EP3421717B1 - Follower gear of a tunnelling machine comprising means for conveying a keystone - Google Patents

Description

FIELD OF THE INVENTION

The invention relates to a trailer of a follower train for a tunnel boring machine.

TECHNOLOGICAL BACKGROUND

Tunneling machines are known, called tunneling machines, which have a large mobile structure consisting of a large mobile plant at the front of which is disposed a shield having a section compatible with the future section in line with the final shape. of the tunnel (tunnel of circular, bilobed, rectangular section ...)

The front part of the shield which comes into contact with the cutting face to cut the geological formation traversed by the tunnel comprises a cutting head supporting working tools and driven in rotation at a determined speed which depends on the nature ground to dig.

Behind the shield, the TBM has a follower train, also known as a back-up, which advances at the same time as the cutting head when digging the tunnel.

This following train travels on a taxiway resting on the concrete envelope of the tunnel and consists of several trailers (or wagons) containing the various operating modules, such as for example the power supply devices, the hydraulic systems , air supply and ventilation devices or even sanitary rooms.

In order to allow the routing of the material necessary for the operation between the exterior and the following train, a passage is arranged in the lower part of the trailers in order to allow the circulation of a Vehicle Multi Services VMS (also known by its English name of Multi Service Vehicle, MSV) for conveying segments and other consumables (spare parts, pipes, material baskets, etc.) from the rear of the train behind to the shield.

It is therefore necessary to provide, within each trailer, a passage of sufficient size to allow the introduction and circulation of a VMS, which penalizes the overall size of each trailer, these must in addition transport the operating modules. In addition, the current regulations require the presence of rectilinear corridors to the maximum allowing the evacuation, if necessary, of the operators working on the site, and more particularly from the shield of the tunnel boring machine. It is also necessary to provide additional corridors for the maintenance of equipment and the transport of parts. These corridors and this passage therefore encroach on the space available for the operating modules.

Finally, the circulation of VMS in trailers poses safety problems, operators tending or being forced, depending on the models and sizes of tunnel boring machines, to pass through the same traffic lane as the VMS. However, such coactivity is not acceptable from a security point of view.

The document JP H11 30096 describes a trailer of a train following a tunnel boring machine according to the preamble of claim 1. More specifically, the trailer comprises a carriage mounted on casters and configured to transport segments by moving on a chassis located in the lower part of the trailer. To this end, the carriage is guided along the trailer using rails, extending on either side of the carriage, and moved by the wheels.

The document JP 2006 200296 describes a method of constructing a tunnel allowing sufficient construction at high speed by the early construction of a floor slab.

SUMMARY OF THE INVENTION

An objective of the invention is therefore to propose a solution to the problems described above, and more particularly a trailer including a larger space to allow the passage of operators and maintenance operations, without penalizing its capacity to transport operating modules, and which also makes it possible to simplify logistics operations and limit the risks of co-activity, thereby increasing the level of safety within the train follower in operation.

• des moyens de roulement configurés pour permettre un déplacement de la remorque sur une voie de circulation,
• un châssis comportant une partie inférieure comprenant les moyens de roulement et une partie supérieure, opposée aux moyens de roulement,
• des moyens de convoyage, fixés dans la partie inférieure du châssis, lesdits moyens de convoyage étant configurés pour déplacer au moins un support le long de la remorque, ledit support étant configuré pour transporter au moins un voussoir le long du châssis.

For this, the invention provides a trailer for a train following a tunnel boring machine comprising:

• rolling means configured to allow movement of the trailer on a traffic lane,
• a chassis comprising a lower part comprising the rolling means and an upper part, opposite the rolling means,
• conveying means, fixed in the lower part of the chassis, said conveying means being configured to move at least one support along the trailer, said support being configured to transport at least one segment along the chassis.

Preferably, the conveying means comprise two superimposed tracks of the double rail or hatch type.

• les moyens de convoyage s'étendent entre les moyens de roulement de la remorque.
• les moyens de convoyage comprennent au moins un rail et/ou au moins un convoyeur.
• la remorque comprend au moins deux rails s'étendant parallèlement l'un à l'autre, de préférence deux paires de rails s'étendant parallèlement deux à deux, les deux paires de rails étant superposées.
• le le convoyeur est un convoyeur à chaîne, le support étant alors configuré pour être fixé sur le convoyeur et entrainé par ledit convoyeur.
• la remorque comprend un couloir central configuré pour permettre une circulation d'un opérateur, ledit couloir central s'étendant au-dessus des moyens de convoyage.

Some preferred but non-limiting characteristics of the trailer described above are the following, taken individually or in combination:

• the conveying means extend between the rolling means of the trailer.
• the conveying means comprise at least one rail and / or at least one conveyor.
• the trailer comprises at least two rails extending parallel to one another, preferably two pairs of rails extending parallel in pairs, the two pairs of rails being superimposed.
• the conveyor is a chain conveyor, the support then being configured to be fixed on the conveyor and driven by said conveyor.
• the trailer comprises a central corridor configured to allow movement of an operator, said central corridor extending above the conveying means.

According to a second aspect, the invention also comprises a train following a tunneling machine comprising at least one trailer as described above.

• le train suiveur comprend au moins deux remorques et un pont de jonction configuré pour connecter les moyens de convoyage de l'une des remorques aux moyens de convoyage de l'autre des remorques de manière à permettre le transfert d'au moins un voussoir le long des deux remorques via leurs moyens de convoyage respectifs.
• les moyens de convoyage des deux remorques comprennent chacun au moins un rail et dans lequel le pont de jonction entre lesdits rails comprend une portion de rail fixée sur chacun des rails par l'intermédiaire de liaisons mécaniques comportant une liaison glissière et au moins l'une des liaisons suivantes : une liaison pivot simple, une double liaison pivot, une liaison rotule.
• le train suiveur comprend un plateau tournant configuré pour réceptionner un support configuré pour transporter au moins un voussoir le long du châssis, ledit plateau tournant étant configuré pour tourner le support afin de faciliter la préhension par un érecteur d'un voussoir porté par le support.
• les moyens de convoyage comprennent deux paires de rails superposés, le plateau tournant étant en outre configuré pour déplacer verticalement le support et le transférer de l'une des paires de rails à l'autre.

Some preferred but non-limiting characteristics of the following train described above are the following, taken individually or in combination:

• the following train comprises at least two trailers and a junction bridge configured to connect the conveying means of one of the trailers to the conveying means of the other of the trailers so as to allow the transfer of at least one segment along of the two trailers via their respective conveying means.
• the conveying means of the two trailers each comprise at least one rail and in which the junction bridge between said rails comprises a portion of rail fixed to each of the rails by means of mechanical connections comprising a slide connection and at least one of the following connections: a single pivot connection, a double pivot connection, a ball joint connection.
• the follower train comprises a turntable configured to receive a support configured to transport at least one segment along the chassis, said turntable being configured to rotate the support in order to facilitate the gripping by an erector of a segment carried by the support.
• the conveying means comprise two pairs of superimposed rails, the turntable being further configured to vertically move the support and transfer it from one of the pairs of rails to the other.

According to a third aspect, the invention provides a tunneling machine comprising a follower train as described above.

BRIEF DESCRIPTION OF THE DRAWINGS

• La figure 1 est une vue en perspective d'un exemple de réalisation d'une remorque pouvant être utilisée dans l'invention, sur laquelle le support a été omis.
• La figure 2 est une vue en coupe d'une remorque illustrée en figure 1 et sur laquelle ont été schématisés des exemples de modules d'exploitation ainsi qu'un exemple de support portant des voussoirs.
• La figure 3 est une vue de côté schématique illustrant un tunnelier comprenant des exemples de remorques conformes à l'invention.
• Les figures 4a et 4b illustrent un premier et un deuxième exemple de réalisation d'un support configuré pour porter un voussoir et pouvant être utilisé avec une remorque conforme à l'invention.
• Les figures 5a, 5b et 5c illustrent le support de la figure 4a lors de son arrivée à l'avant d'un train suiveur (figure 5a), le déchargement du voussoir (figure 5b) et le retour du support à vide (figure 5c).
• La figure 6 illustre un troisième exemple de réalisation d'un support configuré pour porter un voussoir et un exemple de moyen de convoyage associé, lorsque le support arrive à l'avant du train suiveur.
• La figure 7 illustre deux exemples de remorque conformes à l'invention comportant des exemples de modules d'exploitation ainsi qu'un exemple de pont de jonction entre des moyens de convoyage.
• La figure 8 est une vue en détail de l'un des ponts de jonction de la figure 7 dans un virage avec pente.

Other characteristics, objects and advantages of the present invention will appear better on reading the detailed description which follows, and with regard to the appended drawings given by way of nonlimiting examples and in which:

• The figure 1 is a perspective view of an exemplary embodiment of a trailer which can be used in the invention, on which the support has been omitted.
• The figure 2 is a sectional view of a trailer illustrated in figure 1 and on which have been shown schematically examples of operating modules as well as an example of support carrying segments.
• The figure 3 is a schematic side view illustrating a tunnel boring machine comprising examples of trailers according to the invention.
• The Figures 4a and 4b illustrate a first and a second embodiment of a support configured to carry a segment and which can be used with a trailer according to the invention.
• The Figures 5a, 5b and 5c illustrate the support of the figure 4a when arriving at the front of a follower train ( figure 5a ), unloading the segment ( figure 5b ) and the return of the vacuum support ( figure 5c ).
• The figure 6 illustrates a third embodiment of a support configured to carry a segment and an example of associated conveying means, when the support arrives at the front of the following train.
• The figure 7 illustrates two examples of a trailer in accordance with the invention comprising examples of operating modules as well as an example of a junction bridge between conveyor means.
• The figure 8 is a detailed view of one of the connecting bridges of the figure 7 in a bend with slope.

DETAILED DESCRIPTION OF AN EMBODIMENT

Conventionally, a tunnel boring machine 1 comprises, in the front part, a shield 2 having a substantially circular section whose diameter corresponds to the diameter of the tunnel which is dug. The shield 2 is provided with a cutting head which comes into contact with the cutting face to dig the tunnel.

The tunnel boring machine 1 also comprises a follower train 3 extending behind the shield 2 and which advances at the same time as the cutting head during the digging of the tunnel. The follower train 3 moves on a taxiway 5 resting on the concrete envelope formed by segments 7 of the tunnel.

The following train 3 is made up of several trailers 10 (or wagons) which include the various operating modules 6. Usually, but in a nonlimiting manner, the following train 3 includes several trailers 10: a suspended trailer (also called a "bridge" ”) 8, connected to an erector (part of the shield) and configured to set up segments 7 against the wall cut by the cutting head, four or five central trailers 10 comprising the operating modules 6, and two trailers rear 9 configured to load the segments 7 in the following train 3.

In what follows, we will designate by “rear” the part of a trailer 10 or the following train 3 farthest from the shield 2, as opposed to “front” which will designate the part of the trailer 10 or the following train 3 the closer to the shield 2, when the trailer 10 is part of a tunnel boring machine 1.

• des moyens de roulement 11 configurés pour permettre le déplacement de la remorque 10 sur la voie de circulation 5,
• un châssis 20 comportant une partie inférieure 21 comprenant les moyens de roulement 11 et une partie supérieure 26, opposée aux moyens de roulement 11,
• des moyens de convoyage 30, fixés dans la partie inférieure 21 du châssis 20, lesdits moyens de convoyage 30 étant configurés pour déplacer au moins un support 40 le long de la remorque 10, ledit support 40 étant configuré pour transporter au moins un voussoir le long du châssis 20.

A trailer 10 according to the invention comprises:

• rolling means 11 configured to allow movement of the trailer 10 on the taxiway 5,
• a chassis 20 comprising a lower part 21 comprising the rolling means 11 and an upper part 26, opposite the rolling means 11,
• conveying means 30, fixed in the lower part 21 of the chassis 20, said conveying means 30 being configured to move at least one support 40 along the trailer 10, said support 40 being configured to transport at least one segment along chassis 20.

The trailer 10 is therefore directly used to transport the segments 7 from the rear of the follower train 3 by cooperating with a support 40, without requiring the use of a VMS 4. This therefore makes it possible to greatly reduce the size of the passage necessary for allow the supply and return of the segments 7, since a simple support 40 moving or being moved along conveyor means 30 is sufficient. The volume thus gained can be used for the realization of one or more corridors for operators, maintenance operations or even the transport of parts.

The trailer 10 may include a support 40.

In one embodiment, each central trailer 10 comprises conveying means 30 fixed in their lower part 21 in order to allow the support 40 to move from the rear part of the central trailer 10 furthest from the shield 2 towards the front part of the central trailer 10 closest to the shield 2. The conveying means 30 of a given trailer 10 are therefore connected to the conveying means 30 of the next trailer 10 in order to allow the transfer of the support 40 from a trailer 10 to the 'other.

It will of course be understood that several supports 40, each carrying one or more segments 7, can therefore be transported by the follower train 3 simultaneously. The central trailers 10 therefore form segments of segments 7 for their recovery by the erector who will then be responsible for fixing them against the wall of the tunnel which is excavated.

This configuration can make it possible, depending on the size of the tunnel, to store in the follower train 3 at least all of the segments 7 necessary to make a complete ring of the tunnel.

The rear trailers 9 can either include conveying means 30, or a housing configured to receive a VMS 4 in order to bring the segments 7 to the central trailers 10 and allow their loading onto the support (s) 40 (s) of the central trailers 10.

The rolling means 11 can be conventional and include, for example, bogies.

The supports 40 are adapted to be moved by the conveying means 30 along the trailer 10, or alternatively to move along the conveying means 30 along said trailer 10.

For example, the conveying means 30 may comprise at least two superposed tracks. For example, the tracks can be formed by rails or a conveyor.

In a first embodiment illustrated on the Figures 4a to 5c , the conveying means 30 comprise at least one rail 32. The support 40 then comprises means configured to cooperate with the rail 32 and thus allow the movement of the support 40 along the rail 32. The support 40 can be placed on the rail 32, in which case the segment 7 can be placed on the support 40, or alternatively be suspended from said rail 32, in which case the segment 7 is fixed on the support 40.

In one embodiment, the conveying means 30 comprise two parallel rails 32 and the support 40 comprises a carriage comprising associated displacement means, for example wheels 42 of the rail wheel type 42 comprising a tread, at least one flange (preferably two) and a bandage. In this embodiment, the support 40 is therefore placed on the rails 32. Preferably, the rails 32 extend in a horizontal plane (parallel to the ground).

We have for example illustrated on Figures 4a and 4b two exemplary embodiments of a carriage that can serve as a support 40.

In the example of the figure 4a , the carriage 40 comprises a base comprising two parallel bars 43 at the end of each of which are fixed one or two railway wheels 42. The bars 43 are interconnected by one or more crosspieces 44 making the carriage monobloc. The carriage 40 further comprises, on the face intended to receive the segment or segments 7, wedges 45 configured to prevent the segment (s) 7 from moving. These shims 45 are here formed of inclined walls configured to come into contact with the convex face of the segments 7. The shims 45 may be flat or alternatively concave in order to conform to the convex shape of the face opposite the segments 7. They can be fixed or removable depending on what is desired for the trolley.

In the example of the figure 4b , the carriage 40 only comprises the two bars 43 parallel to the end of each of which are fixed one or two railway wheels 42. The bars 43 are connected together by one or more flexible connecting members 46. Here, the member link 46 includes a chain. The carriage 40 further comprises, on the face intended to receive the segment or segments 7, wedges 45 configured to prevent the segment (s) 7 from moving. These shims 45 can be substantially identical to those described above.

When the trailer 10 comprises only one pair of rails 32, the support 40 brings the segments 7 by moving along the rails 32 from the rear of the trailer 10 towards the front of the trailer 10 (that is that is to say towards the shield 2), where the segments 7 are unloaded, then returns by moving along these same rails 32 to the rear of the trailer 10 in order to allow it to be reloaded with new segments 7.

When the trailer 10 in question is the central trailer 10 closest to the shield 2, the support 40 is unloaded by a mechanism configured to place the segments 7 at the disposal of the erector for their attachment to the wall of the tunnel.

In a variant of this embodiment, illustrated for example in Figures 5a to 5c , the conveying means 30 comprise two superimposed tracks formed by two pairs of rails 32 extending in parallel two by two, one of the pairs of rails 32 being configured to transport the support 40 loaded with segments 7 towards the shield 2 while the other pair of rails 32 is configured to bring the support 40 empty towards the rear of the follower train 3.

The pairs of rails 32 are preferably superimposed, that is to say that they extend generally one above the other (in a vertical direction, that is to say perpendicular to the layout tunnel). This configuration in fact makes it possible to reduce the space required on the ground for the conveying means 30 and the supports 40 while leaving a sufficient volume above the supports 40 to arrange the corridor for the operators, the maintenance and the transport of parts. . Typically, this configuration makes it possible to house the conveying means 30 between the rolling means 11, in the lower part of the lower part 21 of the chassis 20.

In use, the support 40 is moved along the follower train 3 by means of a first pair of rails 32, for example the pair of upper rails 32. The support 40 goes up along the following train 3 thanks to the pair of upper rails 32 until reaching the central trailer 10 furthest forward, near the suspended trailer (bridge) 8 and the erector. Arrived at the level of the most forward central trailer 10, the support 40 leaves the rails 32 in order to allow its unloading and its return towards the rear of the following train 3, via the other pair of rails 32.

For this, during a first step, a transfer plate 50 can be placed in the extension of the upper rails 32 in order to be able to receive the support 40 loaded with segment (s) 7 ( figure 5a ).

Then, during a second step, the support 40 is placed on the plate 50.

During a third optional stage, the plate 50 can rotate 90 ° in order to facilitate the gripping of the segment 7 by the erector ( figure 5b ). Indeed, during its transport, the segment 7 is preferably placed on the support 40 so as to minimize its size in the direction perpendicular to its direction of movement in the following train 3. The segment 7 is therefore placed on the support 40 so its greatest length is parallel to its direction of travel. In other words, during the movement of the segment 7 in the follower train 3, the axis defining the curvature of the convex face of the segment 7 is perpendicular to the direction of movement. However, to allow the segment 7 to be placed in the tunnel by the erector, it is necessary to rotate the segment 7 by 90 ° relative to its orientation when transported by the support 40.

During a fourth step, the segment 7 is then unloaded onto a gripping table of the erector.

During a fifth step, the plate 50 is lowered in order to place it in line with the pair of lower rails 32, and turned again by 90 ° (in one direction or the other) in order to position the wheels 42 of the support 40 opposite the rails 32 ( figure 5b ).

During a sixth step, the support 40 is slid over the lower rails 32 and returned empty to the rear of the follower train 3.

The support 40 may comprise a motor configured to rotate all or part of its wheels 42 so as to allow its movement along the rails 32. As a variant, the support 40 may be passive and not include a motor, in which case it may be towed or pushed along the rails 32 by a motor placed on the follower train 3, on the shield 2 or even on a part external to the tunnel boring machine 1, at the rear of the follower train 3.

In a second embodiment, illustrated on the figure 6 , the conveyor means 30 comprise a conveyor 34. For example, the conveyor 34 may be of the chain conveyor type 34 and comprise a single conveyor belt forming two superposed tracks on which the support 40 is fixed, typically a support plate, or by variant include two chains moving at the same speed and on which are fixed studs 47 configured to carry, together, the segment or segments 7. In the embodiment illustrated in figure 6 , the support 40 comprises two pairs of studs 47 fixedly attached to two chains and configured to support one or more segments 7. Here, the studs 47 are of substantially rectangular shape, a rod projecting from each of said studs 47, and the segment 7 is placed in balance on the four rods. Where appropriate, the studs 47 can be connected two by two in order to stiffen the support 40.

When the support 40 is fixed on the conveyor 34, as is the case of a chain conveyor 34, a single conveyor 34 may suffice to supply the erector with segments 7 and then bring the support 40 empty. In fact, when the support 40 is on the upper part 26 of the conveyor 34, the segments 7 can be placed on the support 40 and brought to the erector then, once the support 40 is unloaded, the latter can be brought back by passing in the lower part 21 of the conveyor 34 by simply following the movement of the chain or chains. It is therefore not necessary to transfer the supports 40 with a view to their return towards the rear of the follower train 3, these being fixed on the conveyor 34. However, the segment 7 is also placed on the support 40 so that its greatest length is parallel to its direction of movement in order to minimize its bulk, it can be envisaged to receive the segment 7 on a turntable 50 in order to rotate it 90 ° before it is gripped by the erector. It will be understood that here the plate 50 can only be a rotating plate and that it is not necessary for this plate to be able to move vertically.

• un jeu de rouleaux de convoyage montés à rotation sur le bâti autour d'un axe sensiblement perpendiculaire à la direction de convoyage des voussoirs 7,
• un ensemble de billes sphériques montées libres en rotation sur le bâti,
• un ensemble de billes sphériques montées en rotation sur le bâti autour d'un axe sensiblement perpendiculaire à la direction de convoyage des voussoirs 7.

According to another alternative embodiment (not visible in the figures), the conveyor 34 may include a frame and:

• a set of conveyor rollers mounted for rotation on the frame around an axis substantially perpendicular to the conveying direction of the segments 7,
• a set of spherical balls mounted free in rotation on the frame,
• a set of spherical balls mounted in rotation on the frame around an axis substantially perpendicular to the conveying direction of the segments 7.

In this alternative embodiment, the support 40 then has a substantially smooth lower face configured to slide on the conveying rollers or the spherical balls and to interface with the rollers or the balls so as not to risk damaging the segments 7 during their displacement. The support 40 is also passive and is pulled or pushed along of the conveyor 34 by a motor placed on the follower train 3, on the shield 2 or even on a part external to the tunnel boring machine 1, at the rear of the follower train 3.

Thanks to the conveying means 30 fixed to the trailer 10 and the use of supports 40 instead of a follower train 3 to supply the erector with segments 7, it is possible to modify the configuration of the trailers 10 in order to optimize the positioning of the different operating modules 6 and creating one or more lanes 12 for operators, maintenance operations and the transport of parts.

We have for example illustrated in figure 1 an example embodiment of a chassis 20 of a trailer 10 which can be implemented in this invention.

The chassis 20 comprises the lower part 21 and the upper part 26 described above.

The lower part 21 here comprises a front cross member 22a and a rear cross member 22b extending substantially parallel to one another and connected together by a central plate 23. The front cross member 22a and the rear cross member 22b serve for fixing platforms configured to each receive one or more operating modules 6.

The front cross member 22a and the rear cross member 22b further extend substantially perpendicular to the direction of movement of the trailer 10 in the tunnel. As we will see later, the central tray 23 can serve as a base for the transport of equipment, personnel, etc. To this end, the central plate 23 can in particular be equipped with one or more rails 32 extending in the direction of movement of the trailer 10, in order to allow the transport of heavy loads and / or light loads.

The lower part 21 further comprises a front structure 24, on which are fixed front rolling means 11, the front end of the conveying means 30 of the trailer 10 and the front cross member 22a, and a rear structure 24, on which are fixed rolling means 11 rear, the rear end of the conveying means 30 of the trailer 10 and the rear cross member 22b.

More specifically, each structure 24 comprises a C-shaped base configured to take up the pressure forces of the trailer 10. The base 24 in C also comprises an external face (adapted to extend opposite the taxiway 5) on which are fixed the rolling means 11. The C shape of the structure 24 makes it possible to adapt the chassis 20 to the circular shape of the tunnel dug by the cutting head.

Each crosspiece is fixed to the corresponding structure 24 at the free ends of the base 24 in C. The conveying means 30 are then fixed to the internal face of the base 24 in C, in its lower part, between the means 11.

In the case where the conveying means 30 comprise two pairs of rails 32 or two pairs of conveyors 34 in parallel (case in particular of roller or ball conveyors 34), said pairs of rails 32 (or conveyors 34) are then fixed one above the other, leaving sufficient space between the upper pair and the central plate 23 (respectively between the lower pair and the upper pair) to allow the passage of the support 40 equipped with the desired number of segments 7 , and between the upper pair and the lower pair (respectively between the upper pair and the central plate 23) to allow the passage of the support 40 when empty.

As a variant, in the case of the chain conveyor 34, said conveyor 34 is fixed to the base 24 at C, leaving sufficient space between its upper face and the central plate 23 to allow the passage of the support 40 equipped with the number of segments. 7 desired, and between its underside and the ground to allow the passage of the support 40 empty

Where appropriate, each structure 24 further comprises two vertical uprights 25 fixing the cross member associated with the base 24 at C. The conveying means 30 can then be fixed between these two uprights 25.

The upper part 26 of the chassis 20 comprises, similarly to the lower part 21, a front cross member 27a and a rear cross member 27b. These crosspieces 27a, 27b are interconnected by lateral crosspieces 28. The front crosspieces 27a, rear 27b and sidepieces 28 are used for fixing platforms configured to each receive one or more operating modules 6.

The upper part 26 is fixed to the lower part 21 by means of structural uprights 29 extending vertically between the front crosspieces 22a, 27a and rear 22b, 27b of each part 21, 26. Where appropriate, these structural uprights 29 extend in the extension of the uprights 26 of the structures 24.

• une remorque suspendue 8 (bridge), connectée à un érecteur,
• au moins une remorque centrale 10 comprenant des modules d'exploitation 6, de préférence entre quatre et cinq remorques centrales 10, et
• au moins une remorque arrière 9 configurée pour charger les voussoirs 7, par exemple deux remorques arrière 9.

A follower train 3 in accordance with an embodiment of the invention may thus include, without limitation, from front to rear from the shield 2:

• a suspended trailer 8 (bridge), connected to an erector,
• at least one central trailer 10 comprising operating modules 6, preferably between four and five central trailers 10, and
• at least one rear trailer 9 configured to load the segments 7, for example two rear trailers 9.

The central trailers 10 each comprise conveying means 30 as described above. At least one support 40 is placed on these conveying means 30 in order to transport at least one segment 7. The follower train 3 may comprise one or more supports 40 per central trailer 10 (see figure 3 ).

In order to allow the passage of the support 40 from a central trailer 10 to the neighboring central trailer 10 and to take up the forces between the two central trailers 10, a junction bridge 60 can be provided between the conveying means 30 of said central trailers 10 .

In the case of conveyor means 30 comprising a conveyor 34, and more particularly a conveyor 34 with chain (s), the chain or chains of the conveyor 34 may simply extend along the set of central trailers 10 in order to allow the passage of the support 40 of the center trailer 10 furthest back to center trailer 10 furthest forward. These chains being relatively flexible, they adapt to any relative movements between two adjacent trailers 10 (due in particular to turns, unevenness of the ground and slopes) without breaking, while ensuring the passage of the support 40 of a central trailer 10 to the next. The junction bridge 60 between two adjacent central trailers 10 is therefore formed by the conveyor 34 itself.

In the case of conveying means 30 comprising one or more rails 32, the presence of a junction bridge 60 capable of compensating for any relative movements between two adjacent central trailers 10 is preferable, the rails 32 being rigid and hardly able to deform without breaking. For example, the connecting bridge 60 may comprise a portion of rail 61, the thickness and where appropriate the height and the constituent material are substantially the same as that (those) of the rails 32 of the trailers 10.

• une simple liaison pivot dont l'axe de pivotement est vertical (c'est-à-dire sensiblement perpendiculaire à a voie de circulation 5). Cette liaison permet ainsi de compenser les rotations relatives des remorques centrales 10 dans les virages.
• une double liaison pivot comprenant un pivot dont l'axe est vertical et un pivot dont l'axe est horizontal (parallèle à la voie de circulation 5) et transversal à la direction de déplacement. Cette liaison permet ainsi de compenser les rotations relatives des remorques centrales 10 dans les virages et ainsi que celles résultant à une pente.
• une liaison rotule, afin de compenser les rotations relatives des remorques centrales 10 dans les virages et ainsi que celles résultant à une pente.

The rail portion 61 is then mounted on the rail 32 of the central trailers 10 which it connects via two mechanical connections 62, 65. The first mechanical connection 62 may comprise one of the following connections:

• a simple pivot link whose pivot axis is vertical (that is to say substantially perpendicular to a taxiway 5). This link thus compensates for the relative rotations of the central trailers 10 when cornering.
• a double pivot link comprising a pivot whose axis is vertical and a pivot whose axis is horizontal (parallel to the taxiway 5) and transverse to the direction of movement. This connection thus makes it possible to compensate for the relative rotations of the central trailers 10 when cornering and as well as those resulting from a slope.
• a ball joint, in order to compensate for the relative rotations of the central trailers 10 when cornering and as well as those resulting from a slope.

Where appropriate, the first mechanical connection 62 further comprises a slide connection 64 in order to compensate for the length play induced by the curves of the tunnel.

The second mechanical connection 63 may comprise a single pivot connection, a double pivot connection, a ball joint connection or an embedding connection.

In the embodiment illustrated in the figures 6 and 7 , the first mechanical connection 62 comprises a double pivot connection 63 and a slide connection 64 while the second mechanical connection 65 comprises a double pivot connection. As can be seen in particular in figure 7 , which illustrates the configuration of the junction bridge 60 while the adjacent central trailers 10) take a slope, the rail portion 61 pivots around the horizontal axis to take up the rotational forces due to the slope and around the 'vertical axis to resume the rotational forces applied to the rails 32 of the trailers 10 which are due to the turn. The slide link 64, for its part, is elongated, in order to resume the play of length induced by the turn.

Preferably, in the case where such a junction bridge 60 is used, the support 40 comprises railway wheels 42 with double flanges in order to guarantee the stability and the guiding of the support 40 during its passage over the junction bridge 60.

The rear trailers 9 conventionally include an internal passage allowing the introduction of a VMS 4 into said trailers 10 in order to bring segments 7 to the central trailers 10.

In use, segments 7 are brought by a VMS 4 to the following train 3, from the rear thereof. The VMS 4 enters the rear trailer 9, for example by rolling on an inclined plane, crosses it to reach the first central trailer 10, where the segments 7 are unloaded either directly on one or more supports 40, or on a device waiting before being placed on one or more supports 40. The supports 40 are then successively placed on the conveying means 30 of this first central trailer 10 and then moved (either by their own means using a motor, either by the conveying means 30 themselves (in particular in the case of a chain conveyor 34), or by means external to the support 40 and to the conveying means 30) in order transporting the segments 7 along the first trailer 10 and then along the following central trailers 10 via the connecting bridges 60, to the suspended trailer (bridge) which is located at the very front. Each support 40 can transport one or more segments 7 at a time. In one embodiment, each support 40 carries a single segment 7 at a time, in order to reduce the vertical space required for the passage of the segments 7 and thus increase the volume available for the central corridor 12.

In parallel, optionally, the VMS 4 can back up to fetch additional segments 7 then return, once loaded, to the level of the first trailer 10 passing through the rear trailer 9 in order to unload the additional segments 7 on the supports 40. These supports 40 will then follow the supports 40 already loaded towards the front of the following train 3. It is possible to repeat the loading of supports 40 until there is no longer any space on the means conveying 30 of the follower train 3 for an additional support 40.

It will be noted that, thanks to the use of central trailers 10 comprising conveyor means 30, the VMS 4 only needs to pass through one, or even two conventional rear trailers 9. These are the supports 40 which will progressively advance in the follower train 3, passing from one central trailer 10 to the other. Advantageously, supports 40 can be stored in a row in the central trailers 10, so that the follower train 3 can transport a large number of segments 7 at the same time, this number being sometimes sufficient to produce a complete segment of segments 7 covering the entire periphery of the tunnel to be built.

In addition, insofar as the VMS 4 stops at the entrance to the first central trailer 10 to unload the segments 7 therein and these segments 7 are transported in the lower part 21 of the chassis 20 of the central trailers 10 by means conveyor 30, it is no longer necessary to provide a central recess in the chassis 20 in order to allow circulation of the VMS 4 through the central trailers 10. Only a restricted passage, in the lower part 21, remains necessary to accommodate the conveying means 30 and the support or supports 40 and thus allow the supply of the segments 7. Part of the volume initially used to allow the circulation of the VMS 4 can therefore be converted into storage space for operating modules 6 and / or in transit for operators, maintenance corridors, etc. In the embodiment illustrated in the figures, the volume thus recovered (relative to the volume of the passage formed in the rear trailer 9 for the VMS 4) corresponds to the central corridor 12, which is delimited by the central plate, the uprights 26 and the upper part 26 of the chassis 20 (front, rear and side crosspieces) (see figure 2 ). This central corridor 12 thus allows operators to circulate on a different lane from that used by the means of transport of segments, which eliminates the risks of coactivity between operators and different vehicles. This passage also simplifies logistics operations, notably by facilitating maintenance operations and transporting consumables.

Claims (12)

1. A trailer (10) of a backup train (3) of a tunnel boring machine (1) comprising:

   - rolling means (11) configured to allow movement of the trailer (10) on a circulation route (5),

   - a chassis (20) including a lower portion (21) comprising the rolling means (11) and an upper portion (26), opposite to the rolling means (11),

   - conveying means (30), fixed in the lower portion (21) of the chassis (20),

   the trailer being characterized in that the conveying means (30) comprise two superimposed paths (32, 34) configured to move at least one support (40) along the trailer (10), said support being configured to transport at least one arch segment (7) along the chassis (20).
2. The trailer (10) according to claim 1, wherein the conveying means (30) extend between the rolling means (11) of the trailer (10).
3. The trailer (10) according to one of claims 1 or 2, wherein the conveying means (30) comprise at least one rail (32) and/or at least one conveyor (34).
4. The trailer (10) according to claim 3, wherein the superimposed paths comprise two pairs of rails (32) extending in parallel two by two, the two pairs of rails (32) being superimposed.
5. The trailer (10) according to claims 3, wherein the conveyor (34) is a chain-link conveyor (34), the chain forming the two superimposed paths, the support (40) then being configured to be fixed to the conveyor (34) and driven by said conveyor (34).
6. The trailer (10) according to one of claims 1 to 5, comprising a central corridor (12) configured to allow circulation of an operator, said central corridor (12) extending above the conveying means (30).
7. A backup train (3) of a tunnel boring machine (1) characterized in that it comprises at least one trailer (10) according to one of claims 1 to 6.
8. The backup train (3) according to claim 7, comprising at least two trailers (8, 9, 10) according to one of claims 1 to 6, and a connecting bridge (60) configured to connect the conveying means of one of the trailers (10) to the conveying means (30) of the other of the trailers (10) so as to allow the transfer of at least one arch segment (7) along the two trailers via their respective conveying means (30).
9. The backup train (3) according to claim 8, wherein the conveying means (30) of the two trailers each comprise at least one rail (32) and wherein the connecting bridge (60) between said rails (32) comprises a portion of rail (61) fixed to each of the rails (32) by means of mechanical joints including a sliding joint and at least one of the following joints: a single pivot joint, a double pivot joint, a ball joint.
10. The backup train (3) according to one of claims 7 to 9, comprising a rotating plate configured to receive a support (40) configured to transport at least one arch segment (7) along the chassis (20), said rotating plate (50) being configured for turning the support (40) so as to facilitate gripping by an erector of an arch segment (7) carried by the support (40).
11. The backup train (3) according to claim 10, wherein the conveying means (30) comprise two superimposed pairs of rails (32), the rotating plate (50) also being configured to move the support (40) vertically and transfer it from one of the pairs of rails (32) to the other.
12. A tunnel boring machine (1) comprising a backup train (3) according to one of claims 7 to 11.

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