable can be set in motion by one or more electric motors.
Le câble disposé dans un tronçon peut faire plus de 1 km de long, par exemple au moins 4 km, mieux 6 km, par exemple 8 km ou plus, ce qui permet alors la réalisation d’un tronçon de 4 km ou plus puisque le câble circule dans un sens en tirant les navettes et dans l’autre à vide. Le câble peut être monté sur des poulies et des galets tenseurs, de façon analogue aux systèmes utilisés dans les téléskis ou télésièges. The cable arranged in a section can be more than 1 km long, for example at least 4 km, better 6 km, for example 8 km or more, which then allows the realization of a section of 4 km or more since the cable runs in one direction pulling the shuttles and in the other when empty. The cable can be mounted on pulleys and tension rollers, similar to the systems used in ski lifts or chair lifts.
Le câble d’entrainement peut être une corde, une chaîne, une courroie ou tout autre organe de traction. The drive cable can be a rope, chain, belt or any other traction device.
Le câble d’entrainement peut être situé au sol. Il peut également être situé en hauteur, au-dessus des navettes ou à côté de celles-ci. The drive cable can be located on the ground. It can also be located high up, above or next to the shuttles.
Le câble peut circuler à une vitesse supérieure ou égale à 5 m/s, mieux supérieure ou égale à 7 m/s, par exemple de l'ordre de 8 m/s ou plus. The cable can run at a speed greater than or equal to 5 m / s, better still greater than or equal to 7 m / s, for example of the order of 8 m / s or more.
Les navettes peuvent comporter des moyens pour s’accoupler et se désaccoupler de façon autonome ou non du câble d’entrainement, notamment en fonction d’une réserve d’énergie. En particulier, le moyen moteur des navettes peut servir à cette fonction, comme mentionné plus haut. The shuttles can include means for coupling and uncoupling independently or not from the drive cable, in particular as a function of an energy reserve. In particular, the motor means of the shuttles can be used for this function, as mentioned above.
Le couplage des navettes au câble d’entrainement peut être fixe ou débrayable. Par exemple, chaque navette comporte une pince mécanique débrayable qui se ferme ou s’ouvre pour attacher la navette au câble ou l’en libérer. Chaque navette peut ainsi être accélérée, notamment lors de son départ d'une station de chargement et/ou de déchargement, pour atteindre la vitesse du câble et progressivement réduire sa vitesse voire s’arrêter, notamment lors de son arrivée à la station de chargement et/ou de déchargement suivante.
Au moins une partie de infrastructure de circulation des navettes peut être ferrée. L’infrastructure peut alors être équipée de rails sur lesquels se déplacent les navettes. L’utilisation de rails est préférable lorsque les navettes sont tractées par un câble d’entrainement. Dans ce cas, le câble peut défiler entre les rails, parallèlement à ceux-ci, ce qui permet de gagner en compacité, et de monter le cas échéant la structure de guidage du câble sur un support commun avec les rails. The coupling of the shuttles to the drive cable can be fixed or disengageable. For example, each shuttle has a disengageable mechanical clamp which closes or opens to attach the shuttle to or release the cable. Each shuttle can thus be accelerated, in particular when it leaves a loading and / or unloading station, to reach the speed of the cable and gradually reduce its speed or even stop, in particular when it arrives at the loading station. and / or next unloading. At least part of the shuttle traffic infrastructure can be railroaded. The infrastructure can then be equipped with rails on which the shuttles move. The use of rails is preferable when the shuttles are towed by a drive cable. In this case, the cable can run between the rails, parallel to them, which makes it possible to gain in compactness, and if necessary to mount the cable guide structure on a common support with the rails.
Au moins une partie de l’infrastructure de circulation des navettes peut comporter une piste sur laquelle se déplacent les navettes, ces dernières étant équipées de pneus par exemple. At least part of the shuttle traffic infrastructure may have a track on which the shuttles travel, the latter being fitted with tires, for example.
L’infrastructure de circulation des navettes peut comporter au moins une voie de circulation, notamment au moins partiellement enterrée, sur laquelle les navettes circulent de préférence de façon unidirectionnelle. The shuttle traffic infrastructure may include at least one traffic lane, in particular at least partially buried, on which the shuttles preferably run unidirectionally.
La voie de circulation peut être en boucle fermée, notamment en forme de huit, avec le cas échéant une ou plusieurs pénétrantes. The traffic lane may be in a closed loop, in particular in the shape of a figure eight, with one or more penetrating, if necessary.
La boucle formée peut comporter une succession de tronçons dont la longueur est par exemple supérieure à 1 km. The loop formed may include a succession of sections the length of which is for example greater than 1 km.
La boucle peut comporter des tronçons rectilignes si on le souhaite, reliés par des virages qui assurent la liaison entre des tronçons rectilignes d’orientations différentes. The loop can include straight sections if desired, connected by bends which provide a link between straight sections of different orientations.
Dans le cas où la boucle est au moins partiellement enterrée, cela peut faciliter le creusement et la construction du tunnel ainsi que l’entraînement des navettes le long de la boucle. Par ailleurs, les tronçons rectilignes sont compatibles avec l’utilisation d’un système à câble pour tracter les navettes. In the event that the loop is at least partially buried, this may facilitate the digging and construction of the tunnel as well as the driving of shuttles along the loop. In addition, the straight sections are compatible with the use of a cable system to tow the shuttles.
Les virages que comporte la boucle peuvent se situer au niveau de stations de chargement et/ou déchargement des navettes. The bends in the loop can be located at the shuttle loading and / or unloading stations.
L’infrastructure de circulation des navettes peut comporter une voie de circulation en boucle en forme de « huit ». Shuttle traffic infrastructure may have a "figure eight" loop traffic lane.
Cette boucle en forme de « huit » peut comporter deux boucles secondaires, de préférence interconnectées. De préférence, l’interconnexion est telle qu’une navette peut sélectivement commander le ou les éléments de routage correspondants pour rester sur la même boucle secondaire ou passer sur l’autre boucle secondaire. This “eight” shaped loop may include two secondary loops, preferably interconnected. Preferably, the interconnection is such that a shuttle can selectively control the corresponding routing element (s) to remain on the same secondary loop or switch to the other secondary loop.
Chaque boucle secondaire peut être reliée à une ligne pénétrante. Each secondary loop can be connected to a penetrating line.
L’infrastructure peut comporter plus de deux boucles secondaires, le cas échant.
De préférence, chaque ligne pénétrante comporte deux voies de circulation (aller et retour) au sein d’un tunnel ou dans deux tunnels respectifs parallèles. The infrastructure can have more than two secondary loops, if necessary. Preferably, each penetrating line comprises two traffic lanes (outward and return) within a tunnel or in two respective parallel tunnels.
Ainsi, les navettes circulent de façon unidirectionnelle au sein de la boucle et de façon bidirectionnelle au sein des lignes pénétrantes. Thus, the shuttles circulate unidirectionally within the loop and bidirectionally within the penetrating lines.
Les navettes circulent avantageusement de façon unidirectionnelle sur au moins une partie de G infrastructure. Chaque tronçon est ainsi parcouru par des navettes qui circulent dans le même sens au sein de ce tronçon. Ainsi, lorsque l’infrastructure de circulation comporte au moins un tunnel, les navettes ne se croisent pas au sein du tunnel, ce qui permet d'adapter étroitement la section du tunnel à la section d’une navette chargée et de diminuer la section du tunnel non utile au transport des marchandises. Toutefois, l’invention n’exclut pas que les marchandises soient acheminées dans l’infrastructure à l’aide d’au moins une ligne où les marchandises embarquées sur navettes circulent de manière bidirectionnelle. Cette ligne peut être à deux voies au sein d’un tunnel ou à deux tunnels parallèles. The shuttles advantageously circulate unidirectionally over at least part of the infrastructure. Each section is thus traveled by shuttles which circulate in the same direction within this section. Thus, when the traffic infrastructure includes at least one tunnel, the shuttles do not cross each other within the tunnel, which makes it possible to closely adapt the section of the tunnel to the section of a loaded shuttle and reduce the section of the tunnel not useful for the transport of goods. However, the invention does not exclude that the goods are transported in the infrastructure using at least one line where the goods on board shuttles circulate in a bidirectional way. This line can be two-track within a tunnel or two parallel tunnels.
Lorsque l’infrastructure de circulation comporte au moins un virage reliant deux tronçons qui sont orientés dans des directions différentes faisant un angle non nul entre elles, l’infrastructure peut comporter au niveau du virage un système de routage tel qu’une plateforme tournante comportant une portion de voie mobile sur laquelle une navette peut se positionner. Cette plateforme tournante peut prendre une position où la voie mobile vient dans l’alignement d’une voie d’amenée des navettes, et une position où ladite voie mobile vient dans l’alignement de la voie du tronçon suivant à parcourir. L’utilisation d’une plateforme tournante permet de relier très facilement des tronçons ayant un angle important entre eux, et d’orienter les tronçons de façon à optimiser leur longueur. When the traffic infrastructure comprises at least one bend connecting two sections which are oriented in different directions making a non-zero angle between them, the infrastructure may include at the bend a routing system such as a rotating platform comprising a movable track portion on which a shuttle can position itself. This turntable can assume a position where the moving track comes into alignment with a shuttle infeed track, and a position where said moving track aligns with the track of the next section to be traveled. The use of a rotating platform makes it possible to very easily connect sections having a large angle between them, and to orient the sections in order to optimize their length.
L’infrastructure peut comporter un système d’entrainement auxiliaire permettant d’effectuer le virage recherché. Par exemple, les navettes peuvent être portées par des roulettes ou par un convoyeur à rouleaux ou véhiculées par tout autre système de convoyage permettant de faire prendre aux navettes des virages serrés. The infrastructure may include an auxiliary drive system to make the desired turn. For example, the shuttles can be carried by casters or by a roller conveyor or conveyed by any other conveying system making it possible to make the shuttles take tight turns.
L’infrastructure de circulation peut comporter au moins une zone de stationnement, notamment enterrée. Cette zone de stationnement peut être située à l’intérieur ou à l’extérieur, par exemple en bordure, de la voie de circulation. La zone de stationnement est de préférence suffisamment grande pour accueillir plusieurs navettes.
Une navette défaillante peut par exemple se diriger de manière autonome ou être amenée par au moins une autre navette dans la zone de stationnement de manière à s'extraire ou à être extraite de la voie de circulation. Cela peut permettre de réduire le risque d’un ralentissement voire d'un arrêt de la circulation des autres navettes au sein de G infrastructure causé par la navette défaillante. The traffic infrastructure may include at least one parking area, in particular underground. This parking zone can be located inside or outside, for example at the edge of the traffic lane. The parking area is preferably large enough to accommodate several shuttles. A faulty shuttle can for example steer independently or be brought by at least one other shuttle into the parking area so as to extract itself or to be extracted from the traffic lane. This can make it possible to reduce the risk of a slowing down or even of stopping the circulation of the other shuttles within the infrastructure caused by the faulty shuttle.
La zone de stationnement peut être configurée pour remettre en état une navette défaillante et être équipée d'un poste de maintenance. The parking area can be configured to repair a failed shuttle and be equipped with a maintenance station.
La zone de stationnement peut être configurée pour lutter contre un incendie survenant sur une navette et être équipée avec des moyens d'extinction et/ou des moyens d'aspiration permettant l'évacuation de gaz de combustion. La zone de stationnement peut être équipée d’une porte motorisée commandée depuis le système de supervision. The parking area can be configured to fight against a fire occurring on a shuttle and be equipped with extinguishing means and / or suction means allowing the evacuation of combustion gases. The parking area can be equipped with a motorized door controlled from the supervision system.
L’infrastructure de circulation des navettes peut comporter au moins une navette pré-stationnée sur la zone de stationnement, notamment une navette sans chargement ou une navette équipée pour lutter contre l'incendie et/ou pour l’entretien et/ou le dépannage d’au moins une autre navette, comme évoqué ci-dessus. La navette pré-stationnée peut rejoindre un site au sein de l'infrastructure pour intervenir en cas de nécessité, notamment pour lutter contre un incendie survenant sur une navette ou sur l'infrastructure et/ou pour pousser ou tracter une navette défaillante. Par exemple, la navette pré-stationnée peut intervenir pour pousser ou tracter jusqu'à une zone de stationnement une navette dont le moyen moteur est défaillant ou jusqu'à zone de stationnement configurée pour lutter contre l'incendie une navette sur laquelle un incendie survient. The shuttle traffic infrastructure may include at least one shuttle pre-parked in the parking area, in particular a shuttle without loading or a shuttle equipped to fight against fire and / or for maintenance and / or repair of vehicles. 'at least one other shuttle, as discussed above. The pre-parked shuttle can reach a site within the infrastructure to intervene if necessary, in particular to fight against a fire occurring on a shuttle or on the infrastructure and / or to push or tow a faulty shuttle. For example, the pre-parked shuttle can intervene to push or tow a shuttle with a faulty engine means to a parking zone or to a parking zone configured to fight against the fire a shuttle on which a fire occurs .
La zone de stationnement peut être équipée d'un système de trans-bordage permettant de transférer des marchandises d'une navette à une autre. Cela permet par exemple au niveau de la zone de stationnement le transfert des marchandises transportées par une navette dont le moyen moteur est défaillant à une navette sans chargement et dont le moyen moteur est fonctionnel. Ainsi, la continuité du transport des marchandises peut être assurée. The parking area can be equipped with a trans-bordage system to transfer goods from one shuttle to another. This allows, for example, at the level of the parking area, the transfer of goods transported by a shuttle whose motor means are faulty to a shuttle without loading and whose motor means are functional. Thus, the continuity of the transport of goods can be ensured.
La zone de stationnement peut être équipée de moyens permettant de recharger le moyen de stockage d'énergie de chaque navette. The parking area can be equipped with means making it possible to recharge the energy storage means of each shuttle.
La zone de stationnement peut être configurée pour permettre le dépassement entre navettes. Cela peut permettre par exemple à une navette équipée pour lutter contre l'incendie et/ou pour l’entretien et/ou le dépannage de pouvoir doubler une ou plusieurs
navettes qui précèdent de manière à accéder plus rapidement à son site d'intervention au sein de l'infrastructure. Cela peut également permettre par exemple à une navette à laquelle on a affecté un certain degré de priorité de pouvoir doubler la ou les navettes dont le degré de priorité est inférieur de manière à ce que cette navette puisse atteindre sa destination plus rapidement. The parking zone can be configured to allow overtaking between shuttles. This can allow, for example, a shuttle equipped to fight fire and / or for maintenance and / or repair to be able to double one or more shuttles that precede so as to access its intervention site more quickly within the infrastructure. This can also allow, for example, a shuttle to which a certain degree of priority has been assigned to be able to double the shuttle or shuttles whose degree of priority is lower so that this shuttle can reach its destination more quickly.
L’infrastructure de circulation des navettes est de préférence placée sous une atmosphère inerte ou sous une atmosphère d’oxygène réduite. En particulier, le niveau d’oxygène peut être inférieur de 15%, mieux 20% ou 50%, voire plus, au niveau nominal à l’air libre. Cela permet de limiter le risque d’incendie et de limiter le coût de l’infrastructure en ne rendant pas nécessaire certains dispositifs de sécurité qui seraient autrement imposés par les normes. The shuttle traffic infrastructure is preferably placed under an inert atmosphere or under a reduced oxygen atmosphere. In particular, the oxygen level can be 15% lower, better 20% or 50%, or even more, than the nominal level in the open air. This limits the risk of fire and lowers the cost of infrastructure by not requiring certain safety features that would otherwise be required by standards.
L’infrastructure de circulation des navettes peut comporter des moyens de communication, comme expliqué plus loin. The shuttle traffic infrastructure may include means of communication, as explained below.
L'infrastructure peut comporter au moins un capteur permettant l'identification des navettes qui passent à proximité. The infrastructure may include at least one sensor allowing the identification of the shuttles passing nearby.
L’infrastructure peut aussi comporter des identifiants lisibles, par exemple optiquement, par exemple des codes à barres, notamment 1D ou 2D, ou par radiofréquence, des puces RFID, répartis le long d’une partie au moins du trajet suivi par les navettes. Les navettes peuvent être configurées pour lire ces identifiants, ce qui permet à ces dernières en se référant à une table donnant la position de chaque identifiant au sein de l’infrastructure, de se localiser précisément au sein de celle-ci. Chaque navette peut comporter un lecteur optique ou radiofréquence permettant la lecture optique de ces identifiants. Ces derniers peuvent également permettre de réinitialiser un système de localisation intégré à la navette, de façon à permettre à cette dernière de connaître plus précisément sa position. The infrastructure can also include identifiers that are readable, for example optically, for example bar codes, in particular 1D or 2D, or by radio frequency, RFID chips, distributed along at least part of the path followed by the shuttles. The shuttles can be configured to read these identifiers, which allows them, by referring to a table giving the position of each identifier within the infrastructure, to be precisely located within it. Each shuttle can include an optical or radiofrequency reader allowing optical reading of these identifiers. These can also make it possible to reset a localization system integrated into the shuttle, so as to allow the latter to know its position more precisely.
L’infrastructure peut comporter un ou plusieurs anémomètres, notamment répartis le long d’une partie au moins du trajet suivi par les navettes. Cela peut permettre de déterminer les mouvements de masses d'air au sein de l’infrastructure. The infrastructure may include one or more anemometers, in particular distributed along at least part of the path followed by the shuttles. This can help determine the movement of air masses within the infrastructure.
L’infrastructure peut comporter des éléments de routage, tels qu’un aiguillage ou une plateforme tournante, notamment entre deux tronçons rectilignes, configurés pour permettre aux navettes de changer de voie circulation ou de se diriger vers une zone de stationnement.
Les éléments de routage peuvent comporter des moyens de communication, notamment radio, permettant leur commande à distance par le système de supervision centralisé ou au moins une navette. The infrastructure may include routing elements, such as a switch or a rotating platform, in particular between two straight sections, configured to allow the shuttles to change lanes or to move towards a parking area. The routing elements may include means of communication, in particular radio, allowing their remote control by the centralized supervision system or at least one shuttle.
Stations de chargement et/ou déchargement Loading and / or unloading stations
L’infrastructure de circulation des navettes peut comporter des stations de chargement et/ou déchargement des navettes communiquant avec la surface et comportant chacune un puits permettant la descente des marchandises et/ou des navettes jusqu’au tunnel et leur remontée après transport au sein du tunnel. The shuttle traffic infrastructure can include shuttle loading and / or unloading stations communicating with the surface and each comprising a shaft allowing the descent of goods and / or shuttles to the tunnel and their ascent after transport within the tunnel.
Au niveau des stations de chargement et/ou déchargement, la navette et son chargement peuvent être extraits de la boucle puis remontés ensemble en surface. La navette peut être alors déchargée de son chargement ou transportée avec son chargement sur un véhicule de surface. At the loading and / or unloading stations, the shuttle and its loading can be extracted from the loop and then brought together to the surface. The shuttle can then be unloaded from its load or transported with its load on a surface vehicle.
En variante, au niveau des stations de chargement et/ou déchargement, seul le chargement des navettes est remonté en surface. Dans le cas où la navette transporte un chargement constitué de plusieurs containers, une partie du chargement peut être remonté en surface à une station et une autre partie à une autre station. As a variant, at the loading and / or unloading stations, only the loading of the shuttles is brought up to the surface. In the event that the shuttle transports a load made up of several containers, part of the load can be brought up to the surface at one station and another part at another station.
La station de chargement et/ou déchargement peut être agencée pour faire effectuer un virage aux navettes qui circulent au sein de l'infrastructure de circulation. The loading and / or unloading station can be arranged to make a turn for the shuttles which circulate within the traffic infrastructure.
Le système de supervision peut gérer le chargement et/ou déchargement des navettes. The supervision system can manage the loading and / or unloading of the shuttles.
Intelligence embarquée Embedded intelligence
Chaque navette de transport du système selon l’invention dispose d’une intelligence embarquée. Each transport shuttle of the system according to the invention has on-board intelligence.
Par « intelligence embarquée », il faut comprendre que chaque navette comporte des moyens informatiques, tels qu’un microcalculateur, qui lui permettent d’assurer un certain nombre de fonctions de manière autonome. By "on-board intelligence", it should be understood that each shuttle has computer means, such as a microcomputer, which allow it to perform a number of functions independently.
Chaque navette peut comporter un dispositif électronique pouvant comporter au moins un capteur embarqué, un module de traitement embarqué et un module de communication embarqué. Each shuttle can include an electronic device that can include at least one on-board sensor, one on-board processing module and one on-board communication module.
Le capteur embarqué peut être configuré pour réaliser au moins une mesure relative à au moins un paramètre lié à l’état de la navette, tel que sa vitesse, sa localisation, le niveau d’usure d’un composant de celle-ci, l’autonomie restante de son moyen de stockage
d'énergie, la détection d’une défaillance d’un composant donné, et/ou à son environnement, par exemple la vitesse d'une navette qui précède ou qui suit, la composition qualitative et/ou quantitative de l’air environnant, le taux d’humidité, la pression, la température, le taux d’oxygène, de monoxyde de carbone ou de dioxyde de carbone dans l’air, etc., et pour générer une donnée numérique correspondante. The on-board sensor can be configured to perform at least one measurement relating to at least one parameter linked to the state of the shuttle, such as its speed, its location, the level of wear of a component thereof, the '' remaining autonomy of its storage medium of energy, the detection of a failure of a given component, and / or its environment, for example the speed of a shuttle which precedes or follows, the qualitative and / or quantitative composition of the surrounding air, the rate of humidity, pressure, temperature, rate of oxygen, carbon monoxide or carbon dioxide in the air, etc., and to generate a corresponding digital data.
Le module de traitement embarqué peut être configuré pour traiter, notamment en temps réel, les données générées par le ou les capteurs embarqués de la navette ou d’au moins une autre navette et/ou des informations transmises à la navette par le système de supervision centralisé et pour déclencher une action sur la navette le cas échéant, par exemple une action sur sa vitesse pour la réguler. The onboard processing module can be configured to process, in particular in real time, the data generated by the onboard sensor (s) of the shuttle or at least one other shuttle and / or information transmitted to the shuttle by the supervision system. centralized and to trigger an action on the shuttle if necessary, for example an action on its speed to regulate it.
Le module de traitement embarqué peut comporter au moins un processeur, un micro-processeur ou un microcontrôleur. Il peut également comporter un dispositif informatique comportant notamment un système d’exploitation et des codes logiciels. The on-board processing module can include at least one processor, one microprocessor or one microcontroller. It may also include a computer device comprising in particular an operating system and software codes.
Le traitement effectué par le module de traitement embarqué peut permettre la génération en temps réel d'un signal d'alerte lorsque les données générées par le ou les capteurs embarqués dépassent un seuil prédéfini. The processing carried out by the on-board processing module can allow the generation in real time of an alert signal when the data generated by the on-board sensor (s) exceeds a predefined threshold.
Le module de communication embarqué peut être configuré pour échanger des données, d’une part entre la navette et au moins une autre navette, et d’autre part, entre la navette et le système de supervision centralisé. Par exemple, le module de communication est agencé pour transmettre, à au moins une autre navette et/ou au système de supervision centralisé, des données brutes générées par le ou les capteurs embarqués et/ou les données générées par le ou les capteurs embarqués après prétraitement par le module de traitement. Le module de communication peut également être agencé pour recevoir ces données provenant d’au moins une autre navette et/ou des informations provenant du système de supervision centralisé. The on-board communication module can be configured to exchange data, on the one hand between the shuttle and at least one other shuttle, and on the other hand, between the shuttle and the centralized supervision system. For example, the communication module is arranged to transmit, to at least one other shuttle and / or to the centralized supervision system, raw data generated by the onboard sensor (s) and / or the data generated by the onboard sensor (s) afterwards. preprocessing by the processing module. The communication module can also be arranged to receive this data from at least one other shuttle and / or information from the centralized supervision system.
Le module de communication embarqué peut comporter au moins un émetteur- récepteur radio configuré pour communiquer avec au moins une autre navette et/ou avec le système de supervision centralisé. The on-board communication module may include at least one radio transceiver configured to communicate with at least one other shuttle and / or with the centralized supervision system.
Le dispositif électronique peut en outre comporter un module de stockage de données embarqué qui peut être configuré pour mémoriser les données générées par le ou les capteurs embarqués et/ou les données générées par le ou les capteurs embarqués et traitées par le module de traitement. Ce module de stockage de données embarqué peut
également permettre de stocker le système d’exploitation et les codes logiciels du module de traitement embarqué. Ce module de stockage de données peut comporter des moyens électroniques de stockage, notamment amovibles, tels qu'une mémoire ROM ou flash. The electronic device may further include an on-board data storage module which can be configured to store the data generated by the on-board sensor (s) and / or the data generated by the on-board sensor (s) and processed by the processing module. This on-board data storage module can also make it possible to store the operating system and the software codes of the on-board processing module. This data storage module may include electronic storage means, in particular removable, such as a ROM or flash memory.
Le dispositif électronique peut également comporter une interface apte à paramétrer ou configurer le dispositif. Par exemple, des paramétrages peuvent être réalisés par un terminal informatique connecté au dispositif localement via une connexion physique ou par un terminal informatique distant communiquant avec le dispositif à l’aide d’ondes hertziennes, notamment un terminal du système de supervision centralisé. Comme exemples d’actions à distance on peut citer une mise à jour du système d’exploitation et des codes logiciels du module de traitement, etc. The electronic device may also include an interface capable of parameterizing or configuring the device. For example, settings can be made by a computer terminal connected to the device locally via a physical connection or by a remote computer terminal communicating with the device using radio waves, in particular a terminal of the centralized supervision system. Examples of remote actions include updating the operating system and processing module software codes, etc.
Le ou les capteurs embarqués peuvent être configurés pour réaliser des mesures en continu. Ceci permet d'avoir un relevé complet et à tout moment des informations concernant les conditions liées à l’état de la navette et/ou à son environnement. Il est ainsi possible de contrôler en permanence par exemple la qualité de l'air au sein de l'infrastructure de circulation. The on-board sensor (s) can be configured to perform continuous measurements. This makes it possible to have a complete reading at all times of information concerning the conditions related to the state of the shuttle and / or its environment. It is thus possible to continuously monitor, for example, the quality of the air within the traffic infrastructure.
En variante, le ou les capteurs embarqués sont configurés pour réaliser des mesures de façon périodique selon une période déterminée. As a variant, the onboard sensor (s) are configured to carry out measurements periodically over a determined period.
L’intelligence embarquée sur chaque navette peut être agencée pour réagir à des informations transmises par le système de supervision centralisé et/ou par au moins une autre navette. The intelligence on board each shuttle can be arranged to react to information transmitted by the centralized supervision system and / or by at least one other shuttle.
L’intelligence embarquée sur chaque navette peut être agencée pour réagir en cas de dépassement d’un seuil détecté par le ou les capteurs embarqués de la navette et/ou d’au moins une autre navette. The intelligence on board each shuttle can be arranged to react in the event of a threshold being exceeded detected by the onboard sensor (s) of the shuttle and / or at least one other shuttle.
Le système de supervision centralisé peut être configuré pour permettre la commande des éléments de routage. The centralized supervision system can be configured to allow control of the routing elements.
En variante, ou additionnellement, l’intelligence embarquée sur chaque navette peut être configurée pour permettre la commande d’au moins une partie des éléments de routage par la navette elle-même, afin notamment de lui permettre de modifier son itinéraire de façon autonome. Par exemple, la navette peut être configurée pour commander elle-même la rotation de la plateforme tournante au niveau d’un virage ou des aiguillages dans le cas où la navette se déplace sur une voie ferrée. La navette peut émettre un signal de commande à destination d’un élément de routage, notamment lors de son approche dudit élément de
routage. Cela permet à la navette de changer de voie de circulation ou de se diriger vers une zone de stationnement le cas échéant, de façon autonome. La navette peut être agencée pour vérifier, avant de commander un élément de routage, qu’aucune navette ne circule devant elle en amont de l’élément de routage. Pour ce faire, elle peut être agencée pour déterminer à tout moment la position de la navette qui la précède, grâce par exemple à un échange d’informations avec cette dernière. Chaque navette peut par exemple émettre à destination des navettes qui suivent et précèdent un signal comportant son identifiant et sa position, ainsi que sa destination le cas échéant. As a variant, or additionally, the intelligence on board each shuttle can be configured to allow the control of at least part of the routing elements by the shuttle itself, in particular to allow it to modify its route independently. For example, the shuttle can be configured to itself control the rotation of the turntable at a bend or switches in the event that the shuttle is moving on a railway track. The shuttle can send a control signal to a routing element, in particular when approaching said routing element. routing. This allows the shuttle to change lanes or move to a parking area if necessary, independently. The shuttle can be arranged to check, before ordering a routing element, that no shuttle is traveling in front of it upstream of the routing element. To do this, it can be arranged to determine at any time the position of the shuttle which precedes it, for example by means of an exchange of information with the latter. Each shuttle can for example send to the shuttles which follow and precede a signal comprising its identifier and its position, as well as its destination, if applicable.
L’intelligence embarquée sur chaque navette peut être configurée pour permettre à celle-ci de se localiser au sein de l’infrastructure et par rapport aux autres navettes circulant au sein de l’infrastructure, notamment par rapport à la navette la précédant et la navette la suivant. Chaque navette peut être agencée pour maintenir une distance de sécurité prédéfinie avec la navette qui précède. The intelligence on board each shuttle can be configured to allow it to be located within the infrastructure and in relation to the other shuttles circulating within the infrastructure, in particular in relation to the shuttle preceding it and the shuttle. the next one. Each shuttle can be arranged to maintain a predefined safety distance with the preceding shuttle.
L’intelligence embarquée sur chaque navette peut être agencée pour gérer de façon autonome les phases d’accélération, de décélération et d’arrêt requises au voisinage des stations de chargement et/ou déchargement. Chaque navette peut transmettre aux navettes qui précèdent ou qui suivent un signal qui indique si la navette accélère ou décélère. Cela peut permettre aux autres navettes d’anticiper plus rapidement sur la variation de la distance entre elles et ainsi de régler plus vite leur allure, afin par exemple de maintenir une distance de sécurité prédéfinie. The intelligence on board each shuttle can be arranged to autonomously manage the acceleration, deceleration and stopping phases required in the vicinity of loading and / or unloading stations. Each shuttle can transmit to the shuttles preceding or following a signal that indicates whether the shuttle is accelerating or decelerating. This can allow other shuttles to anticipate more quickly the variation in the distance between them and thus to adjust their speed faster, for example in order to maintain a predefined safety distance.
L’intelligence embarquée sur chaque navette peut être agencée pour transmettre automatiquement des informations relatives au bon fonctionnement de la navette au système de supervision centralisé et/ou à au moins une autre navette. The intelligence on board each shuttle can be arranged to automatically transmit information relating to the proper functioning of the shuttle to the centralized supervision system and / or to at least one other shuttle.
Capteurs embarqués Embedded sensors
Chaque navette peut comporter au moins un capteur embarqué pouvant être de tout type. Each shuttle can include at least one on-board sensor which can be of any type.
Les signaux générés par certains capteurs embarqués peuvent servir à différentes fonctions. Par exemple, une caméra peut servir à localiser la navette par lecture d’ identifiants répartis au sein de l’infrastructure le long d’une partie au moins du trajet suivi par les navettes, à détecter un début de combustion par la présence de fumées, à détecter la présence d’une navette qui précède ou qui suit, à déterminer la distance séparant la navette ce cette navette qui précède ou qui suit, etc.
Chaque navette peut comporter au moins un capteur embarqué de mesure de la qualité de G environnement gazeux autour de la navette. Signals generated by some on-board sensors can be used for different functions. For example, a camera can be used to locate the shuttle by reading identifiers distributed within the infrastructure along at least part of the path followed by the shuttles, to detect the start of combustion by the presence of smoke, in detecting the presence of a preceding or following shuttle, in determining the distance separating the shuttle from this preceding or following shuttle, etc. Each shuttle can include at least one on-board sensor for measuring the quality of the gaseous environment around the shuttle.
Ce capteur embarqué peut être un capteur de composition qualitative et/ou quantitative de G environnement gazeux. Il est ainsi possible de contrôler la qualité de G environnement gazeux au sein de l'infrastructure, et notamment de détecter la présence voire quantifier des composés corrosifs, toxiques ou inflammables. Ceci est particulièrement important lorsque les navettes circulent dans un milieu confiné dans lequel le renouvellement de l'air est limité, ce qui est par exemple le cas lorsque l'infrastructure de circulation des navettes est souterraine et/ou lorsqu'elle comporte un tunnel. Il est ainsi possible de détecter un potentiel risque chimique, toxique, d'incendie ou d'explosion au sein de l'infrastructure de circulation des navettes. This on-board sensor can be a sensor of qualitative and / or quantitative composition of G gaseous environment. It is thus possible to control the quality of the gaseous environment within the infrastructure, and in particular to detect the presence or even quantify corrosive, toxic or flammable compounds. This is particularly important when the shuttles circulate in a confined environment in which the renewal of the air is limited, which is for example the case when the shuttle traffic infrastructure is underground and / or when it comprises a tunnel. It is thus possible to detect a potential chemical, toxic, fire or explosion risk within the shuttle traffic infrastructure.
Ce capteur embarqué peut encore être un capteur d’oxygène. Ceci permet d'obtenir une information relative au taux d'oxygène dans l’environnement gazeux, notamment autour de la navette circulant au sein de l'infrastructure. This on-board sensor can still be an oxygen sensor. This makes it possible to obtain information relating to the level of oxygen in the gaseous environment, in particular around the shuttle circulating within the infrastructure.
Ce capteur embarqué peut encore être un capteur de monoxyde de carbone (CO), de dioxyde de carbone (CO2), de monoxyde d'azote (NO) et/ou de dioxyde d'azote (NO2). Ce capteur peut être électrochimique ou spectroscopique. This on-board sensor can also be a carbon monoxide (CO), carbon dioxide (CO 2 ), nitrogen monoxide (NO) and / or nitrogen dioxide (NO 2 ) sensor. This sensor can be electrochemical or spectroscopic.
Ce capteur embarqué peut encore être un capteur de particules en suspension, notamment issues de combustions, de fumée et/ou de flamme. Cela peut permettre une détection précoce et rapide d'un incendie, ainsi que sa localisation précise. Chaque navette peut être agencée pour émettre un signal d’alerte en cas de détection de particules, de fumée ou de flamme, à destination des autres navettes et du système de supervision centralisé. Cela permet aux autres navettes de ralentir ou de s’arrêter, de façon à maintenir une distance de sécurité suffisante. Le signal d’alerte peut être retransmis par au moins une navette afin d’atteindre le système de supervision centralisé. Ce dernier peut recouper les informations transmises par des navettes présentes à des positions différentes au sein de l’infrastructure et les recouper éventuellement avec d’autres informations provenant de l’infrastructure, telle que par exemple des mouvements d’air observés dans les tunnels, de manière à identifier la source de dégagement de particules, de fumée et/ou de flamme, ce qui peut permettre d’intervenir plus rapidement et plus efficacement. This on-board sensor can also be a sensor of particles in suspension, in particular resulting from combustions, smoke and / or flame. This can allow early and rapid detection of a fire, as well as its precise location. Each shuttle can be arranged to emit an alert signal in the event of detection of particles, smoke or flame, to the other shuttles and to the centralized supervision system. This allows other shuttles to slow down or stop, so as to maintain a sufficient safety distance. The alert signal can be relayed by at least one shuttle to reach the centralized supervision system. The latter can cross-check the information transmitted by shuttles present at different positions within the infrastructure and possibly cross-check them with other information coming from the infrastructure, such as for example air movements observed in the tunnels, so as to identify the source of the release of particles, smoke and / or flame, which can allow a quicker and more efficient response.
Chaque navette peut comporter au moins un capteur embarqué de localisation de la navette.
Ce capteur embarqué peut être une roue codeuse, qui tourne proportionnellement à la distance parcourue par la navette au sein de G infrastructure. Cela peut permettre de déterminer la localisation de la navette au sein de G infrastructure, à partir de la connaissance d’une position de départ et de la distance parcourue depuis cette dernière. Each shuttle can include at least one on-board sensor for locating the shuttle. This on-board sensor can be an encoder wheel, which rotates in proportion to the distance traveled by the shuttle within G infrastructure. This can make it possible to determine the location of the shuttle within G infrastructure, from the knowledge of a starting position and the distance traveled since the latter.
Ce capteur embarqué peut encore être un tachymètre, notamment couplé à une horloge. Cela peut permettre d’obtenir une information relative à la vitesse de déplacement de la navette circulant au sein de l’infrastructure. This on-board sensor can also be a tachometer, in particular coupled to a clock. This can make it possible to obtain information relating to the speed of movement of the shuttle circulating within the infrastructure.
Ce capteur embarqué peut encore être un accéléromètre. Cela peut permettre d’aider à déterminer la position de la navette, de détecter d'éventuels chocs subis par la navette et donc d'éventuelles détériorations de la navette et/ou de son chargement, et de détecter lorsque la navette est en mouvement ou à l'arrêt. This on-board sensor can also be an accelerometer. This can help to determine the position of the shuttle, to detect possible shocks to the shuttle and therefore possible damage to the shuttle and / or its load, and to detect when the shuttle is moving or stopped.
Ce capteur embarqué peut encore être une caméra. Cela peut permettre la localisation de la navette par lecture d’ identifiants répartis au sein de l’infrastructure le long d’une partie au moins du trajet suivi par les navettes. This on-board sensor can still be a camera. This can allow the location of the shuttle by reading identifiers distributed within the infrastructure along at least part of the path followed by the shuttles.
Ce capteur embarqué peut encore être un identifiant, qui peut être lu par les autres navettes et par l’infrastructure. This on-board sensor can still be an identifier, which can be read by other shuttles and by the infrastructure.
Dans le cas où la navette comporte un élément de couplage à un câble d’entrainement, tel qu’une pince mécanique débrayable qui se ferme ou s’ouvre pour accrocher la navette au câble ou l’en libérer, cette dernière peut comporter un tensiomètre embarqué configuré pour mesurer la tension s’exerçant sur l’élément de couplage de la navette au câble d’entrainement. In the case where the shuttle comprises an element for coupling to a drive cable, such as a disengageable mechanical clamp which closes or opens to hook the shuttle to the cable or to release it, the latter may include a tensiometer on board configured to measure the tension on the coupling element of the shuttle to the drive cable.
L’intelligence embarquée sur la navette peut être agencée pour générer automatiquement, notamment en temps réel, un signal d'alerte lorsque la tension mesurée par le tensiomètre embarqué dépasse un seuil prédéfini. L’intelligence embarqué sur la navette peut également être agencée pour transmettre automatiquement, notamment en temps réel, le signal d’alerte généré au système de supervision centralisé et/ou à au moins une autre navette, notamment une navette précédant ou suivant. Un tel signal d’alerte peut permettre de détecter d’éventuelles anomalies sur l’infrastructure, telles que la présence d’un obstacle sur la voie de circulation, et/ou sur la navette, tels qu’un chargement trop lourd, un sous-gonflage d'un pneumatique ou encore une roue bloquée dans son mouvement de rotation, par exemple par un actionnement anormal de l’organe de freinage.
Chaque navette peut comporter au moins un capteur embarqué d’usure d’au moins un composant de la navette. Cela peut permettre de contrôler l’état d’usure des pièces mécaniques de la navette telles qu’un composant de son moyen moteur, son organe de freinage, ses roues ou pneumatiques éventuels, etc. The intelligence on board the shuttle can be arranged to automatically generate, in particular in real time, an alert signal when the voltage measured by the onboard blood pressure monitor exceeds a predefined threshold. The intelligence on board the shuttle can also be arranged to automatically transmit, in particular in real time, the alert signal generated to the centralized supervision system and / or to at least one other shuttle, in particular a preceding or following shuttle. Such a warning signal can make it possible to detect any anomalies on the infrastructure, such as the presence of an obstacle on the traffic lane, and / or on the shuttle, such as too heavy a load, an under inflating a tire or even a wheel blocked in its rotational movement, for example by abnormal actuation of the braking member. Each shuttle can include at least one on-board wear sensor of at least one component of the shuttle. This can make it possible to check the state of wear of the mechanical parts of the shuttle such as a component of its motor means, its braking member, its wheels or tires, if any, etc.
Chaque navette peut comporter au moins un capteur embarqué de vibrations. Cela peut permettre d'obtenir une information relative aux éventuels chocs subis par la navette au cours de son déplacement au sein de l’infrastructure. Il est alors possible de déterminer si la navette a subi un choc qui pourrait altérer son bon fonctionnement, et notamment de déterminer si son chargement a été endommagé. La détection de vibrations peut également renseigner sur un phénomène d’usure de certains composants ou de l’infrastructure, et permettre une maintenance prédictive. On peut traiter les signaux délivrés par les navettes afin de voir ceux qui sont corrélés à des défauts de l’infrastructure, dans le but d’effectuer une maintenance prédictive de celle-ci. Each shuttle can include at least one on-board vibration sensor. This can provide information on any shocks suffered by the shuttle during its movement within the infrastructure. It is then possible to determine whether the shuttle has undergone an impact which could impair its proper functioning, and in particular to determine whether its load has been damaged. Vibration detection can also provide information on the wear phenomenon of certain components or the infrastructure, and allow predictive maintenance. The signals delivered by the shuttles can be processed to see those that are correlated to infrastructure faults, in order to perform predictive maintenance of the infrastructure.
Chaque navette peut mesurer l’autonomie restante, et modifier le cas échéant son trajet en fonction de celle-ci. Each shuttle can measure the remaining autonomy, and if necessary modify its route according to it.
Dans le cas où l’infrastructure de circulation des navettes comporte au moins un tunnel, chaque navette peut comporter au moins un capteur embarqué de type convergencemètre. Il est ainsi possible de mesurer par exemple la déformation d’ovalisation de la section du tunnel. Chaque navette peut également comporter un ou plusieurs capteurs embarqués, notamment de type laser, configurés pour permettre l'inspection de l'état du tunnel, par exemple l'état des joints, des failles, des fissures, du béton, du revêtement du tunnel, etc. In the event that the shuttle traffic infrastructure includes at least one tunnel, each shuttle may include at least one onboard sensor of the converging meter type. It is thus possible to measure, for example, the deformation of the ovalization of the tunnel section. Each shuttle can also include one or more onboard sensors, in particular of the laser type, configured to allow inspection of the condition of the tunnel, for example the condition of the joints, faults, cracks, concrete, lining of the tunnel. , etc.
Dans le cas où au moins une partie de l’infrastructure de circulation des navettes est ferrée, chaque navette peut comporter un ou plusieurs capteurs embarqués, notamment de type laser, configurés pour permettre l'inspection de l'état des rails, par exemple l'écartement, le relèvement, la courbure, l'alignement, de l’état des traverses, de l'état des joints, etc. In the event that at least part of the shuttle traffic infrastructure is rail, each shuttle can include one or more onboard sensors, in particular of the laser type, configured to allow inspection of the condition of the rails, for example. 'gauge, bearing, curvature, alignment, condition of sleepers, condition of joints, etc.
Chaque navette peut comporter en outre au moins un capteur embarqué choisi parmi la liste suivante : radar hyperfréquence, télémètre laser, caméra, notamment infrarouge, lidar, capteur à ultrasons, capteur de luminosité, d’humidité, de pression, de température, de pesage, de vibrations, etc.
Le fait que chaque navette comporte au moins un capteur embarqué est particulièrement avantageux car cela permet à chaque navette de communiquer des informations relatives à son état (par exemple état de son moyen moteur, de son moyen de stockage d’énergie, de certains composants tels que des roulements, de l’état d’usure de ses pièces mécaniques, son autonomie, de détecter des défaillances, de se localiser, de connaître sa vitesse, son niveau d’accélération, sa distance avec les navettes la précédant et la suivant, etc.), à l’état d’au moins une autre navette, notamment une navette précédant ou suivant, et/ou à l’état de l’infrastructure de circulation (qualité de l’environnement gazeux, taux d’oxygène, d’humidité, température, état des parois du tunnel, état des rails, état des systèmes d’entraînement auxiliaires tels que câbles, moteurs roues, etc.). Each shuttle can also include at least one onboard sensor chosen from the following list: microwave radar, laser range finder, camera, in particular infrared, lidar, ultrasonic sensor, light, humidity, pressure, temperature, weighing sensor , vibrations, etc. The fact that each shuttle has at least one on-board sensor is particularly advantageous because it allows each shuttle to communicate information relating to its state (for example the state of its motor means, of its energy storage means, of certain components such as as bearings, the state of wear of its mechanical parts, its autonomy, to detect faults, to locate oneself, to know its speed, its level of acceleration, its distance from the shuttles preceding it and the following, etc.), in the state of at least one other shuttle, in particular a preceding or following shuttle, and / or in the state of the traffic infrastructure (quality of the gaseous environment, oxygen level, d (humidity, temperature, condition of tunnel walls, condition of rails, condition of auxiliary drive systems such as cables, wheel motors, etc.).
Du fait que les navettes circulent au sein de l’infrastructure, il est possible de déterminer l’état de l’infrastructure dans son ensemble grâce aux capteurs embarqués sur chaque navette. Cela permet de réduire le nombre de capteurs installés au sein de l’infrastructure, voire de disposer de tronçons d’infrastructure totalement dépourvus de capteurs ou de certains types de capteurs. Cela permet de réaliser l’infrastructure à moindre coût, de faciliter sa maintenance et d’améliorer sa fiabilité. Because the shuttles travel within the infrastructure, it is possible to determine the condition of the infrastructure as a whole using sensors onboard each shuttle. This makes it possible to reduce the number of sensors installed within the infrastructure, or even to have sections of the infrastructure totally devoid of sensors or certain types of sensors. This makes it possible to build the infrastructure at a lower cost, facilitate its maintenance and improve its reliability.
Système de supervision centralisé Centralized supervision system
Le système de supervision centralisé peut être passif ou actif. The centralized supervision system can be passive or active.
Lorsque le système de supervision centralisé est passif, ce dernier permet d'afficher des informations transmises par les navettes ou l'infrastructure au système de supervision centralisé, mais ne permet pas d'émettre des instructions destinées à contrôler de manière active l’infrastructure de circulation et les navettes. On a une transmission unidirectionnelle d'informations, qui se fait vers le système de supervision centralisé. Les navettes sont alors complètement autonomes. When the centralized supervision system is passive, it makes it possible to display information transmitted by the shuttles or the infrastructure to the centralized supervision system, but does not make it possible to issue instructions intended to actively control the infrastructure of traffic and shuttles. There is a unidirectional transmission of information, which is done to the centralized supervision system. The shuttles are then completely autonomous.
Lorsque que le système de supervision centralisé est actif, ce dernier permet non seulement l'affichage d'informations mais également d’envoyer des instructions de contrôle de l’infrastructure et/ou des navettes. On peut avoir une transmission bidirectionnelle d'informations entre les navettes et le système de supervision centralisé. Ce dernier peut contrôler dans une mesure plus ou moins grande le fonctionnement des navettes. Par exemple, les navettes peuvent fonctionner de façon autonome dans un mode non supervisé mais peuvent aussi être commandées à distance dans un mode supervisé, le système de supervision centralisé pouvant décider à tout moment du mode supervisé ou non d’une
navette. Le système de supervision centralisé peut être configuré pour permettre un pilotage à distance des navettes, notamment en cas de défaillance de leur intelligence embarquée. Par exemple, le système de supervision centralisé peut être configuré pour permettre de contrôler à distance la destination, l’itinéraire et/ou la vitesse de circulation des navettes. When the centralized supervision system is active, the latter not only makes it possible to display information but also to send infrastructure and / or shuttle control instructions. It is possible to have a two-way transmission of information between the shuttles and the centralized supervision system. The latter can control the operation of the shuttles to a greater or lesser extent. For example, the shuttles can operate autonomously in an unsupervised mode but can also be controlled remotely in a supervised mode, the centralized supervision system being able to decide at any time of the supervised mode or not of a shuttle bus. The centralized supervision system can be configured to allow remote control of the shuttles, in particular in the event of failure of their on-board intelligence. For example, the centralized supervision system can be configured to allow remote control of the destination, route and / or speed of the shuttles.
Le système de supervision centralisé peut comporter au moins un écran permettant l’affichage d’informations, notamment transmises par les navettes ou l'infrastructure au système de supervision centralisé. L'affichage de ces informations peut se faire en temps réel. Les informations affichées par le système de supervision centralisé peuvent être relatives aux navettes : leur identité, leur localisation, leur itinéraire, leur vitesse, leur destination, leur état de fonctionnement, par exemple affichage de l’autonomie restante, d'éventuelles défaillances, etc. Ces informations peuvent également être relatives à l’infrastructure : composition qualitative et/ou quantitative de l’air environnant, taux d’humidité, pression, température, taux d’oxygène, de monoxyde de carbone, de dioxyde de carbone dans l’air, affichage de la survenue d'incidents ou d'incendies au sein de l'infrastructure, etc. The centralized supervision system may include at least one screen allowing the display of information, in particular transmitted by the shuttles or the infrastructure to the centralized supervision system. The display of this information can be done in real time. The information displayed by the centralized supervision system may relate to the shuttles: their identity, their location, their route, their speed, their destination, their operating status, for example display of the remaining autonomy, any faults, etc. . This information can also relate to the infrastructure: qualitative and / or quantitative composition of the surrounding air, humidity level, pressure, temperature, oxygen, carbon monoxide and carbon dioxide levels in the air , display of the occurrence of incidents or fires within the infrastructure, etc.
Le système de supervision centralisé peut être configuré pour émettre une alerte, notamment lumineuse et/ou sonore, par exemple lorsqu'une défaillance est détectée sur une navette ou lors de la survenue d'un incident ou incendie au sein de l'infrastructure. The centralized supervision system can be configured to issue an alert, in particular light and / or sound, for example when a failure is detected on a shuttle or when an incident or fire occurs within the infrastructure.
Le système de supervision centralisé permet d'avoir une vision en temps réel de l'état de l'infrastructure dans son ensemble. Un opérateur peut ainsi surveiller en temps réel et à tout moment l'état de l'infrastructure et du trafic et être alerté en cas d'incidents. The centralized supervision system provides a real-time view of the state of the infrastructure as a whole. An operator can thus monitor in real time and at any time the state of the infrastructure and the traffic and be alerted in the event of incidents.
Réseau de communication Communication network
Le système selon l’invention comporte au moins un réseau de communication permettant aux navettes de communiquer entre elles et avec le système de supervision centralisé, notamment par radio, courant porteur, optiquement ou toute combinaison de ces moyens de transmission. The system according to the invention comprises at least one communication network allowing the shuttles to communicate with each other and with the centralized supervision system, in particular by radio, powerline, optically or any combination of these transmission means.
De préférence, le réseau de communication comporte des moyens de transmission radio et des moyens de transmission filaire de secours configurés pour prendre le relais en cas de défaillance des moyens de transmission radio. Preferably, the communication network comprises radio transmission means and emergency wire transmission means configured to take over in the event of failure of the radio transmission means.
Le réseau de communication peut également permettre aux navettes de communiquer avec un ou plusieurs éléments de l'infrastructure permettant leur entrainement ou leur routage ou la préhension des marchandises. Cette communication entre une navette
et un élément de l'infrastructure peut se faire directement, ou indirectement, soit par l'intermédiaire d'une autre navette, soit par l'intermédiaire du système de supervision centralisé. Cela permet d'avoir une redondance des modes de communication qui est particulièrement avantageuse en cas de défaillance de l'un des modes de communication. The communication network can also allow the shuttles to communicate with one or more elements of the infrastructure allowing their training or their routing or the gripping of goods. This communication between a shuttle and an element of the infrastructure can be done directly, or indirectly, either through another shuttle, or through the centralized supervision system. This makes it possible to have a redundancy of the communication modes which is particularly advantageous in the event of failure of one of the communication modes.
L’infrastructure de circulation peut comporter des moyens de communication, tel qu'un ou plusieurs émetteurs-récepteurs radio, de préférence répartis le long d’une partie au moins du trajet suivi par les navettes, configurés pour permettre aux navettes d’échanger des informations avec le système de supervision centralisé. The traffic infrastructure may include means of communication, such as one or more radio transceivers, preferably distributed along at least part of the path followed by the shuttles, configured to allow the shuttles to exchange information. information with the centralized supervision system.
Chaque navette peut comporter un module de communication embarqué comportant au moins un émetteur-récepteur radio configuré pour communiquer avec au moins une autre navette et/ou le système de supervision centralisé. Each shuttle can include an on-board communication module comprising at least one radio transceiver configured to communicate with at least one other shuttle and / or the centralized supervision system.
Chaque navette peut être configurée pour communiquer avec au moins une autre navette, de préférence avec au moins deux autres navettes, notamment une navette qui la précède et une navette qui la suit. Each shuttle can be configured to communicate with at least one other shuttle, preferably with at least two other shuttles, in particular a shuttle which precedes it and a shuttle which follows it.
Chaque navette peut être configurée pour communiquer avec le système de supervision centralisé. Each shuttle can be configured to communicate with the centralized supervision system.
Pour au moins une partie du trajet d’une navette au sein de l’infrastructure, au moins une information transmise par la navette au système de supervision centralisé ou inversement peut passer exclusivement par une autre navette qui relaie cette information. For at least part of the journey of a shuttle within the infrastructure, at least one piece of information transmitted by the shuttle to the centralized supervision system or vice versa can pass exclusively through another shuttle which relays this information.
Chaque navette peut être agencée pour relayer les signaux transmis par d’autres navettes. Les signaux relayés peuvent ainsi passer de navette en navette jusqu’à des bornes de communication avec l’infrastructure et/ou le système de supervision centralisé. Le fait de relayer l’information par les navettes peut permettre de réduire le nombre de relais radio au sein de l’infrastructure, et de diminuer son coût tout en facilitant sa maintenance. Les bornes de communication sont par exemple situées dans les stations d’échange avec la surface. Each shuttle can be arranged to relay signals transmitted by other shuttles. The relayed signals can thus pass from shuttle to shuttle to communication terminals with the infrastructure and / or the centralized supervision system. Relaying information by shuttles can reduce the number of radio relays within the infrastructure, and reduce its cost while facilitating its maintenance. Communication terminals are for example located in exchange stations with the surface.
Dans le cas où l’infrastructure de circulation des navettes comporte au moins un tunnel, l’utilisation d’une transmission radio (encore appelée transmission hertzienne) est avantageuse car elle permet d’utiliser le tunnel comme un guide d’onde, ce qui peut accroître la portée de la transmission. In the case where the shuttle traffic infrastructure comprises at least one tunnel, the use of radio transmission (also called microwave transmission) is advantageous because it allows the tunnel to be used as a waveguide, which can increase the range of transmission.
Si nécessaire, l’infrastructure de circulation peut comporter des répéteurs radio ou optique, de préférence répartis le long d’une partie au moins du trajet suivi par les
navettes. Cela peut permettre la propagation des ondes à grande distance et l’amélioration de la communication par exemple entre deux navettes très éloignées l’une de l’autre. If necessary, the traffic infrastructure may include radio or optical repeaters, preferably distributed along at least part of the path followed by the traffic. Shuttle Buses. This can allow the propagation of waves at great distances and the improvement of communication, for example between two shuttles very distant from each other.
L'infrastructure ainsi que chaque navette peut comporter en outre des émetteurs- récepteurs radio de secours configurés pour prendre le relais en cas de défaillance. The infrastructure as well as each shuttle can also include emergency radio transceivers configured to take over in the event of failure.
Le réseau de communication peut comporter un système de sécurisation des données échangées par des techniques de cryptage et/ou authentification. The communication network may include a system for securing the data exchanged by encryption and / or authentication techniques.
Au moins un tronçon de l’infrastructure peut ne pas être équipé de moyens de communication. At least one section of the infrastructure may not be equipped with means of communication.
Les moyens de communication que comporte l'infrastructure peuvent être concentrés au niveau des stations de chargement/déchargement. Le système de supervision centralisé peut communiquer directement avec les navettes présentes au voisinage des stations de chargement et/ou déchargement. Comme mentionné ci-dessus, chaque navette peut être configurée pour communiquer avec au moins une autre navette. Dans ce cas, les informations inchangées entre le système de supervision centralisé et les navettes présentes au voisinage des stations de chargement et/ou déchargement peuvent être transmises de proche en proche aux autres navettes présentes au sein de l'infrastructure. Cela permet de disposer de tronçons dépourvus de moyens de communication, car ce sont les navettes elles- mêmes qui jouent le rôle de relais de communication. The means of communication in the infrastructure can be concentrated at the loading / unloading stations. The centralized supervision system can communicate directly with the shuttles present in the vicinity of the loading and / or unloading stations. As mentioned above, each shuttle can be configured to communicate with at least one other shuttle. In this case, the unchanged information between the centralized supervision system and the shuttles present in the vicinity of the loading and / or unloading stations can be transmitted step by step to the other shuttles present within the infrastructure. This makes it possible to have sections without means of communication, since it is the shuttles themselves which play the role of communication relays.
Des informations d’un certain type peuvent être échangées entre les navettes et le système de supervision centralisé lorsque les navettes sont présentes dans les stations de chargement/déchargement, notamment des informations sur la destination des navettes et/ou des informations concernant un diagnostic de l'état de fonctionnement des navettes. On peut profiter d’une communication directe entre une navette et une borne de communication de l’infrastructure pour transmettre un débit plus important d’informations depuis la navette vers le système de supervision centralisé ou depuis ce dernier vers la navette. Lorsque la communication entre une navette et le système de supervision centralisé se fait de façon indirecte en étant relayée par au moins une autre navette, le débit de transmission peut être plus faible. L’intelligence embarquée de chaque navette peut ainsi être agencée pour détecter si elle établie une communication directe avec une borne de communication ou non, et la nature des informations émises depuis la navette vers le système de supervision centralisé peut se faire en fonction du résultat de cette détection. Par exemple, si une navette détermine qu’elle ne peut communiquer directement avec une borne de communication de
G infrastructure, le débit d’informations émises demeure limité et les informations transmises concernent par exemple l’identité, la position et la vitesse. Si la navette détecte qu’elle est en communication directe avec la borne de communication, les informations transmises comportent par exemple des informations additionnelles, telles que par exemple les mesures de certains capteurs utiles pour effectuer de la maintenance prédictive. Information of a certain type can be exchanged between the shuttles and the centralized supervision system when the shuttles are present in the loading / unloading stations, in particular information on the destination of the shuttles and / or information concerning a diagnosis of the traffic. operating status of the shuttles. Direct communication between a shuttle and an infrastructure communication terminal can be used to transmit a greater flow of information from the shuttle to the centralized supervision system or from the latter to the shuttle. When the communication between a shuttle and the centralized supervision system is done indirectly by being relayed by at least one other shuttle, the transmission rate may be lower. The on-board intelligence of each shuttle can thus be arranged to detect whether it establishes direct communication with a communication terminal or not, and the nature of the information sent from the shuttle to the centralized supervision system can be determined according to the result of this detection. For example, if a shuttle determines that it cannot communicate directly with a communication terminal of G infrastructure, the flow of information transmitted remains limited and the information transmitted relates for example to identity, position and speed. If the shuttle detects that it is in direct communication with the communication terminal, the information transmitted includes for example additional information, such as for example the measurements of certain sensors useful for performing predictive maintenance.
Le système de supervision peut transmettre des informations, notamment des ordres, aux navettes et/ou aux stations, relatives notamment au chargement et/ou au déchargement des navettes, via le réseau de communication et en particulier cette information peut transiter par l’intermédiaire d’au moins une navette. The supervision system can transmit information, in particular orders, to the shuttles and / or stations, relating in particular to the loading and / or unloading of the shuttles, via the communication network and in particular this information can pass through the intermediary of 'at least one shuttle.
Vision en temps réel de l’état de l’infrastructure dans son ensemble Real-time view of the state of the infrastructure as a whole
Comme évoqué ci-dessus, l’intelligence embarquée sur chaque navette peut être agencée pour transmettre, notamment en temps réel et en permanence, tout ou partie de l’information provenant du ou des capteurs embarqués au système de supervision centralisé, permettant une vision en temps réel et en permanence de l’état de l’infrastructure de circulation des navettes dans son ensemble grâce aux informations fournies par les navettes. As mentioned above, the intelligence on board each shuttle can be arranged to transmit, in particular in real time and permanently, all or part of the information coming from the onboard sensor (s) to the centralized supervision system, allowing an in-line view. real time and permanently the state of the shuttle traffic infrastructure as a whole thanks to the information provided by the shuttles.
Chacune des navettes circulant au sein de l’infrastructure peut transmettre en permanence au système de supervision centralisé l’information provenant d’un ou plusieurs capteurs embarqués, et en cas de dépassement de seuils prédéfinis détectés par ce ou ces capteurs embarqués, un signal d’alerte peut être transmis au système de supervision centralisé. Each of the shuttles circulating within the infrastructure can permanently transmit to the centralized supervision system the information coming from one or more on-board sensors, and in the event of the predefined thresholds detected by this or these on-board sensors being exceeded, a signal of The alert can be transmitted to the centralized supervision system.
Il est ainsi possible de détecter une anomalie sur l’infrastructure de circulation et/ou les navettes suffisamment tôt de manière à pouvoir anticiper toute panne ou défaillance qui entraînerait un ralentissement ou un arrêt de la circulation des navettes au sein de l’infrastructure. It is thus possible to detect an anomaly on the traffic infrastructure and / or the shuttles early enough so as to be able to anticipate any breakdown or failure that would cause a slowing or stopping of the movement of the shuttles within the infrastructure.
La maintenance est de préférence hyper-prédictive, ce qui permet d’améliorer la robustesse et la fiabilité du système automatisé de transport, en permettant de prévenir les défaillances et pannes, en réduisant les coûts de réparation et d’intervention et en maximisant la durée de vie du système de transport. Maintenance is preferably hyper-predictive, which makes it possible to improve the robustness and reliability of the automated transport system, by making it possible to prevent failures and breakdowns, by reducing repair and intervention costs and by maximizing the duration life of the transport system.
L’intelligence embarquée sur chaque navette peut être agencée pour traiter l’information provenant du ou des capteurs embarqués afin de déterminer si cette information signale un incendie, et si oui de discriminer si cet incendie provient de l’infrastructure, de la navette elle-même ou d’une navette qui précède ou qui suit.
Par exemple, le dépassement d’un seuil prédéfini détecté par le capteur embarqué de température, de monoxyde de carbone, de dioxyde de carbone, de fumée et/ou de flamme peut permettre de détecter une température anormalement élevée, la présence de flamme et/ou de fumée, ce qui peut notamment permettre de détecter un incendie au sein du système de transport. En cas de détection probable d’un incendie, la navette peut interroger les autres navettes qui la précèdent ou la suivent afin de savoir si ces autres navettes ont détectées également la même chose. Si oui, une information correspondante peut être remontée au système de supervision centralisé. Cela peut permettre de lever plus rapidement le doute sur la réalité de l’incident. The intelligence on board each shuttle can be arranged to process the information coming from the onboard sensor (s) in order to determine whether this information indicates a fire, and if so to discriminate whether this fire comes from the infrastructure, from the shuttle itself. same or a shuttle that precedes or follows. For example, exceeding a predefined threshold detected by the on-board temperature, carbon monoxide, carbon dioxide, smoke and / or flame sensor can make it possible to detect an abnormally high temperature, the presence of flame and / or smoke, which can in particular make it possible to detect a fire within the transport system. In case of probable detection of a fire, the shuttle can interrogate the other shuttles which precede or follow it in order to know if these other shuttles have also detected the same thing. If so, corresponding information can be fed back to the centralized supervision system. This can help to clear up any doubt about the reality of the incident more quickly.
Gestion et optimisation du flux de circulation Management and optimization of traffic flow
De préférence, l’intelligence embarquée sur chaque navette est agencée pour permettre une régulation et une optimisation de la vitesse et du niveau d’accélération/décélération de la navette, notamment en fonction de la vitesse et du niveau d’accélération/décélération des navettes qui la précède et la suit. Cela permet d’optimiser le flux de circulation des navettes au sein de l’infrastructure de circulation. Cela permet également d’éviter des phases de freinage/accélération trop fortes et de maintenir des distances suffisantes entre les navettes. Un allongement de l’autonomie des navettes ainsi qu’une diminution de l’usure de leurs composants mécaniques peuvent être obtenus. Preferably, the intelligence on board each shuttle is arranged to allow regulation and optimization of the speed and the level of acceleration / deceleration of the shuttle, in particular as a function of the speed and of the level of acceleration / deceleration of the shuttles. which precedes it and follows it. This optimizes the flow of shuttle traffic within the traffic infrastructure. This also makes it possible to avoid excessive braking / acceleration phases and to maintain sufficient distances between the shuttles. An extension of the autonomy of the shuttles as well as a reduction in the wear of their mechanical components can be obtained.
De préférence, chaque navette comporte au moins un capteur embarqué de distance, notamment un capteur radar, lidar ou ultrasons pour déterminer la distance entre la navette et celle qui la précède et celle qui la suit, et la navette est agencée pour communiquer au moins avec la navette qui précède et la navette qui suit. Cela permet une régulation et une optimisation de la vitesse de la navette en fonction du trafic au sein de l’infrastructure de circulation, notamment pour éviter les collisions entre navettes. En particulier, chaque navette peut gérer de façon autonome sa vitesse pour maintenir la distance de sécurité qui convient avec les autres navettes qui circulent dans l’infrastructure. Preferably, each shuttle comprises at least one on-board distance sensor, in particular a radar, lidar or ultrasound sensor to determine the distance between the shuttle and that which precedes it and that which follows it, and the shuttle is arranged to communicate at least with the shuttle that precedes and the shuttle that follows. This allows the speed of the shuttle to be regulated and optimized as a function of the traffic within the traffic infrastructure, in particular to avoid collisions between shuttles. In particular, each shuttle can autonomously manage its speed to maintain the appropriate safety distance from the other shuttles that circulate in the infrastructure.
La régulation et l’optimisation de la vitesse de la navette peuvent également être effectuées en fonction de spécificités propres au trajet suivi par la navette, notamment la présence de virages, de tronçon en pente, de la masse embarquée, de l’autonomie restante, etc. The regulation and optimization of the speed of the shuttle can also be carried out according to specific features of the route followed by the shuttle, in particular the presence of turns, of sloping section, of the on-board weight, of the remaining range, etc.
Gestion des défaillances
L’intelligence embarquée sur chaque navette est avantageusement agencée pour détecter une défaillance de la navette et/ou d’au moins une autre navette et/ou de l’infrastructure, et notamment assurer de façon autonome la gestion de la défaillance ainsi détectée. Failure management The intelligence on board each shuttle is advantageously arranged to detect a failure of the shuttle and / or of at least one other shuttle and / or of the infrastructure, and in particular to autonomously manage the failure thus detected.
L’intelligence embarquée sur chaque navette peut être agencée pour signaler la défaillance ainsi détectée à au moins une autre navette et/ou au système de supervision centralisée. The intelligence on board each shuttle can be arranged to signal the failure thus detected to at least one other shuttle and / or to the centralized supervision system.
Une défaillance est par exemple une navette dont le moyen moteur et/ou au moins un capteur embarqué est défaillant. Un autre exemple de défaillance est une navette qui ne transmet plus certains types d’informations, voire qui ne transmet plus aucune information, aux autres navettes et/ou au système de supervision centralisé. Une défaillance peut encore être un dépassement d’un seuil prédéfini détecté par un capteur embarqué d’une navette. A failure is for example a shuttle whose motor means and / or at least one onboard sensor is defective. Another example of a failure is a shuttle that no longer transmits certain types of information, or even that no longer transmits any information, to other shuttles and / or to the centralized supervision system. A failure can also be an exceeding of a predefined threshold detected by an onboard sensor of a shuttle.
L’intelligence embarquée sur chaque navette peut être agencée pour permettre à une navette défaillante de modifier automatiquement et de façon autonome sa destination, notamment pour rejoindre la zone de stationnement ou la station de chargement/déchargement la plus proche. The intelligence on board each shuttle can be arranged to allow a faulty shuttle to automatically and autonomously change its destination, in particular to reach the nearest parking area or loading / unloading station.
En fonction d’un degré de priorité affecté à la navette défaillante, les marchandises transportées par celle-ci peuvent être transférées à une autre navette sans chargement présente au sein de l’infrastructure ou la navette défaillante peut être poussée ou tractée par au moins une autre navette. Depending on a degree of priority assigned to the faulty shuttle, the goods transported by it can be transferred to another shuttle without loading present within the infrastructure or the faulty shuttle can be pushed or towed by at least one another shuttle.
Une navette défaillante peut assurer la gestion de sa défaillance seule ou en coopération avec au moins une autre navette. A failed shuttle can manage its failure alone or in cooperation with at least one other shuttle.
Par exemple, l’intelligence embarquée sur chaque navette est agencée pour permettre à une navette défaillante de se diriger automatiquement et de façon autonome vers une zone de stationnement prédéfinie ou la plus proche de la navette. La navette peut recevoir de façon périodique une liste des zones de stationnement disponibles en cas de défaillance, ce qui lui permet de déterminer la plus proche. Cela permet de retirer rapidement de la voie de circulation une navette défaillante, de manière à réduire le risque d’un ralentissement ou arrêt de la circulation des autres navettes au sein de l’infrastructure. For example, the intelligence onboard each shuttle is arranged to allow a failed shuttle to automatically and autonomously navigate to a predefined parking area or closest to the shuttle. The shuttle can periodically receive a list of available parking areas in the event of a fault, which enables it to determine the closest. This allows a failed shuttle to be quickly removed from the lane, reducing the risk of slowing or stopping the flow of other shuttles within the infrastructure.
En variante, l’intelligence embarquée sur chaque navette est agencée pour permettre à une navette défaillante d’être amenée par une ou plusieurs autres navettes vers
la zone de stationnement. Dans ce cas, un dialogue peut s’établir entre la navette défaillante et une navette qui suit ou qui précède ; cette navette peut se rapprocher de la navette défaillance et s’accrocher à celle-ci pour la pousser ou la tracter. As a variant, the intelligence on board each shuttle is arranged to allow a faulty shuttle to be brought by one or more other shuttles to the parking area. In this case, a dialogue can be established between the faulty shuttle and a shuttle which follows or which precedes; this shuttle can move closer to the faulty shuttle and hook onto it to push or tow it.
Transport de marchandises Haulage
Le système peut comporter au moins un container de transport de marchandises ou, le cas échéant, une cabine de transport de personnes telles que du personnel de maintenance, voire des passagers, configuré pour être transporté par une navette et comportant un circuit informatique capable de transmettre automatiquement à la navette qui le ou la transporte et/ou au système de supervision centralisé au moins une information sur la destination, la provenance, le destinataire, l’expéditeur, la valeur marchande, le degré de priorité, la nature et/ou le poids du chargement à l’intérieur. The system can include at least one container for transporting goods or, where appropriate, a cabin for transporting people such as maintenance personnel, or even passengers, configured to be transported by a shuttle and comprising a computer circuit capable of transmitting. automatically to the shuttle which transports it and / or to the centralized supervision system at least one information on the destination, origin, recipient, sender, market value, degree of priority, nature and / or load weight inside.
Ladite information peut encore être relative à la température mesurée à l’intérieur du container, notamment la température actuelle mesurée et/ou un historique des températures mesurées, notamment depuis le chargement des marchandises dans le container. Le container peut ainsi comporter un capteur de température configuré pour mesurer, notamment de manière périodique ou continue, la température à l’intérieur du container et un module de stockage de données configuré pour enregistrer un historique des températures mesurées Said information may also relate to the temperature measured inside the container, in particular the current temperature measured and / or a history of the temperatures measured, in particular since the loading of the goods into the container. The container can thus include a temperature sensor configured to measure, in particular periodically or continuously, the temperature inside the container and a data storage module configured to record a history of the measured temperatures
L’intelligence embarquée sur chaque navette peut être agencée pour générer automatiquement, notamment en temps réel, un signal d'alerte lorsque la température actuelle dépasse ou lorsque l’historique révèle que la température a dépassé un seuil prédéfini, transmettre automatiquement, notamment en temps réel, le signal d’alerte généré au système de supervision centralisé et/ou à au moins une autre navette, notamment une navette précédant ou suivant, et le cas échéant augmenter le degré de priorité affecté au container de manière à assurer une livraison plus rapide du container à sa destination finale. The intelligence on board each shuttle can be arranged to automatically generate, especially in real time, an alert signal when the current temperature exceeds or when the history reveals that the temperature has exceeded a predefined threshold, transmit automatically, in particular in time real, the alert signal generated to the centralized supervision system and / or to at least one other shuttle, in particular a preceding or following shuttle, and if necessary increase the degree of priority assigned to the container so as to ensure faster delivery from the container to its final destination.
Ladite information peut également être relative au volume, aux dimensions, au nombre de colis contenus à l’intérieur du container et/ou à un éventuel caractère spécifique des marchandises, tel qu’un caractère fragile, périssable et/ou dangereux, par exemple un risque chimique ou incendie. Said information may also relate to the volume, dimensions, number of packages contained inside the container and / or a possible specific nature of the goods, such as a fragile, perishable and / or dangerous nature, for example a chemical hazard or fire.
Ladite information peut encore être relative au transporteur de surface amont (i.e. transporteur de surface amenant les marchandises jusqu’à l’entrée du système) et/ou
aval (i.e. transporteur de surface amenant les marchandises de la sortie du système jusqu’à leur destination finale), notamment relative à leur identité et/ou leur nature. Said information may also relate to the upstream surface conveyor (ie surface conveyor bringing the goods to the entry of the system) and / or downstream (ie surface transporter bringing the goods from the exit of the system to their final destination), in particular relating to their identity and / or their nature.
Chaque navette peut être configurée pour adapter automatiquement sa destination, sa vitesse de circulation, son niveau d’accélération/décélération, sa distance avec les navettes la précédant et la suivant, en fonction de ladite information. Each shuttle can be configured to automatically adapt its destination, its speed of movement, its level of acceleration / deceleration, its distance from the shuttles preceding it and the following, according to said information.
Chaque navette peut être configurée pour adapter automatiquement sa vitesse de circulation et/ou son niveau d’accélération/décélération en fonction du poids du chargement contenu dans le container ou la cabine qu’elle transporte de manière à prolonger la durabilité des pièces mécaniques de la navette. Each shuttle can be configured to automatically adapt its speed of movement and / or its level of acceleration / deceleration according to the weight of the load contained in the container or the cabin it transports so as to extend the durability of the mechanical parts of the vehicle. shuttle bus.
Chaque navette peut être configurée pour adapter automatiquement sa distance avec les navettes la précédant et la suivant en fonction de sa vitesse de circulation, du poids et/ou de la nature du chargement contenu dans le container ou la cabine qu’elle transporte. Each shuttle can be configured to automatically adapt its distance from the shuttles preceding and following it according to its speed of movement, the weight and / or the nature of the load contained in the container or cabin it is transporting.
Par exemple, si le chargement contenu dans le container ou la cabine que la navette transporte est considéré comme fragile et/ou présente un risque chimique et/ou d’incendie, la navette adaptera automatiquement et de façon autonome sa vitesse, son niveau d’accélération/décélération et ses distances de sécurité avec les navettes la précédant et la suivant. For example, if the load contained in the container or cabin that the shuttle is transporting is considered fragile and / or presents a chemical and / or fire risk, the shuttle will automatically and autonomously adapt its speed, its level of acceleration / deceleration and its safety distances from the preceding and following shuttles.
Dans le cas où le chargement contenu dans le container ou la cabine présente un poids trop important pour être transporté par une seule navette, notamment en raison de la puissance limitée de son moyen moteur, l’intelligence embarquée sur chaque navette peut être agencée pour permettre à d’autres navettes d’accoster de façon autonome cette navette pour la pousser ou la tracter sur l’infrastructure de circulation. Cela permet le transport en convoi de containers de marchandises relativement lourds par mutualisation des moyens moteurs de plusieurs navettes. In the event that the load contained in the container or the cabin is too heavy to be transported by a single shuttle, in particular because of the limited power of its motor means, the intelligence on board each shuttle can be arranged to allow other shuttles to independently dock this shuttle to push or tow it on the traffic infrastructure. This allows the transport in convoy of relatively heavy freight containers by pooling the motor means of several shuttles.
Gestion de l’autonomie énergétique Management of energy autonomy
L’intelligence embarquée sur chaque navette peut être agencée pour permettre une gestion active de l’autonomie énergétique de la navette. The intelligence on board each shuttle can be arranged to enable active management of the energy autonomy of the shuttle.
Chaque navette peut être configurée pour fonctionner selon différents modes de fonctionnement prédéterminés et pour adopter un des modes de fonctionnement en fonction de l’autonomie restante de la navette. Cela permet d’optimiser l’utilisation énergétique de la navette, et notamment de prolonger son autonomie.
Chaque navette peut être configurée pour adapter automatiquement sa destination et/ou sa vitesse de circulation et/ou son niveau d’accélération/décélération et/ou le poids des marchandises qu’elle charge en fonction de l’autonomie restante de la navette. Par exemple, si l’autonomie restante est faible, la navette peut n’accepter que des marchandises plus légères dont le transport est compatible avec cette autonomie. Each shuttle can be configured to operate according to different predetermined operating modes and to adopt one of the operating modes depending on the remaining autonomy of the shuttle. This makes it possible to optimize the energy use of the shuttle, and in particular to extend its autonomy. Each shuttle can be configured to automatically adapt its destination and / or its speed of movement and / or its level of acceleration / deceleration and / or the weight of the goods that it loads according to the remaining autonomy of the shuttle. For example, if the remaining autonomy is low, the shuttle may only accept lighter goods whose transport is compatible with this autonomy.
Chaque navette peut être configurée pour réduire automatiquement la puissance délivrée par son moyen moteur et/ou mettre automatiquement dans un état de veille certains de ses capteurs embarqués lorsque l’autonomie restante de la navette devient inférieure à un seuil prédéterminé. Cela permet de préserver l’autonomie restante de la navette. Each shuttle can be configured to automatically reduce the power delivered by its motor means and / or automatically put some of its on-board sensors into a standby state when the remaining autonomy of the shuttle falls below a predetermined threshold. This helps to preserve the remaining autonomy of the shuttle.
Traitement des données par intelligence artificielle au niveau du système de supervision centralisé Data processing by artificial intelligence at the level of the centralized supervision system
Le système automatisé de transport de marchandises peut subir des perturbations en amont (modification de la commande d’un client, retard pour parvenir à l’entrée du système, etc.) et/ou en aval (capacité d’accueil réduite des stations, congestion en surface, etc.) de ce dernier. Il est donc nécessaire de pouvoir réduire les conséquences, voire prévenir de telles perturbations. The automated goods transport system may experience disturbances upstream (modification of a customer's order, delay in reaching the system entrance, etc.) and / or downstream (reduced reception capacity of stations, surface congestion, etc.) of the latter. It is therefore necessary to be able to reduce the consequences, or even prevent such disturbances.
Le système automatisé de transport de marchandises peut comporter des capteurs situés au sein de l’infrastructure, des navettes, des marchandises et/ou containers, ces capteurs permettant de générer, de manière continue ou périodique, des données relatives aux navettes (vitesse, niveau d’accélération/décélération, localisation, état de son moyen moteur, état de certains composants tels que roulements, état d’usure de ses pièces mécaniques, autonomie restante de son moyen de stockage d'énergie, etc.), aux marchandises et/ou containers (destination, provenance, destinataire, expéditeur, valeur marchande, degré de priorité, nature, température mesurée à l’intérieur du container, notamment température actuelle mesurée et/ou historique des températures mesurées, poids, volume, dimensions, nombre de colis contenus à l’intérieur du container, éventuel caractère spécifique des marchandises, tel qu’un caractère fragile, périssable et/ou dangereux, par exemple un risque chimique ou incendie, transporteur de surface amont et/ou aval, etc.), à l’infrastructure (capacité d’accueil restante des stations), et aux défaillances sur l’infrastructure et/ou les navettes (pannes, incendies, etc.). The automated goods transport system may include sensors located within the infrastructure, shuttles, goods and / or containers, these sensors making it possible to generate, continuously or periodically, data relating to the shuttles (speed, level acceleration / deceleration, location, state of its motor means, state of certain components such as bearings, state of wear of its mechanical parts, remaining autonomy of its energy storage means, etc.), to goods and / or containers (destination, origin, recipient, sender, market value, degree of priority, nature, temperature measured inside the container, in particular current temperature measured and / or history of measured temperatures, weight, volume, dimensions, number of packages contained inside the container, any specific character of the goods, such as a fragile, perishable and / or dangerous character, for example a chemical or fire risk, tra upstream and / or downstream surface carrier, etc.), to the infrastructure (remaining capacity of the stations), and to infrastructure and / or shuttle failures (breakdowns, fires, etc.).
Le système de supervision centralisé peut comporter au moins un réseau de communication, de préférence plusieurs réseaux de communication, notamment un réseau
principal et un réseau de secours pouvant prendre le relais en cas de défaillance du réseau principal. Le système de supervision centralisé peut également comporter au moins un, de préférence plusieurs modules de stockage de données, notamment amovibles, tels qu'une mémoire ROM ou flash, et/ou au moins un, de préférence plusieurs modules de traitement comportant des moyens informatiques tels qu’un micro-processeur ou microcontrôleur. La redondance des réseaux de communication, des modules de stockage de données et des modules de traitement permet d’accroître la fiabilité du système de supervision centralisé. The centralized supervision system may include at least one communication network, preferably several communication networks, in particular one network. main network and a backup network that can take over in the event of failure of the main network. The centralized supervision system can also comprise at least one, preferably several data storage modules, in particular removable, such as a ROM or flash memory, and / or at least one, preferably several processing modules comprising computer means. such as a microprocessor or microcontroller. The redundancy of communication networks, data storage modules and processing modules increases the reliability of the centralized supervision system.
Le système de supervision centralisé peut être configuré pour collecter, via le ou les réseaux de communication, les données générées par les capteurs, notamment en temps réel, et stocker ces données sur le ou les modules de stockage. The centralized supervision system can be configured to collect, via the communication network (s), the data generated by the sensors, in particular in real time, and to store this data on the storage module (s).
Le système de supervision centralisé peut comporter, sur le ou les moyens de stockage, des données pré-enregistrées comportant des données antérieures générées par les capteurs sur une même période de temps et associées à une situation connue. The centralized supervision system may include, on the storage means (s), pre-recorded data comprising previous data generated by the sensors over the same period of time and associated with a known situation.
Le système de supervision centralisé peut être configuré pour déterminer, notamment en temps réel (au retard de traitement près), si les données générées par les capteurs à l’instant présent correspondent à une situation connue, et déclencher de manière autonome une action corrective si tel est le cas. Si cela est souhaité, le système de supervision centralisé peut être configuré pour permettre une validation à distance de certaines de ces actions au moins par un opérateur humain, avant de les appliquer. The centralized supervision system can be configured to determine, in particular in real time (up to the processing delay), whether the data generated by the sensors at the present moment corresponds to a known situation, and to independently trigger a corrective action if this is the case. If desired, the centralized supervision system can be configured to allow remote validation of some of these actions at least by a human operator, before applying them.
Ces actions correctives peuvent comporter l’affectation d’un nouveau degré de priorité à un container et/ou navette, la modification de la vitesse des navettes et/ou du câble d’entrainement, l’engagement d’une navette sans chargement ou d’une navette équipée pour lutter contre l'incendie et/ou pour l’entretien et/ou le dépannage d’au moins une autre navette, la mise en zone de stationnement d’une navette défaillante, l’actionnement des moyens de lutte contre l’incendie, et/ou l’envoi automatique d’une notification d’alerte au destinataire ou à un transporteur de surface aval, par exemple sous la forme d’un SMS ou d’une notification push sur un téléphone portable, lui indiquant une modification de l’heure de livraison prévue. These corrective actions may include assigning a new level of priority to a container and / or shuttle, modifying the speed of the shuttles and / or the drive cable, engaging a shuttle without loading or '' a shuttle equipped to fight against fire and / or for the maintenance and / or repair of at least one other shuttle, placing a faulty shuttle in the parking area, actuation of the means to fight against fire, and / or the automatic sending of an alert notification to the recipient or to a downstream surface transporter, for example in the form of an SMS or a push notification on a mobile phone, indicating a change in the expected delivery time.
Ainsi, le système de supervision centralisé peut permettre de traiter les données générées par les capteurs, comparer ces données à des données antérieures et déclencher des actions correctives. Le traitement, la comparaison et le déclenchement des actions correctives peuvent faire appel à des méthodes mathématiques d’intelligence artificielle
telles que l’apprentissage automatique ou « machine learning », par exemple à l’aide de réseaux de neurones. Thus, the centralized supervision system can make it possible to process the data generated by the sensors, compare this data with previous data and trigger corrective actions. The processing, comparison and triggering of corrective actions can involve mathematical methods of artificial intelligence such as machine learning or "machine learning", for example using neural networks.
Un tel système de supervision centralisé peut permettre de prédire la survenue d’une situation non désirée, en utilisant notamment le principe des « signaux faibles », et déclencher une action corrective de manière à éviter la survenue d’une telle situation non désirée. Cela peut ainsi permettre d’optimiser la livraison des marchandises et/ou containers ainsi que l’exploitation du système automatisé de transport de marchandises en anticipant les éventuelles perturbations. Such a centralized supervision system can make it possible to predict the occurrence of an unwanted situation, in particular using the principle of "weak signals", and trigger corrective action so as to avoid the occurrence of such an unwanted situation. This can thus make it possible to optimize the delivery of goods and / or containers as well as the operation of the automated goods transport system by anticipating possible disruptions.
Traitement des données par intelligence artificielle au niveau des navettes Data processing by artificial intelligence at the shuttle level
Chaque navette peut subir des perturbations au cours de son trajet au sein du système automatisé de transport de marchandises (ralentissement, voire arrêt, de la circulation des navettes, par exemple en raison de la capacité d’accueil réduite d’une station, d’une panne, d’un accident, d’un incendie, de travaux de maintenance sur l’infrastructure, etc.). Il est donc nécessaire de pouvoir réduire les conséquences, voire prévenir de telles perturbations, afin de garantir une livraison des marchandises à leur destination finale dans les délais. Each shuttle may experience disruptions during its journey within the automated goods transport system (slowing down or even stopping the movement of shuttles, for example due to the reduced reception capacity of a station, breakdown, accident, fire, maintenance work on the infrastructure, etc.). It is therefore necessary to be able to reduce the consequences, or even prevent such disruptions, in order to guarantee delivery of the goods to their final destination on time.
Chaque navette peut comporter des capteurs embarqués, ces capteurs permettant de générer, de manière continue ou périodique, des données relatives à la navette (vitesse, niveau d’accélération/décélération, localisation, état de son moyen moteur, état de certains composants tels que roulements, état d’usure de ses pièces mécaniques, autonomie restante de son moyen de stockage d'énergie, etc.), aux marchandises et/ou containers qu’elle transporte (destination, provenance, destinataire, expéditeur, valeur marchande, degré de priorité, nature, température mesurée à l’intérieur du container, notamment température actuelle mesurée et/ou historique des températures mesurées, poids, volume, dimensions, nombre de colis contenus à l’intérieur du container, éventuel caractère spécifique des marchandises, tel qu’un caractère fragile, périssable et/ou dangereux, par exemple un risque chimique ou incendie, identité et/ou nature du transporteur de surface amont et/ou aval, etc.), et aux défaillances sur la navette (pannes, incendies, etc.). Each shuttle can include onboard sensors, these sensors making it possible to generate, continuously or periodically, data relating to the shuttle (speed, level of acceleration / deceleration, location, state of its engine means, state of certain components such as bearings, state of wear of its mechanical parts, remaining autonomy of its energy storage means, etc.), to the goods and / or containers it transports (destination, origin, recipient, sender, market value, degree of priority, nature, temperature measured inside the container, in particular current temperature measured and / or history of measured temperatures, weight, volume, dimensions, number of packages contained inside the container, any specific character of the goods, such as '' a fragile, perishable and / or dangerous nature, for example a chemical or fire risk, identity and / or nature of the upstream and / or downstream surface carrier, etc.), and failures on the shuttle (breakdowns, fires, etc.).
L’intelligence embarquée sur chaque navette peut être agencée pour collecter les données générées par les capteurs embarqués, notamment en temps réel, et stocker ces données sur le module de stockage de données embarqué de la navette. Chaque navette peut en outre être configuré pour transmettre les données générées par les capteurs embarqués,
notamment en temps réel, au système de supervision centralisé qui stocke de préférence ces données. The intelligence on board each shuttle can be arranged to collect the data generated by the onboard sensors, in particular in real time, and store this data on the onboard data storage module of the shuttle. Each shuttle can also be configured to transmit the data generated by the onboard sensors, in particular in real time, to the centralized supervision system which preferably stores these data.
Chaque navette peut comporter, sur le module de stockage de données embarqué, des données pré-enregistrées comportant des données antérieures générées par les capteurs embarqués sur une même période de temps et associées à une situation connue. Each shuttle can include, on the onboard data storage module, pre-recorded data comprising previous data generated by the onboard sensors over the same period of time and associated with a known situation.
L’intelligence embarquée sur chaque navette peut être agencée pour déterminer, notamment en temps réel (au retard de traitement près), si les données générées par les capteurs embarqués à l’instant présent correspondent à une situation connue, et déclencher de manière autonome une action corrective si tel est le cas. Si cela est souhaité, l’intelligence embarquée peut être configurée pour permettre une validation à distance de certaines de ces actions au moins par un opérateur humain, avant de les appliquer. The intelligence on board each shuttle can be arranged to determine, in particular in real time (except for processing delay), whether the data generated by the sensors on board at the present moment correspond to a known situation, and to independently trigger a corrective action if this is the case. If desired, on-board intelligence can be configured to allow remote validation of some of these actions at least by a human operator, before they are applied.
Ces actions correctives peuvent comporter l’affectation d’un nouveau degré de priorité au container et/ou à la navette, la modification de la station de chargement et/ou déchargement où la navette est chargée et/ou déchargée, la modification de la vitesse voire l’arrêt de navette, le rechargement de la batterie d’une autre navette ou le dépannage d’une autre navette en la tractant ou poussant, l’envoi automatique d’un signal d’alerte au système de supervision centralisé, et/ou la mise en zone de stationnement de la navette. These corrective actions may include the assignment of a new degree of priority to the container and / or the shuttle, the modification of the loading and / or unloading station where the shuttle is loaded and / or unloaded, the modification of the speed or even stopping a shuttle, recharging the battery of another shuttle or repairing another shuttle by pulling or pushing it, automatically sending an alert signal to the centralized supervision system, and / or placing the shuttle in the parking area.
Ainsi, l’intelligence embarquée sur chaque navette peut permettre de traiter les données générées par les capteurs, comparer ces données à des données antérieures et déclencher des actions correctives. Le traitement, la comparaison et le déclenchement des actions correctives peuvent faire appel à des méthodes mathématiques d’intelligence artificielle telles que l’apprentissage automatique ou « machine learning », par exemple à l’aide de réseaux de neurones. Thus, the intelligence onboard each shuttle can process the data generated by the sensors, compare this data with previous data and trigger corrective actions. The processing, comparison and triggering of corrective actions can call for artificial intelligence mathematical methods such as machine learning or "machine learning", for example using neural networks.
Une telle intelligence embarquée peut permettre de prédire la survenue d’une situation non désirée, en utilisant notamment le principe des « signaux faibles », et déclencher une action corrective de manière à éviter la survenue d’une telle situation non désirée. Cela peut ainsi permettre d’optimiser la livraison des marchandises et/ou containers ainsi que l’exploitation du système automatisé de transport de marchandises en anticipant les éventuelles perturbations. Such on-board intelligence can make it possible to predict the occurrence of an unwanted situation, in particular using the principle of "weak signals", and trigger corrective action in order to prevent the occurrence of such an unwanted situation. This can thus make it possible to optimize the delivery of goods and / or containers as well as the operation of the automated goods transport system by anticipating possible disruptions.
Brève description des dessins
L'invention pourra être mieux comprise à la lecture de la description détaillée qui va suivre, d’exemples non limitatifs de mise en œuvre de celle-ci ; et à l’examen du dessin annexé, sur lequel : Brief description of the drawings The invention may be better understood on reading the detailed description which follows, of non-limiting examples of its implementation; and examination of the attached drawing, on which:
[Fig 1] la figure 1 est une coupe verticale schématique et partielle d’un exemple de système automatisé de transport de marchandises selon l'invention, [Fig 1] Figure 1 is a schematic and partial vertical section of an example of an automated system for transporting goods according to the invention,
[Fig 2] la figure 2 représente de façon schématique et partielle, en coupe transversale, un exemple d’un ensemble navette et containeur, circulant dans un tunnel, [Fig 2] Figure 2 shows schematically and partially, in cross section, an example of a shuttle and container assembly, traveling in a tunnel,
[Fig 3] la figure 3 représente de façon schématique et partielle, en coupe transversale, un exemple d’un ensemble navette et containeur, circulant dans un tunnel, [Fig 3] Figure 3 shows schematically and partially, in cross section, an example of a shuttle and container assembly, traveling in a tunnel,
[Fig 4] la figure 4 est un schéma illustrant un exemple d’infrastructure de circulation des navettes appartenant à un système automatisé de transport de marchandises selon l’invention, [Fig 4] Figure 4 is a diagram illustrating an example of a shuttle traffic infrastructure belonging to an automated freight transport system according to the invention,
[Fig 5] la figure 5 représente, de façon schématique, un exemple d’infrastructure comportant une voie de circulation en boucle fermée, [Fig 5] FIG. 5 schematically represents an example of an infrastructure comprising a closed-loop traffic lane,
[Fig 6] la figure 6 représente, de façon schématique, un exemple d’infrastructure comportant une voie de circulation, [Fig 6] Figure 6 represents, schematically, an example of an infrastructure comprising a traffic lane,
[Fig 7] la figure 7 représente de façon schématique un exemple de navette entraînée par un câble d’entrainement, [Fig 7] Figure 7 shows schematically an example of a shuttle driven by a drive cable,
[Fig 8] la figure 8 représente de façon schématique un exemple de navette disposant d’une intelligence embarquée, [Fig 8] Figure 8 schematically shows an example of a shuttle with on-board intelligence,
[Fig 9] la figure 9 représente, de façon schématique, un exemple d’infrastructure comportant une voie de circulation en boucle fermée, [Fig 9] FIG. 9 schematically represents an example of an infrastructure comprising a closed-loop traffic lane,
[Fig 10] la figure 10 représente, de façon schématique, un exemple de réalisation de la sélection des stations de chargement et/ou déchargement où les navettes sont chargées et/ou déchargées. [Fig 10] Figure 10 shows, schematically, an exemplary embodiment of the selection of loading and / or unloading stations where the shuttles are loaded and / or unloaded.
Description détaillée detailed description
Le système de transport 1 selon l’invention illustré à la figure 1 peut servir au transport de passagers et/ou de toutes sortes de fret. Il comporte un ensemble de navettes pouvant circuler sur une ou plusieurs voies de circulation. The transport system 1 according to the invention illustrated in Figure 1 can be used for the transport of passengers and / or all kinds of freight. It comprises a set of shuttles that can travel on one or more traffic lanes.
Le système 1 comporte un tunnel 2 s'étendant au moins partiellement sous un milieu urbain dense et comportant, comme on peut le voir à la figure 1, des bâtiments de surface B ainsi que des infrastructures enterrées I, sous lesquelles s'étend le tunnel 2. Ce
dernier est agencé pour permettre le transport automatisé de marchandises présentes dans des unités de chargement telles que des containeurs 3. System 1 comprises a tunnel 2 extending at least partially under a dense urban environment and comprising, as can be seen in FIG. 1, surface buildings B as well as underground infrastructures I, under which the tunnel extends. 2. This the latter is designed to allow the automated transport of goods present in loading units such as containers 3.
Comme illustré à la figure 2, les containers 3 peuvent être portés par des navettes de transport 17 qui circulent dans le tunnel 2. Ces navettes de transport 17 peuvent présenter une forme en section choisie de façon à occuper au mieux la section du tunnel 2. Les navettes 17 peuvent présenter, comme illustré, un berceau 19 qui reçoit au moins un containeur 3. As illustrated in FIG. 2, the containers 3 can be carried by transport shuttles 17 which circulate in the tunnel 2. These transport shuttles 17 can have a sectional shape chosen so as to best occupy the section of the tunnel 2. The shuttles 17 can have, as illustrated, a cradle 19 which receives at least one container 3.
Les navettes peuvent rouler directement sur la paroi du tunnel. Chaque navette 17 peut alors comporter un mécanisme qui permet son centrage en partie basse du tunnel 2, par exemple en jouant sur l’angle entre les axes de rotation des roues 18 de la navette 17 qui prennent appui sur la paroi du tunnel 2. The shuttles can run directly on the tunnel wall. Each shuttle 17 can then include a mechanism which allows it to be centered in the lower part of the tunnel 2, for example by varying the angle between the axes of rotation of the wheels 18 of the shuttle 17 which rest on the wall of the tunnel 2.
En variante, les navettes de transport 17 se déplacent sur des voies ferrées 300 au sein du tunnel 2, comme illustré à la figure 3. As a variant, the transport shuttles 17 move on railway tracks 300 within the tunnel 2, as illustrated in FIG. 3.
Les navettes circulent sur des voies qui peuvent comporter des tronçons agencés de diverses manières, et l’on a par exemple : The shuttles run on tracks which may have sections arranged in various ways, for example:
- un unique tronçon, rectiligne ou non, entre le point de départ et le point d’arrivée de la voie ; - a single section, rectilinear or not, between the starting point and the ending point of the track;
- plus de deux tronçons consécutifs, rectilignes ou non, entre le point départ et le point d’arrivée, deux tronçons consécutifs pouvant être alignés l’un avec l’autre, ou faire un virage entre eux ; - more than two consecutive sections, straight or not, between the starting point and the finishing point, two consecutive sections that may be aligned with each other, or make a turn between them;
- des tronçons organisés en boucle pour permettre de déplacer des navettes entre une multiplicité de stations de chargement/déchargement situées aux nœuds de la boucle 7 ou à certains seulement de ces nœuds. - sections organized in a loop to make it possible to move shuttles between a multiplicity of loading / unloading stations located at the nodes of loop 7 or only at some of these nodes.
On a illustré à la figure 4 un exemple de voie de circulation comportant deux tronçons successifs 107 situés chacun entre deux stations de chargement/déchargement 4. Les tronçons représentés sont rectilignes, et il existe entre eux une zone de transition 212 formant un virage. FIG. 4 illustrates an example of a traffic lane comprising two successive sections 107 each located between two loading / unloading stations 4. The sections shown are rectilinear, and there is between them a transition zone 212 forming a bend.
Les tronçons de la voie de circulation peuvent être situés au niveau du sol, en hauteur (les navettes étant suspendues ou reposant sur des supports construits en hauteur) et/ou être souterrains. The sections of the traffic lane can be located at ground level, in height (the shuttles being suspended or resting on supports built in height) and / or be underground.
On a représenté à la figure 5 un exemple de réalisation d’une boucle de transport 7, comportant des tronçons 107 rectilignes ou sensiblement rectilignes, reliés par des stations de chargement/déchargement 4.
Le flux principal de marchandises injecté dans la boucle 7 peut circuler par une ligne 110 appelée pénétrante, reliée à une station d’ordonnancement périphérique 6 qui constitue une base arrière, et où les marchandises à transporter sont conditionnées et ordonnancées en fonction de leur destination. Les marchandises destinées à transiter par une même station de chargement/déchargement 4 de la boucle 7 pour atteindre leur destination finale peuvent être conditionnées au sein de la même unité de chargement, et ce conditionnement peut avantageusement avoir lieu au niveau de la station d’ordonnancement 6. L’ordre de chargement des navettes 17 au niveau de la station d’ordonnancement 6 peut également s’effectuer en fonction de la destination des marchandises chargées sur chacune de ces navettes. La station 6 peut assurer ainsi la gestion d’une part importante du flux de marchandises qui est injecté dans la boucle 7, et peut permettre de limiter le flux de marchandises chargé sur les navettes à partir des stations de chargement/déchargement 4 situées sur la boucle 7. La ligne 110 peut être bidirectionnelle, et réalisée sous la forme d’un tunnel à deux voies ou de deux tunnels parallèles ou non. There is shown in Figure 5 an exemplary embodiment of a transport loop 7, comprising sections 107 rectilinear or substantially rectilinear, connected by loading / unloading stations 4. The main flow of goods injected into the loop 7 can circulate by a line 110 called penetrating, connected to a peripheral scheduling station 6 which constitutes a rear base, and where the goods to be transported are conditioned and scheduled according to their destination. The goods intended to transit through the same loading / unloading station 4 of the loop 7 to reach their final destination can be packaged within the same loading unit, and this packaging can advantageously take place at the level of the scheduling station. 6. The order of loading the shuttles 17 at the level of the scheduling station 6 can also be carried out according to the destination of the goods loaded on each of these shuttles. The station 6 can thus ensure the management of a large part of the flow of goods which is injected into the loop 7, and can make it possible to limit the flow of goods loaded onto the shuttles from the loading / unloading stations 4 located on the loop 7. Line 110 can be bidirectional, and implemented in the form of a two-lane tunnel or two tunnels, parallel or not.
On a représenté à la figure 9 un exemple de réalisation d’une boucle de transport 7 présentant une forme de « huit » et comportant des tronçons 107 rectilignes ou sensiblement rectilignes ou curvilignes, reliés par des stations de chargement/déchargement 4. FIG. 9 shows an exemplary embodiment of a transport loop 7 having the shape of an "eight" and comprising sections 107 which are rectilinear or substantially rectilinear or curvilinear, connected by loading / unloading stations 4.
La boucle de transport 7 en forme de « huit » comporte deux boucles secondaires 901 et 902 qui sont de préférence interconnectées au niveau de leur zone de contact 900. The “eight” shaped transport loop 7 comprises two secondary loops 901 and 902 which are preferably interconnected at their contact zone 900.
Chaque boucle secondaire 901 ou 902 peut être reliée à une ou plusieurs lignes 910 ou 920 appelées pénétrantes, reliées chacune à une station d’ordonnancement périphérique 6 qui constitue une base arrière, et où les marchandises à transporter sont conditionnées et ordonnancées en fonction de leur destination. Each secondary loop 901 or 902 can be connected to one or more lines 910 or 920 called penetrating, each connected to a peripheral scheduling station 6 which constitutes a rear base, and where the goods to be transported are packaged and scheduled according to their destination.
De préférence, la boucle de transport 7 en forme de « huit » est unidirectionnelle. Les navettes peuvent circuler sur les deux boucles secondaires 901 et 902 en passant d’une à l’autre selon un trajet en forme de « huit », les deux boucles secondaires 901 et 902 étant interconnectées. Il est encore possible que les navettes circulent sur une seule des deux boucles secondaires 901 et 902, par exemple font un tour complet sur l’une de ces boucles secondaires sans passer sur l’autre boucle secondaire, en fonction de leur destination et/ou du trafic sur l’autre boucle ou parce que le système fonctionne en mode dégradé, si l’une des boucles est indisponible par exemple.
De préférence, les lignes 910 et 920 sont bidirectionnelles. Elles peuvent être réalisées chacune sous la forme d’un tunnel à deux voies ou de deux tunnels parallèles ou non, de préférence sous la forme d’un tunnel à deux voies. Preferably, the "eight" shaped transport loop 7 is unidirectional. The shuttles can circulate on the two secondary loops 901 and 902 passing from one to the other in a path in the form of an “eight”, the two secondary loops 901 and 902 being interconnected. It is still possible that the shuttles circulate on only one of the two secondary loops 901 and 902, for example make a complete turn on one of these secondary loops without passing over the other secondary loop, depending on their destination and / or traffic on the other loop or because the system is operating in degraded mode, if one of the loops is unavailable for example. Preferably, lines 910 and 920 are bidirectional. They can each be made in the form of a two-lane tunnel or of two parallel or non-parallel tunnels, preferably in the form of a two-lane tunnel.
On a représenté à la figure 6, un exemple de réalisation de la boucle de transport 7, comportant des tronçons 107 rectilignes ou sensiblement rectilignes, reliés par les stations de chargement/déchargement 4. Les tronçons 107 et/ou les stations de chargement/déchargement 4 peuvent comporter des zones de stationnement 310, notamment pour les navettes présentant des défaillances. Chaque zone de stationnement 310 peut être équipée d'un système de trans-bordage 311 permettant de transférer des marchandises d'une navette à une autre. There is shown in Figure 6, an embodiment of the transport loop 7, comprising sections 107 rectilinear or substantially rectilinear, connected by the loading / unloading stations 4. The sections 107 and / or the loading / unloading stations 4 may include parking zones 310, in particular for shuttles exhibiting failures. Each parking area 310 can be equipped with a trans-boarding system 311 making it possible to transfer goods from one shuttle to another.
On a représenté à la figure 7, un exemple de navette 17 comportant des roues 18 permettant à la navette de rouler directement sur la paroi du tunnel 2 ou sur des rails en étant tractée par un câble 501. Cette navette 17 comporte en outre une roue 500, par exemple en position centrale, qui peut être couplée au câble 501 ou découplée. Lorsque la roue 500 est couplée au câble 501 et bloquée en rotation, la navette 17 circule au sein de l’infrastructure à la vitesse d’entrainement du câble 501, en étant tractée par celui-ci. Dans un autre mode de fonctionnement de la navette 17, celle-ci est à l’arrêt à un emplacement de l’infrastructure, avec ses roues 18 bloquées. La roue 500 toujours couplée au câble 501 entraîne un alternateur afin de recharger un moyen de stockage d’énergie de la navette 17. Lorsque le moyen de stockage est plein, la roue 500 peut être découplée du câble 501. FIG. 7 shows an example of a shuttle 17 comprising wheels 18 allowing the shuttle to run directly on the wall of the tunnel 2 or on rails while being towed by a cable 501. This shuttle 17 further comprises a wheel. 500, for example in a central position, which can be coupled to the cable 501 or decoupled. When the wheel 500 is coupled to the cable 501 and locked in rotation, the shuttle 17 circulates within the infrastructure at the driving speed of the cable 501, being towed by the latter. In another mode of operation of shuttle 17, it is stopped at a location in the infrastructure, with its wheels 18 locked. The wheel 500, still coupled to the cable 501, drives an alternator in order to recharge an energy storage means of the shuttle 17. When the storage means is full, the wheel 500 can be decoupled from the cable 501.
On a représenté à la figure 8 de façon schématique différents composants d’une navette 17. Different components of a shuttle 17 have been shown schematically in Figure 8.
On a notamment représenté par un bloc 410 sur cette figure un dispositif électronique configuré pour fournir une intelligence embarquée à la navette 17, ce qui permet à cette dernière d’être autonome comme expliqué ci-dessus. In particular, a block 410 in this figure is represented by an electronic device configured to provide on-board intelligence to the shuttle 17, which allows the latter to be autonomous as explained above.
L’organe de freinage 470 et le moyen moteur 460 sont reliés au dispositif électronique 410 qui peut les contrôler. The braking member 470 and the motor means 460 are connected to the electronic device 410 which can control them.
Le moyen de stockage d’énergie 450 comporte par exemple une batterie rechargeable 451 dont la gestion de la charge est effectuée par un circuit intégré à la batterie et/ou le dispositif électronique 410. The energy storage means 450 comprises for example a rechargeable battery 451, the charge of which is managed by an integrated circuit in the battery and / or the electronic device 410.
Le dispositif électronique 410 comporte dans cet exemple un système de détection embarqué 420, un module de traitement embarqué 430 et un module de
communication embarqué 440. Le dispositif électronique 410 peut également comporter un module de stockage de données embarqué 480. Ce module de stockage de données embarqué 480 peut comporter des moyens électroniques de stockage, notamment amovibles, tels qu'une mémoire ROM ou flash. The electronic device 410 comprises in this example an on-board detection system 420, an on-board processing module 430 and a on-board communication 440. The electronic device 410 can also include an on-board data storage module 480. This on-board data storage module 480 can include electronic storage means, in particular removable, such as a ROM or flash memory.
Le système de détection embarqué 420 est configuré pour réaliser en continu, ou alternativement de façon périodique, au moins une mesure relative à au moins un paramètre d’une condition liée à l’état de la navette 17 et/ou à son environnement, comme expliqué plus haut, par exemple la température, le taux d’oxygène, le taux d’humidité et les éventuels chocs subis par la navette 17. The on-board detection system 420 is configured to perform continuously, or alternatively periodically, at least one measurement relating to at least one parameter of a condition linked to the state of the shuttle 17 and / or to its environment, such as explained above, for example the temperature, the oxygen level, the humidity level and any shocks undergone by the shuttle 17.
Le système de détection 420 comporte par exemple un capteur embarqué de température 421, un capteur embarqué d’oxygène 422, un capteur embarqué d’humidité 423 et un accéléromètre 424, entre autres capteurs possibles, et dont les fonctions ont été décrites précédemment. The detection system 420 comprises, for example, an on-board temperature sensor 421, an on-board oxygen sensor 422, an on-board humidity sensor 423 and an accelerometer 424, among other possible sensors, and whose functions have been described above.
Ces capteurs embarqués 421, 422, 423 et 424 génèrent des données de mesure These on-board sensors 421, 422, 423 and 424 generate measurement data
425. 425.
Le module de traitement embarqué 430 comporte par exemple un microprocesseur 431 permettant de traiter les données 425 générées par le système de détection embarqué 420. The on-board processing module 430 comprises for example a microprocessor 431 making it possible to process the data 425 generated by the on-board detection system 420.
Le module de traitement embarqué 430 peut déclencher diverses actions sur la navette 17, par exemple pour réguler sa vitesse en agissant sur l’organe de freinage 470 et/ou le moyen moteur 460 de la navette 17. The on-board processing module 430 can trigger various actions on the shuttle 17, for example to regulate its speed by acting on the braking member 470 and / or the motor means 460 of the shuttle 17.
Le module de communication embarqué 440 comporte un émetteur-récepteur radio 441 permettant à la navette 17 de communiquer avec au moins une autre navette 17 et/ou avec le système de supervision centralisé 400. The on-board communication module 440 comprises a radio transceiver 441 allowing the shuttle 17 to communicate with at least one other shuttle 17 and / or with the centralized supervision system 400.
Le module de communication embarqué 440 est relié au système de détection embarqué 420 et au module de traitement embarqué 430 et peut transmettre par une communication sans fil les données numériques générées par chacun de ces deux modules 420 et 430 à au moins une autre navette 17 et/ou au système de supervision centralisé 400. The on-board communication module 440 is connected to the on-board detection system 420 and to the on-board processing module 430 and can transmit by wireless communication the digital data generated by each of these two modules 420 and 430 to at least one other shuttle 17 and / or the centralized supervision system 400.
Le module de communication embarqué 440 est également capable de recevoir des informations provenant d’au moins une autre navette 17 et/ou du système de supervision centralisé 400. Ces informations reçues sont traitées par le module de traitement embarqué 430.
Sélection des stations The on-board communication module 440 is also capable of receiving information coming from at least one other shuttle 17 and / or from the centralized supervision system 400. This information received is processed by the on-board processing module 430. Selection of stations
Au moins un degré de priorité peut être affecté à au moins une marchandise et/ou à au moins un container de transport de marchandises, ce degré de priorité étant d’autant plus élevé que les marchandises doivent bénéficier d’un temps de transport réduit pour être acheminé jusqu’à leur destination finale. At least one level of priority can be assigned to at least one good and / or at least one container for transporting goods, this level of priority being all the higher as the goods must benefit from a reduced transport time for be transported to their final destination.
Ainsi, une marchandise et/ou un container sera affecté d’un degré de priorité croissant selon qu’il doit être livré à sa destination finale en moins de 48h, 24h, 12h, 2h, etc. Thus, a commodity and / or a container will be assigned an increasing degree of priority depending on whether it must be delivered to its final destination in less than 48 hours, 24 hours, 12 hours, 2 hours, etc.
Les denrées périssables, les produits de valeurs, les produits pharmaceutiques, les marchandises ayant accumulé du retard pour parvenir à l’entrée du système de transport ou encore les marchandises pour lesquelles le destinataire a payé un surcoût peuvent être des exemples de marchandises affectées de hauts degrés de priorité. Perishable goods, valuable products, pharmaceutical products, goods that have accumulated delays in reaching the entrance to the transport system, or goods for which the recipient has paid an additional cost may be examples of goods affected by high costs. priority degrees.
Comme illustré aux figures 9 et 10, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé peut être configuré pour déterminer la station de chargement et/ou de déchargement la plus proche n de la destination finale du ou des marchandises et/ou containers. As illustrated in Figures 9 and 10, the intelligence on board each shuttle and / or the centralized supervision system can be configured to determine the closest loading and / or unloading station n to the final destination of the goods and / or containers.
De préférence, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé peut être configuré pour déterminer un trajet optimal que la navette doit emprunter pour atteindre ladite station la plus proche //, ce trajet optimal étant déterminé en minimisant la distance et/ou la durée du trajet. Par exemple, le trajet optimal est déterminé en tenant compte de l’état du trafic et des éventuels ralentissements au sein de l’infrastructure de circulation. Preferably, the intelligence on board each shuttle and / or the centralized supervision system can be configured to determine an optimal path that the shuttle must take to reach said nearest station //, this optimal path being determined by minimizing the distance and / or the duration of the journey. For example, the optimal route is determined taking into account the traffic conditions and any slowdowns in the traffic infrastructure.
L’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé peut être configurée pour permettre à la navette de décharger la ou les marchandises et/ou containers à ladite station la plus proche //, si la capacité d’accueil restante (par exemple un nombre de containers susceptibles d’être accueillis en plus) de ladite station la plus proche (¾ est supérieure à un seuil de capacité x,w prédéterminé pour la ladite station la plus proche, quel que soit leur degré de priorité y. The intelligence on board each shuttle and / or the centralized supervision system can be configured to allow the shuttle to unload the goods (s) and / or containers at said nearest station //, if the remaining reception capacity ( for example a number of containers likely to be accommodated in addition) of said closest station (¾ is greater than a capacity threshold x, w predetermined for said nearest station, whatever their degree of priority y.
Au contraire, si la capacité d’accueil restante de la ladite station la plus proche C(n) est inférieure audit seuil de capacité x,w prédéterminé pour la ladite station la plus proche, la ou les marchandises et/ou containers sont déchargés à ladite station la plus proche n uniquement si leur degré de priorité P est supérieur à un seuil de priorité y prédéterminé.
Au contraire, si leur degré de priorité P est inférieur audit seuil de priorité y, la ou les marchandises et/ou containers sont déchargés à la station n+1 qui suit immédiatement ladite station la plus proche n dans le sens d’avancement des navettes, si la capacité d’accueil restante de ladite station suivante C(n+i) est supérieure à un seuil de capacité x,„ i, prédéterminé pour ladite station suivante. On the contrary, if the remaining reception capacity of said nearest station C (n) is less than said predetermined capacity threshold x, w for said nearest station, the goods and / or containers are unloaded at said nearest station n only if their degree of priority P is greater than a predetermined priority threshold y. On the contrary, if their degree of priority P is lower than said priority threshold y, the goods and / or containers are unloaded at station n + 1 which immediately follows said nearest station n in the direction of advance of the shuttles. , if the remaining reception capacity of said next station C (n + i) is greater than a capacity threshold x, „i, predetermined for said next station.
Au contraire, si la capacité d’accueil restante de ladite station suivante C(n+i) est inférieure audit seuil de capacité X(n+i) prédéterminé pour la ladite station suivante, la ou les marchandises et/ou containers sont déchargés à la station n-1 qui précède immédiatement ladite station la plus proche n dans le sens d’avancement des navettes, si la capacité d’accueil restante de ladite station précédente C(n-i) est supérieure à un seuil de capacité x,„-i, prédéterminé pour la ladite station précédente. On the contrary, if the remaining reception capacity of said next station C (n + i) is less than said predetermined capacity threshold X ( n + i) for said next station, the goods and / or containers are unloaded at station n-1 which immediately precedes said nearest station n in the direction of advance of the shuttles, if the remaining reception capacity of said preceding station C (n -i ) is greater than a capacity threshold x, „ -i, predetermined for the said previous station.
Au contraire, si la capacité d’accueil restante de ladite station précédente C(n-i) est inférieure audit seuil de capacité X(„-i) prédéterminé pour la ladite station précédente, la ou les marchandises et/ou containers sont déchargés à ladite station la plus proche n si la capacité d’accueil restante de la ladite station la plus proche (¾ est supérieure audit seuil de capacité X(„) prédéterminé pour la ladite station la plus proche. On the contrary, if the remaining reception capacity of said previous station C (n -i ) is less than said predetermined capacity threshold X („- i) for said previous station, the goods and / or containers are unloaded at said closest station n if the remaining capacity of said nearest station (¾ is greater than said predetermined capacity threshold X ( „ ) for said nearest station.
Dans le cas où chaque station de chargement et/ou déchargement est configurée pour générer l'information relative à sa capacité d’accueil restante et transmettre ladite information aux navettes lorsque ces dernières sont présentes au voisinage de la station, la réalisation d’une telle sélection entraîne le déplacement de la navette dans un premier temps en direction de la station la plus proche n, puis éventuellement dans un deuxième temps en direction de la station qui suit «+7, puis éventuellement dans un troisième temps en direction de la station qui précède n-1 , puis éventuellement dans un quatrième temps en direction de la station la plus proche n et ainsi de suite. In the case where each loading and / or unloading station is configured to generate information relating to its remaining reception capacity and transmit said information to the shuttles when the latter are present in the vicinity of the station, the realization of such a selection causes the shuttle to move first in the direction of the nearest station n, then possibly in a second step in the direction of the next station "+7, then possibly in a third time in the direction of the station which precedes n-1, then possibly in a fourth step towards the nearest station n and so on.
Une telle sélection peut permettre une optimisation du stockage des marchandises au sein des stations en évitant leur saturation et peut permettre la livraison de marchandises à leur destination finale avec une ponctualité garantie. Such a selection can allow an optimization of the storage of goods within stations while avoiding their saturation and can allow the delivery of goods to their final destination with guaranteed punctuality.
La sélection des stations de chargement ou de déchargement 4 des navettes 17 peut s’effectuer de façon à tenir compte du caractère prioritaire du transport de certaines marchandises et/ou containers 3 par rapport à d’autres. Ainsi, en cas de capacité d’accueil réduite d’une station 4, on peut privilégier le déchargement à cette station 4 des marchandises et/ou containers les plus prioritaires, les autres marchandises et/ou containers les moins
prioritaires pouvant être déchargées à des stations 4 plus éloignées de leur destination finale mais disposant d’une capacité d’accueil plus grande, l’augmentation de la durée de livraison qui en résulte restant dans une limite acceptable. Le système peut encore être agencé pour qu’une marchandise et/ou container non prioritaire refasse un tour complet de la boucle si la station de déchargement prévue n’est pas disponible ; dans ce cas, la boucle sert d’espace de stockage des marchandises et/ou containers. The selection of the loading or unloading stations 4 of the shuttles 17 can be carried out so as to take into account the priority nature of the transport of certain goods and / or containers 3 over others. Thus, in case of reduced reception capacity of a station 4, it is possible to favor the unloading at this station 4 of the goods and / or containers with the highest priority, the other goods and / or containers the least priority being able to be unloaded at stations 4 further away from their final destination but having a greater reception capacity, the resulting increase in delivery time remaining within an acceptable limit. The system can also be arranged so that a non-priority merchandise and / or container makes a complete tour of the loop if the planned unloading station is not available; in this case, the loop serves as a storage space for goods and / or containers.
Ainsi, le réseau de communication précité peut être agencé pour permettre aux navettes 17 de recevoir une information relative à la capacité d’accueil restante de chaque station de chargement et/ou déchargement 4, la sélection des stations de chargement et/ou déchargement 4 où les navettes 17 sont chargées et/ou déchargées s’effectuant par exemple automatiquement en fonction de la capacité d’accueil restante des stations 4, de la destination finale et du degré de priorité du ou des marchandises et/ou containers. Chaque station de chargement et/ou déchargement 4 peut être configurée pour générer l'information relative à sa capacité restante et transmettre, notamment de manière périodique ou continue, ladite information au système de supervision centralisé 400 et/ou aux navettes 17, notamment lorsque ces dernières sont présentes au voisinage de la station 4. Le système de supervision centralisé 400 peut aussi, le cas échéant, être configuré pour transmettre, notamment de manière périodique ou continue, à chaque navette 17 l'information relative à la capacité restante de chaque station de chargement et/ou déchargement 4. Thus, the aforementioned communication network can be arranged to allow the shuttles 17 to receive information relating to the remaining reception capacity of each loading and / or unloading station 4, the selection of the loading and / or unloading stations 4 where the shuttles 17 are loaded and / or unloaded, for example taking place automatically as a function of the remaining capacity of the stations 4, of the final destination and of the degree of priority of the goods and / or containers. Each loading and / or unloading station 4 can be configured to generate information relating to its remaining capacity and transmit, in particular periodically or continuously, said information to the centralized supervision system 400 and / or to the shuttles 17, in particular when these The latter are present in the vicinity of station 4. The centralized supervision system 400 can also, if necessary, be configured to transmit, in particular periodically or continuously, to each shuttle 17 the information relating to the remaining capacity of each station. loading and / or unloading 4.
Le système de supervision centralisé 400 peut être configuré pour affecter à chaque marchandise et/ou container 3 au moins un degré de priorité. The centralized supervision system 400 can be configured to assign to each merchandise and / or container 3 at least one degree of priority.
Le système de supervision centralisé 400 peut être agencé pour superviser le chargement et/ou le déchargement des navettes 17, en donnant notamment des ordres pour le chargement et/ou le déchargement de celles-ci aux systèmes utilisés pour réaliser ce chargement et/ou déchargement. The centralized supervision system 400 can be arranged to supervise the loading and / or unloading of the shuttles 17, in particular by giving orders for the loading and / or unloading of the latter to the systems used to carry out this loading and / or unloading. .
Chaque navette 17 peut être configurée pour comparer le ou les degrés de priorité du ou des containers 3 et/ou marchandises transportés par la navette 17 avec le ou les degrés de priorité du ou des containers 3 et/ou marchandises transportés par au moins une autre navette 17, notamment une navette 17 qui précède ou qui suit, et adapter le comportement de la navette 17 en fonction de la comparaison des degrés de priorité. Par exemple, une navette 17 transportant une marchandise et/ou container non prioritaire pourra se garer temporairement sur une voie prévue à cet effet, pour permettre son dépassement par une
autre navette 17 à la demande de cette dernière. L’infrastructure peut ainsi comporter au moins une zone de stationnement 310, notamment enterrée, permettant à une navette 17 de doubler au moins une autre navette 17 dont le ou les degrés de priorité affectés aux marchandises et/ou containers 3 qu’elle transporte sont inférieurs, de manière à atteindre sa station de chargement et/ou déchargement 4 plus rapidement. Each shuttle 17 can be configured to compare the priority level (s) of the container (s) 3 and / or goods transported by the shuttle 17 with the priority level (s) of the container (s) 3 and / or goods transported by at least one other shuttle 17, in particular a shuttle 17 which precedes or follows, and adapt the behavior of the shuttle 17 as a function of the comparison of the degrees of priority. For example, a shuttle 17 transporting a non-priority goods and / or container may park temporarily on a lane provided for this purpose, to allow it to be passed by a another shuttle 17 at the request of the latter. The infrastructure can thus include at least one parking zone 310, in particular underground, allowing a shuttle 17 to overtake at least one other shuttle 17 whose priority level (s) assigned to the goods and / or containers 3 that it transports are lower, so as to reach its loading and / or unloading station 4 more quickly.
Une navette 17 pourra aussi ne pas décharger sa charge utile à une station 4 si une autre navette 17 lui demande, afin de disposer de la capacité d’accueil correspondante. A shuttle 17 may also not unload its payload at a station 4 if another shuttle 17 requests it, in order to have the corresponding reception capacity.
Chaque station de chargement et/ou de déchargement peut être configurée pour comparer le ou les degrés de priorité du ou des containers et/ou marchandises présents au sein de la station, et remonter en surface et/ou descendre jusqu’au tunnel ces derniers d’autant plus rapidement que leur degré de priorité est élevé. Each loading and / or unloading station can be configured to compare the degree (s) of priority of the container (s) and / or goods present within the station, and to rise to the surface and / or descend to the tunnel the latter d 'the faster the higher the priority.
Chaque marchandise et/ou container 3 peut comporter un circuit capable de transmettre automatiquement à la navette 17 qui la ou le transporte et/ou à au moins une autre navette 17, notamment une navette 17 qui précède ou qui suit et/ou au système de supervision centralisé 400, au moins une information sur sa destination finale, sa nature, son poids et/ou son degré de priorité. Each merchandise and / or container 3 may include a circuit capable of automatically transmitting to the shuttle 17 which transports it or it and / or to at least one other shuttle 17, in particular a shuttle 17 which precedes or follows and / or to the centralized supervision 400, at least one item of information on its final destination, its nature, its weight and / or its degree of priority.
Chaque navette peut être configurée pour se diriger automatiquement et de façon autonome vers une station de chargement et/ou déchargement 4 et adapter automatiquement sa vitesse de circulation, son niveau d’accélération/décélération, sa distance avec les navettes la précédant et la suivant, son itinéraire, en fonction de ladite information et de la capacité d’accueil restante des stations 4. Each shuttle can be configured to move automatically and autonomously towards a loading and / or unloading station 4 and automatically adapt its speed of movement, its level of acceleration / deceleration, its distance from the shuttles preceding and following it, its route, depending on said information and the remaining capacity of the stations 4.
Bien entendu, l’invention n’est pas limitée aux exemples qui viennent d’être décrits.
Of course, the invention is not limited to the examples which have just been described.
Claims
1. Système automatisé de transport de marchandises, comportant :1. Automated freight transport system, comprising:
- une pluralité de navettes de transport (17), de préférence autonomes, les navettes (17) pouvant être chargées chacune avec au moins une marchandise et/ou au moins un container (3) de transport de marchandises, au moins un degré de priorité étant affecté à au moins une marchandise et/ou à au moins un container (3), - a plurality of transport shuttles (17), preferably autonomous, the shuttles (17) can each be loaded with at least one merchandise and / or at least one container (3) for transporting merchandise, at least one degree of priority being assigned to at least one merchandise and / or at least one container (3),
- une infrastructure, notamment souterraine, sur laquelle circulent les navettes (17), cette infrastructure comportant des stations de chargement et/ou déchargement (4) des navettes (17), permettant de charger et/ou décharger les marchandises et/ou les containers (3) et de prendre en charge ces marchandises et/ou containers (3) avec des véhicules de surface, - an infrastructure, in particular underground, on which the shuttles (17) circulate, this infrastructure comprising loading and / or unloading stations (4) of the shuttles (17), making it possible to load and / or unload goods and / or containers (3) and to take charge of these goods and / or containers (3) with surface vehicles,
- au moins un réseau de communication permettant aux navettes (17) de recevoir une information relative à la capacité d’accueil restante de chaque station de chargement et/ou déchargement (4) pour recevoir des marchandises et/ou des containers (3), la sélection des stations de chargement et/ou déchargement (4) où les navettes (17) sont chargées et/ou déchargées s’effectuant automatiquement en fonction de la capacité d’accueil restante des stations (4), de la destination finale et du degré de priorité du ou des marchandises et/ou des containeurs (3) transportés par les navettes (17). - at least one communication network allowing the shuttles (17) to receive information relating to the remaining reception capacity of each loading and / or unloading station (4) to receive goods and / or containers (3), the selection of the loading and / or unloading stations (4) where the shuttles (17) are loaded and / or unloaded taking place automatically according to the remaining capacity of the stations (4), the final destination and the priority level of the goods (s) and / or containers (3) transported by the shuttles (17).
2. Système selon la revendication 1, les marchandises étant contenues dans des containeurs (3) de transport de marchandises, au moins un degré de priorité étant affecté à au moins un container (3) et/ou à au moins une marchandise contenue à l’intérieur du container (3). 2. System according to claim 1, the goods being contained in containers (3) for transporting goods, at least one degree of priority being assigned to at least one container (3) and / or to at least one goods contained in it. 'inside the container (3).
3. Système selon la revendication 1 ou 2, comportant un système de supervision centralisé (400). 3. System according to claim 1 or 2, comprising a centralized supervision system (400).
4. Système selon la revendication 3, le système de supervision centralisé (400) étant configuré pour affecter à chaque marchandise et/ou container (3) au moins un degré de priorité. 4. System according to claim 3, the centralized supervision system (400) being configured to assign to each merchandise and / or container (3) at least one degree of priority.
5. Système selon la revendication 3 ou 4, le système de supervision centralisé (400) étant agencé pour superviser le chargement et/ou le déchargement des navettes (17). 5. System according to claim 3 or 4, the centralized supervision system (400) being arranged to supervise the loading and / or unloading of the shuttles (17).
6. Système selon l’une quelconque des revendications précédentes, l’affectation d’au moins un degré de priorité à chaque marchandise et/ou container (3) étant
réalisée lorsque les marchandises et/ou containers (3) sont chargés sur les navettes (17) et/ou lorsque les containers (3) sont chargés avec la ou les marchandises à transporter. 6. System according to any one of the preceding claims, the assignment of at least one degree of priority to each merchandise and / or container (3) being carried out when the goods and / or containers (3) are loaded onto the shuttles (17) and / or when the containers (3) are loaded with the goods to be transported.
7. Système selon l’une quelconque des revendications précédentes, chaque navette (17) étant configurée pour comparer le ou les degrés de priorité du ou des containers 7. System according to any one of the preceding claims, each shuttle (17) being configured to compare the priority level (s) of the container (s)
(3) et/ou marchandises transportés par la navette (17) avec le ou les degrés de priorité du ou des containers (3) et/ou marchandises transportés par au moins une autre navette (17), notamment une navette (17) qui précède ou qui suit, et adapter le comportement de la navette (17) en fonction de la comparaison des degrés de priorité. (3) and / or goods transported by the shuttle (17) with the priority degree (s) of the container (s) (3) and / or goods transported by at least one other shuttle (17), in particular a shuttle (17) which precedes or follows, and adapt the behavior of the shuttle (17) according to the comparison of the priority degrees.
8. Système selon l’une quelconque des revendications précédentes, dont la revendication 3, chaque marchandise et/ou container (3) comportant un circuit capable de transmettre automatiquement à la navette (17) qui la ou le transporte et/ou à au moins une autre navette (17), notamment une navette (17) qui précède ou qui suit, et/ou au système de supervision centralisé (400), au moins une information sur sa destination finale, sa nature, son poids et/ou son degré de priorité. 8. System according to any one of the preceding claims, including claim 3, each merchandise and / or container (3) comprising a circuit capable of automatically transmitting to the shuttle (17) which transports it or it and / or at least another shuttle (17), in particular a shuttle (17) which precedes or follows, and / or to the centralized supervision system (400), at least one item of information on its final destination, its nature, its weight and / or its degree priority.
9. Système selon la revendication 8, chaque navette (17) étant configurée pour se diriger automatiquement et de façon autonome vers une station de chargement et/ou déchargement (4) et adapter automatiquement sa vitesse de circulation, son niveau d’accélération et/ou décélération, sa distance avec les navettes (17) la précédant et la suivant, son itinéraire, en fonction de ladite information et de la capacité d’accueil restante des stations (4). 9. System according to claim 8, each shuttle (17) being configured to move automatically and autonomously to a loading and / or unloading station (4) and automatically adapt its speed of movement, its level of acceleration and / or deceleration, its distance from the shuttles (17) preceding and following it, its route, as a function of said information and of the remaining capacity of the stations (4).
10. Système selon l’une quelconque des revendications précédentes, l’infrastructure comportant au moins une zone de stationnement (310), notamment enterrée, permettant à une navette (17) de doubler au moins une autre navette (17) dont le ou les degrés de priorité affectés aux marchandises et/ou containers (3) qu’elle transporte sont inférieurs, de manière à atteindre sa station de chargement et/ou déchargement (4) plus rapidement. 10. System according to any one of the preceding claims, the infrastructure comprising at least one parking area (310), in particular buried, allowing a shuttle (17) to overtake at least one other shuttle (17) including the one or more. the priority levels assigned to the goods and / or containers (3) that it transports are lower, so as to reach its loading and / or unloading station (4) more quickly.
11. Système selon l’une quelconque des revendications 1 à 10, dont la revendication 3, chaque station de chargement et/ou déchargement (4) étant configurée pour générer l'information relative à sa capacité restante et transmettre, notamment de manière périodique ou continue, ladite information au système de supervision centralisé (400) et/ou aux navettes (17), notamment lorsque ces dernières sont présentes au voisinage de la station 11. System according to any one of claims 1 to 10, of which claim 3, each loading and / or unloading station (4) being configured to generate the information relating to its remaining capacity and to transmit, in particular periodically or continuous, said information to the centralized supervision system (400) and / or to the shuttles (17), in particular when the latter are present in the vicinity of the station
(4).
(4).
12. Système selon l’une quelconque des revendications 1 à 10, dont la revendication 3, le système de supervision centralisé (400) étant configuré pour transmettre, notamment de manière périodique ou continue, à chaque navette (17) l'information relative à la capacité restante de chaque station de chargement et/ou déchargement (4). 12. System according to any one of claims 1 to 10, including claim 3, the centralized supervision system (400) being configured to transmit, in particular periodically or continuously, to each shuttle (17) the information relating to. the remaining capacity of each loading and / or unloading station (4).
13. Système selon l’une quelconque des revendications précédentes, au moins une partie de l’infrastructure de circulation des navettes (17) étant ferrée. 13. System according to any one of the preceding claims, at least part of the shuttle traffic infrastructure (17) being railroaded.
14. Système selon l’une quelconque des revendications précédentes, les navettes disposant chacune d’une intelligence embarquée. 14. System according to any one of the preceding claims, the shuttles each having on-board intelligence.
15. Système selon l’une quelconque des revendications précédentes, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé étant configuré pour déterminer la station de chargement et/ou de déchargement la plus proche de la destination finale du ou des marchandises et/ou containers. 15. System according to any one of the preceding claims, the intelligence on board each shuttle and / or the centralized supervision system being configured to determine the loading and / or unloading station closest to the final destination of the. goods and / or containers.
16. Système selon l’une quelconque des revendications précédentes, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé étant configuré pour déterminer un trajet optimal que la navette doit emprunter pour atteindre ladite station la plus proche, ce trajet optimal étant de préférence déterminé en minimisant la distance et/ou la durée du trajet. 16. System according to any one of the preceding claims, the intelligence on board each shuttle and / or the centralized supervision system being configured to determine an optimal path that the shuttle must take to reach said nearest station, this optimal path. preferably being determined by minimizing the distance and / or duration of the journey.
17. Système selon l’une quelconque des revendications précédentes, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé étant configuré pour permettre à la navette de décharger la ou les marchandises et/ou containers à ladite station la plus proche, si la capacité d’accueil restante de ladite station la plus proche est supérieure à un seuil de capacité prédéterminé pour la ladite station la plus proche, quel que soit leur degré de priorité. 17. System according to any one of the preceding claims, the intelligence on board each shuttle and / or the centralized supervision system being configured to allow the shuttle to unload the goods and / or containers at said nearest station. , if the remaining reception capacity of said closest station is greater than a predetermined capacity threshold for said closest station, regardless of their degree of priority.
18. Système selon l’une quelconque des revendications précédentes, l’intelligence embarquée sur chaque navette et/ou le système de supervision centralisé étant configuré pour permettre à la navette de décharger la ou les marchandises et/ou containers à ladite station la plus proche, si la capacité d’accueil restante de la ladite station la plus proche est inférieure audit seuil de capacité prédéterminé pour la ladite station la plus proche, uniquement si leur degré de priorité est supérieur à un seuil de priorité prédéterminé. 18. System according to any one of the preceding claims, the intelligence on board each shuttle and / or the centralized supervision system being configured to allow the shuttle to unload the goods and / or containers at said nearest station. , if the remaining reception capacity of said closest station is less than said predetermined capacity threshold for said closest station, only if their degree of priority is greater than a predetermined priority threshold.
19. Système selon l’une quelconque des revendications précédentes, l’intelligence embarquée sur chaque navette (17) étant configurée pour permettre une
commande d’éléments de routage par la navette (17) elle-même, afin notamment de lui permettre de modifier son itinéraire de façon autonome. 19. System according to any one of the preceding claims, the intelligence on board each shuttle (17) being configured to allow a control of routing elements by the shuttle (17) itself, in particular to enable it to modify its route independently.
20. Système selon l’une quelconque des revendications précédentes, l’infrastructure de circulation des navettes (17) comportant au moins un câble d’entrainement pour entraîner les navettes (17) sur au moins une partie de l’infrastructure, ces dernières comportant des moyens pour s’accoupler et se désaccoupler de façon autonome ou non du câble d’entrainement. 20. System according to any one of the preceding claims, the shuttle traffic infrastructure (17) comprising at least one drive cable for driving the shuttles (17) on at least part of the infrastructure, the latter comprising means for coupling and uncoupling independently or not from the drive cable.
21. Système selon l’une quelconque des revendications précédentes, l’infrastructure de circulation des navettes (17) comportant au moins une voie de circulation, notamment enterrée, sur laquelle les navettes (17) circulent de préférence de façon unidirectionnelle. 21. System according to any one of the preceding claims, the shuttle traffic infrastructure (17) comprising at least one traffic lane, in particular buried, on which the shuttles (17) preferably run unidirectionally.
22. Système selon la revendication 21, la voie de circulation étant en boucle (7) fermée, notamment en forme de huit, avec le cas échéant une ou plusieurs pénétrantes. 22. System according to claim 21, the traffic lane being in a closed loop (7), in particular in the shape of an eight, with one or more penetrating elements, if appropriate.
23. Système selon l’une quelconque des revendications précédentes, les navettes circulant de façon unidirectionnelle sur au moins une partie de l’infrastructure. 23. A system according to any preceding claim, the shuttles traveling unidirectionally over at least part of the infrastructure.
24. Système selon l’une quelconque des revendications précédentes, chaque station de chargement et/ou de déchargement étant configurée pour comparer le ou les degrés de priorité du ou des containers et/ou marchandises présents au sein de la station, et remonter en surface et/ou descendre jusqu’au tunnel ces derniers d’autant plus rapidement que leur degré de priorité est élevé.
24. System according to any one of the preceding claims, each loading and / or unloading station being configured to compare the degree (s) of priority of the container (s) and / or goods present within the station, and to rise to the surface. and / or descend to the tunnel, the faster the higher their priority level.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20700513.3A EP3911551A1 (en) | 2019-01-16 | 2020-01-16 | Automated system for transporting goods |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR1900400 | 2019-01-16 | ||
FR1900400A FR3091692B1 (en) | 2019-01-16 | 2019-01-16 | Automated freight transport system |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2020148408A1 true WO2020148408A1 (en) | 2020-07-23 |
Family
ID=67185203
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/EP2020/051065 WO2020148408A1 (en) | 2019-01-16 | 2020-01-16 | Automated system for transporting goods |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP3911551A1 (en) |
FR (1) | FR3091692B1 (en) |
WO (1) | WO2020148408A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117560559B (en) * | 2024-01-12 | 2024-04-05 | 陕西陆环环保工程有限公司 | Solid waste transportation state monitoring and prompting device and prompting method thereof |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CH546164A (en) * | 1971-04-07 | 1974-02-28 | Pomagalski Sa | INDEPENDENT VEHICLE TRANSPORTATION INSTALLATION. |
EP0678433A1 (en) * | 1994-04-22 | 1995-10-25 | Pomagalski S.A. | Transport installation with traction cable and on board motor |
US20020062759A1 (en) * | 2000-11-29 | 2002-05-30 | Faycal Chaabi | Point - to - point transportation system |
EP1456073A1 (en) * | 2001-12-12 | 2004-09-15 | Stein & Partner GmbH | Decentralized system for entirely automatic execution of transport services |
WO2018050869A1 (en) * | 2016-09-16 | 2018-03-22 | Vinci Construction | Buried system for goods distribution in urban areas |
-
2019
- 2019-01-16 FR FR1900400A patent/FR3091692B1/en active Active
-
2020
- 2020-01-16 EP EP20700513.3A patent/EP3911551A1/en not_active Withdrawn
- 2020-01-16 WO PCT/EP2020/051065 patent/WO2020148408A1/en unknown
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CH546164A (en) * | 1971-04-07 | 1974-02-28 | Pomagalski Sa | INDEPENDENT VEHICLE TRANSPORTATION INSTALLATION. |
EP0678433A1 (en) * | 1994-04-22 | 1995-10-25 | Pomagalski S.A. | Transport installation with traction cable and on board motor |
US20020062759A1 (en) * | 2000-11-29 | 2002-05-30 | Faycal Chaabi | Point - to - point transportation system |
EP1456073A1 (en) * | 2001-12-12 | 2004-09-15 | Stein & Partner GmbH | Decentralized system for entirely automatic execution of transport services |
WO2018050869A1 (en) * | 2016-09-16 | 2018-03-22 | Vinci Construction | Buried system for goods distribution in urban areas |
FR3056200A1 (en) | 2016-09-16 | 2018-03-23 | Vinci Construction | BURNER SYSTEM FOR DISTRIBUTION OF GOODS IN URBAN ENVIRONMENT |
FR3056201A1 (en) | 2016-09-16 | 2018-03-23 | Vinci Construction | BURNER SYSTEM FOR DISTRIBUTION OF GOODS IN URBAN ENVIRONMENT |
Non-Patent Citations (4)
Title |
---|
GATTUSO DOMENICO ET AL: "Automated rail wagon for new freight transport opportunities", 2017 5TH IEEE INTERNATIONAL CONFERENCE ON MODELS AND TECHNOLOGIES FOR INTELLIGENT TRANSPORTATION SYSTEMS (MT-ITS), IEEE, 26 June 2017 (2017-06-26), pages 57 - 62, XP033138590, DOI: 10.1109/MTITS.2017.8005581 * |
JIA BAOXIAN ET AL: "Solving the shortest-path problem in logistics distribution for vehicle-routing optimization", 2016 12TH INTERNATIONAL CONFERENCE ON NATURAL COMPUTATION, FUZZY SYSTEMS AND KNOWLEDGE DISCOVERY (ICNC-FSKD), IEEE, 13 August 2016 (2016-08-13), pages 471 - 475, XP032982016, DOI: 10.1109/FSKD.2016.7603219 * |
PIELAGE B: "Underground freight transportation. a new development for automated freight transportation systems in the Netherlands", INTELLIGENT TRANSPORTATION SYSTEMS, 2001. PROCEEDINGS. 2001 IEEE AUGUST 25-29, 2001, PISCATAWAY, NJ, USA,IEEE, 25 August 2001 (2001-08-25), pages 762 - 767, XP010555869, ISBN: 978-0-7803-7194-1 * |
SILVA C A ET AL: "Evolved genetic algorithms with fuzzy aggregation applied to priorities in logistic systems", EMERGING TECHNOLOGIES AND FACTORY AUTOMATION, 2003. PROCEEDINGS. ETFA '03. IEEE CONFERENCE SEPT. 16-19, 2003, PISCATAWAY, NJ, USA,IEEE, vol. 2, 16 September 2003 (2003-09-16), pages 775 - 781, XP010670885, ISBN: 978-0-7803-7937-4, DOI: 10.1109/ETFA.2003.1248777 * |
Also Published As
Publication number | Publication date |
---|---|
FR3091692B1 (en) | 2020-12-25 |
FR3091692A1 (en) | 2020-07-17 |
EP3911551A1 (en) | 2021-11-24 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP3512748B1 (en) | Buried system for goods distribution in urban areas | |
US11884307B2 (en) | Overhead transport and route management system | |
CN110462656B (en) | Mobile operations center with intermodal vehicle and unmanned aerial vehicle | |
EP3408721B1 (en) | Automatic transport system | |
US20140142868A1 (en) | Apparatus and method for inspecting track in railroad | |
US20210362758A1 (en) | Retention and loading and unloading in high speed transportation systems | |
EP3209531B1 (en) | Device for simulating an exchange between a train, especially an automatic underground train, and a dynamic test rig provided with such a device | |
CN104554294B (en) | Pipeline train intelligent high-speed goods delivery system | |
EP3105155A1 (en) | Method and device for driving parcel sorters for installations facilities having considerable changes in levels | |
FR3078530A1 (en) | CONTAINER FOR SYSTEM FOR DISTRIBUTION OF GOODS IN URBAN AREAS | |
CA3154674A1 (en) | An intelligent freight mobility system | |
WO2020148408A1 (en) | Automated system for transporting goods | |
WO2020148409A1 (en) | Automated system for transporting goods | |
FR2952456A1 (en) | Autonomous railway traffic management device, has processing circuit determining passage direction of railway vehicle and controls reading of data by reader and transmission of data towards information server by communication circuit | |
CN117963405A (en) | Automatic loading and unloading storage control system and loading and unloading equipment thereof | |
WO2019057346A1 (en) | Automated baggage handling at an airport site | |
FR3075144A1 (en) | RAILWAY VEHICLE, RAIL SYSTEM AND ASSOCIATED RAIL VEHICLE COMPOSITION PROCESS | |
WO2001060674A1 (en) | System and method for transporting and sorting isolated loads and individual vehicles used in said system | |
EP1494906B1 (en) | System of transporting road vehicles on trains | |
US20230220632A1 (en) | Rail tie handling system and method | |
EP4015337A1 (en) | Vehicle and method for inspecting a railway line | |
KR20230090196A (en) | Intermodal automatic water transport dedicated track anomaly detection system | |
WO2017093658A1 (en) | Automatic guided transport system comprising a universal platform | |
FR2828670A1 (en) | Cabin public transport has electric drives via ground pick ups with controlled three phase supply |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 20700513 Country of ref document: EP Kind code of ref document: A1 |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
ENP | Entry into the national phase |
Ref document number: 2020700513 Country of ref document: EP Effective date: 20210816 |