EP1061178B1 - Passage for road median barrier - Google Patents

Abstract

The trapezoidal locking module (10) can translate on the second end of the arm (2) to ensure emergency opening. Each lateral wall has along its internal surface two U-shaped rigidifying sections (11) comprising two side guide casters (12) and a removable caster located at one end of the module. A pair of upper guide casters (14) is fixed on the top wall. The central reservation is composed of metal trapezoidal modules comprising retractable supports engaged in sleeves stuck in the ground. The supports are positioned in braces integral with side walls. The reservation comprises an arm (2) composed of an arm module (20). The arm at its first end rotates around a vertical articulation. The arm has a retractable pivoting base on casters which lifts and allows rotation of the arm. Castor tracks (24) are on the side parts of the walls' upper surface. There is an internal reinforcement (26) for the arm the base of which extends down to ground support plates (28).

Description

The present invention relates to a ground-breaking device central. It has applications in the field of road engineering and more particularly in the art of traffic lane separators.

The lane separation devices that are commonly used can be classified into two major groups based their behavior in case of shock.

The first group has minimal deformation in case of shock and tends to return the vehicle to its driving lane. Separators belonging to this group are therefore relatively rigid or semi-rigid and are generally anchored in the ground and / or made of very important. This splitter group is the most used and includes the wall in concrete or concrete separator and the metal barrier anchored to the ground or slide single or double file made up of supports stuck in the ground, spacers and sliding elements.

The second group, on the other hand, tends to move in the event of a shock for absorb the energy of the shock. The separators of this group are deformed and / or so move to the opposite lane when they are implanted in TPC over a distance depending on the conditions of the impact. These separators are usually used in temporary installations, for example, or in areas where the deformation of the separator does not have consequences, ie areas where the central reservation is large. Standards have been defined for the holding capacities of these two groups of separators.

We consider here more particularly the separators of the first group who are usually destined to occupy their long-term position or permanently between the traffic lanes. For the rest we will use the term of permanent separator to designate them.

To allow communications across the central median with permanent separators, these are interrupted by example as part of a highway, every two kilometers or so. To the corresponding places, or communication areas, the separators are removable. However, so that security can be ensured all along motorway, the retaining capacity of the separators, in line with the said zone of communication, must be sufficient and ideally of the same level of restraint or, again, equivalent to that of permanent upstream and downstream separators. In known devices, the ease and speed of opening are inverse functions of the holding capacity due to the presence of anchoring in the ground and / or the weight of the separators. If the holding capacity is weaker, the corresponding area should be as short as possible and should be placed on a portion of the highway presenting no risk particular road exit. However, if, for an emergency passage, a width of meters from the communication zone is sufficient, however, for the tipping of traffic from one side of the solid land to the other, a width several tens of meters is necessary. Moreover, there are cases where tipping of traffic lanes should be considered regularly. It is in particular the case around tolls or even in areas mountains with galleries that need to be maintained and where it is better to close the traffic completely by tilting it on the track opposite.

Thus, if it is known in the state of the art restraining devices for communication area that can be opened or closed by a single person without heavy equipment, the latter only concern widths of about ten meters that can not be used for traffic lanes and / or which have reduced restraint compared to permanent separators; cf. EP-A-0758698.

The object of the invention is therefore to remedy these drawbacks and to propose a device for the interruption of the central reservation for the zone of communication between traffic lanes which has a holding capacity at the same level or even close to those of the permanent separators upstream and downstream over a width of a few meters to several tens of meters and is manoeuvrable quickly and without heavy equipment by a operator.

The invention therefore relates to a ground-breaking device central with permanent separator for communication zone between channels of circulation having a closed position ensuring the continuity of the separation of traffic lanes and opening positions respectively emergency and tipping traffic where the traffic lanes are placed in communication, consisting of assembled metal modules and with supports stuck in the ground.

• au moins un bras constitué d'au moins un module de bras, ledit module ayant deux parois latérales, ledit bras étant mobile en rotation autour d'un axe vertical formant articulation à une première de ses extrémités, ledit bras comportant au moins un pied pivotant escamotable comportant des roulettes destiné à soulever et à permettre la rotation dudit bras afin d'assurer une ouverture facile de basculement de la circulation;
• un module de verrouillage mobile en translation sur le bras afin d'assurer une ouverture d'urgence.

According to the invention, the device comprises:

• at least one arm consisting of at least one arm module, said module having two side walls, said arm being rotatable about a vertical hinge axis at a first end, said arm having at least one pivoting foot retractable device comprising wheels for lifting and allowing the rotation of said arm to ensure easy opening of tilting of the circulation;
• a locking module movable in translation on the arm to ensure an emergency opening.

• deux modules de raccordement sont disposés entre les deux extrémités du dispositif et les deux extrémités des séparateurs permanents, lesdits modules de raccordement étant destinés à assurer la continuité de la séparation avec les deux séparateurs permanents adjacents ;
• chaque support est disposé dans un fourreau fiché dans le sol, ledit support étant rétractable afin d'être désengagé hors du sol et étant disposé dans une entretoise, ladite entretoise étant solidaire des parois latérales d'un module de bras.
• les modules de bras et de verrouillage ont un profil trapézoïdal, les parois latérales desdits modules sont fermées et des plaques d'appuis au sol sont disposées latéralement à la base desdits modules, afin de renforcer les capacités de retenue desdits modules.
• le module de bras est rigidifié par au moins deux cannelures disposées le long de chaque paroi latérale et par au moins un renfort interne.
• chaque paroi latérale du module de verrouillage comporte le long de sa face interne au moins deux profilés en U pour rigidification, chacun desdits profilés comportant au moins deux roulettes de guidage latérales réparties le long desdits profilés et en ce qu'une roulette amovible est disposée à une extrémité dudit module.
• chaque module de bras destiné à recevoir en recouvrement par translation le module de verrouillage comporte à sa face supérieure au moins une paire de roulettes.
• l'entretoise comporte une articulation afin que le support amovible, une fois rétracté hors du sol, puisse être basculé vers l'horizontale afin de rester à l'intérieur du gabarit défini par un module de bras.
• l'axe formant articulation est un support fiché dans le sol constitué d'un tube métallique rond et en ce que le tube est disposé dans au moins une entretoise comportant un passage circulaire adapté, ladite entretoise étant solidaire des parois latérales d'un module de bras.
• le dispositif comporte un moyen de retenue destiné à limiter l'ouverture en rotation du bras jusqu'à une position prédéfinie.
• l'assemblage entre un premier module de bras et un second module de même bras, est assurée par boulonnage ou clavetage de l'extrémité correspondante du deuxième module sur un cadre de liaison solidaire et débordant du premier module.
• l'assemblage entre un premier module de bras et un second module de même bras, est assuré par chevauchement recouvrant et boulonnage ou clavetage des extrémités correspondantes desdits modules.
• l'assemblage entre deux modules d'un même bras, est assuré par boulonnage ou clavetage d'une pièce rapportée chevauchant et recouvrant les extrémités correspondantes desdits modules.
• le dispositif étant fermé, le module de verrouillage est claveté sur les modules de bras adjacents.
• le module de raccordement disposé entre l'extrémité du bras comportant l'articulation et le séparateur permanent présente deux parois latérales fermées et comporte à sa partie supérieure un bras de maintien d'articulation.
• le module de bras mesure approximativement 0,8 m de hauteur, 0,6 m de largeur à la base, la base se poursuivant latéralement par deux plaques d'appuis au sol de 0,15 m de largeur chacune, 0,27 m de largeur au sommet pour une longueur de 3,5 m.
• des butées sont prévues sur les modules de bras, afin de limiter les mouvements de translation en recouvrement du module de verrouillage.
• les mouvements de montée et de descente de l'axe pivotant escamotable comportant des roulettes sont commandés par un moyen du type vérin à vis ou similaire.
• dans un bras, les mouvements de montée et de descente du pied pivotant escamotable comportant des roulettes et les mouvements de montée et de descente du support peut être commandés par un moyen unique et synchronisés.
• la longueur courante du dispositif est d'au moins 32 m et il comporte deux bras, chacun des bras comportant au moins quatre modules de bras.

The invention also relates to the following features, considered individually or in all their possible technical combinations:

• two connection modules are arranged between the two ends of the device and the two ends of the permanent separators, said connection modules being intended to ensure the continuity of the separation with the two adjacent permanent separators;
• each support is disposed in a sheath stuck in the ground, said support being retractable to be disengaged from the ground and being disposed in a spacer, said spacer being secured to the side walls of an arm module.
• the arm and locking modules have a trapezoidal profile, the sidewalls of said modules are closed and ground support plates are arranged laterally at the base of said modules, in order to reinforce the retaining capacities of said modules.
• the arm module is stiffened by at least two grooves disposed along each side wall and by at least one internal reinforcement.
• each side wall of the locking module comprises along its inner face at least two U-shaped profiles for stiffening, each of said profiles comprising at least two lateral guide rollers distributed along said profiles and in that a removable wheel is arranged to an end of said module.
• each arm module intended to receive translationally covering the locking module comprises at its upper face at least one pair of wheels.
• the spacer has a hinge so that the removable support, once retracted from the ground, can be tilted horizontally to remain within the template defined by an arm module.
• the hinge axis is a support stuck in the ground consisting of a round metal tube and in that the tube is disposed in at least one spacer having a suitable circular passage, said spacer being secured to the side walls of a module of arms.
• the device comprises a retaining means for limiting the opening in rotation of the arm to a predefined position.
• the assembly between a first arm module and a second module of the same arm, is provided by bolting or keying the corresponding end of the second module on a connecting frame integral and projecting from the first module.
• the assembly between a first arm module and a second module of the same arm, is provided by overlapping covering and bolting or keying corresponding ends of said modules.
• the assembly between two modules of the same arm, is provided by bolting or keying of an insert overlapping and covering the corresponding ends of said modules.
• With the device closed, the locking module is keyed onto the adjacent arm modules.
• the connecting module disposed between the end of the arm comprising the hinge and the permanent separator has two closed side walls and has at its upper part a hinge holding arm.
• the arm module is approximately 0.8 m high, 0.6 m wide at the base, the base being continued laterally by two ground support plates 0.15 m wide each, 0.27 m wide width at the top for a length of 3.5 m.
• stops are provided on the arm modules, in order to limit translational movements overlapping the locking module.
• the raising and lowering movements of the retractable pivoting axle comprising rollers are controlled by means of the screw jack type or the like.
• in one arm, the raising and lowering movements of the retractable pivoting foot with rollers and the raising and lowering movements of the support can be controlled by a single means and synchronized.
• the current length of the device is at least 32 m and it comprises two arms, each arm having at least four arm modules.

Other advantages and features of the invention will emerge from the reading the description of exemplary embodiments using drawings.

• La figure 1 représente une vue latérale d'un dispositif en position fermée.
• La figure 2 représente un dispositif dans plusieurs positions d'ouverture et vu de dessus.
• La figure 3 représente une vue latérale du dispositif détaillant le module de verrouillage en position fermée.
• La figure 4 représente une vue latérale du dispositif détaillant le module de verrouillage dans une position d'ouverture.
• La figure 5 représente une coupe transversale d'un module de verrouillage au niveau d'une roulette escamotable.
• La figure 6 représente une coupe transversale d'un bras au niveau d'un module de verrouillage selon un premier mode de réalisation.
• La figure 7 représente une coupe transversale d'un bras au niveau d'un module de verrouillage selon un second mode de réalisation.
• La figure 8 représente une coupe transversale d'un module de bras au niveau d'un support .
• La figure 9 représente une vue supérieure d'un support et de l'entretoise correspondante.
• La figure 10 représente une coupe transversale d'un module de bras au niveau d'un pied pivotant escamotable comportant des roulettes.
• La figure 11 représente une coupe transversale d'une liaison entre deux modules de bras selon un premier mode de réalisation.
• La figure 12 représente une vue latérale d'une zone de liaison entre deux modules de bras selon un premier mode de réalisation.
• La figure 13 représente une vue latérale de la zone de raccordement entre une glissière métallique permanente et le dispositif selon l'invention.
• Les figures 13a, 13b, 13c, représentent des vues en coupes transversales du dispositif de la figure 13 selon les sections A-A, B-B et C-C respectivement.
• La figure 14 représente une vue supérieure de la zone de raccordement entre un mur de béton et le dispositif selon l'invention.
• La figure 15 représente un exemple de commande mécanique synchronisée des supports et des pieds amovibles.

In these drawings:

• Figure 1 shows a side view of a device in the closed position.
• Figure 2 shows a device in several open positions and viewed from above.
• Figure 3 shows a side view of the device detailing the locking module in the closed position.
• Figure 4 shows a side view of the device detailing the locking module in an open position.
• Figure 5 shows a cross section of a locking module at a retractable wheel.
• Figure 6 shows a cross section of an arm at a locking module according to a first embodiment.
• Figure 7 shows a cross section of an arm at a locking module according to a second embodiment.
• Figure 8 shows a cross section of an arm module at a support.
• Figure 9 shows an upper view of a support and the corresponding spacer.
• Figure 10 shows a cross section of an arm module at a retractable pivoting foot with wheels.
• Figure 11 shows a cross section of a connection between two arm modules according to a first embodiment.
• FIG. 12 represents a side view of a connection zone between two arm modules according to a first embodiment.
• Figure 13 shows a side view of the connection zone between a permanent metal slide and the device according to the invention.
• Figures 13a, 13b, 13c, show cross-sectional views of the device of Figure 13 according to sections AA, BB and CC respectively.
• FIG. 14 represents an upper view of the connection zone between a concrete wall and the device according to the invention.
• Figure 15 shows an example of synchronized mechanical control of the supports and removable feet.

In FIG. 1, an exemplary embodiment of the device according to the invention is represented. It comprises two articulated arms 2, 2 'joined by a module of 10. The device is intended to be placed in a zone of communication between two traffic lanes on a central reservation. A first end of the device continues with a permanent separator of the concrete barrier type 3 and a second end of the device by a safety barrier 3 'via two connection modules 50 and 50 '. Each of the arms 2 and 2 'consists of four arm modules 20 about 3.5 meters in length, an arm then measuring 14 meters length. The arm modules 20 are joined together at the zone level 21. Each arm module 20 has on each of its two lateral faces, continuous and closed, at least two flutes 23. The locking module 10 has two continuous planar side faces. The continuity means that the module is not open laterally, limiting the consequences in case of shock with a biker. The width of the zone of communication is then about 28 meters. Each of the arms 2 and 2 'is movable in the horizontal plane around a pivot axis forming a hinge 33 and 33 'respectively. The hinge 33 or 33 'is located on the end of the arm 2 or 2 'adjacent to the corresponding connection module 50, 50'. The ends of arms 2, 2 'opposite to joints 33 and 33' are joined between them via the locking module 10. The pivot axis forming articulation 33 or 33 'is stuck in the ground substantially vertically so that on a horizontal communication zone, the arms move in rotation horizontally. An arm module 20 comprises at least one support 30 or its equivalent in the form of the pivot axis forming an articulation 33, 33 ', which is stuck in the ground. The modules forming the device are essentially made of galvanized steel sheets, reinforcements, spacers for support and are essentially hollow. The steel used has at least the characteristics of S 235 JR steel according to NF EN 10 025 and can be galvanized according to NF A 35-503. Galvanizing will be obtained by dipping according to NF A 91-121.

In FIG. 2, the device is shown open according to three possibilities data as an example.

In a first position, the two arms are collinear with each other on the central reservation 5 and the locking module 10 is translated into covering on one of the arms 2 in order to make an emergency opening in the communication area. For a length lock module Approximately 6 meters, an emergency opening of approximately 4 meters is obtained. The supports 30, in this position, are stuck in the ground in their sleeves.

In the following opening configurations represented on the same 2, the arms have been moved in rotation around the joints 33 and 33 ' to allow the tilting of traffic between two or four lanes following the opening angle. Concrete blocks 4 can be placed forward the end of the arm and parallel to the axis of circulation. In a mode particular implementation, a hooking means between the end corresponding arm and concrete block, is provided. In order to allow rotation of the arms, the supports 30 were extracted from the ground where they were inserted in their sleeves. Once the device's open position is reached, the supports can be reinserted into the ground in sheaths which, in time normal, unopened communication, will be closed by a rollover of the pavement to prevent them from filling with various debris and / or to hinder the circulation. Such a removable cowling may also be provided for sleeves located on the central land. The sleeves will then be closed when the tilting of the traffic.

FIG. 3 is a view of the closed device according to FIG. particularly the locking module 10 and the arm modules 20 adjacent. The locking module rests at both ends on the corresponding ends of said arm modules. The module locking and the arm modules are keyed to each other by keys 15. The locking module can move in translation on the arm modules, stops are provided to limit the movement of said locking module. A first series of stops 29 'stopping the module of lock 10 in the closed position is disposed on the arm module 20 end of the arm 2 '.

In Figure 4 showing the device in a first position opening, a second series of stops 29 stopping the locking module 10 in the open position is disposed on an arm module of the arm 2. The locking module has been translated in overlap on the arm 2. The keying means 15 have been removed and will preferably be stored in a receptacle provided in the device. However when the opening has to be maintained, keying means 15 'may also be used to fix the locking module in this open position. Means of described below are used for this purpose and allow the operation of the locking module by a single operator without heavy means. The translation of the locking module can be facilitated by a handle or a detachable push arm.

FIG. 5 represents a cross-section of a module of lock 10 at the end having a removable caster 13. The end comprising said roller 13 is opposite the receiving arm translating said locking module so that the opening of said element of locking in translation and recovery can be maximum, the modules arm 20 having internally reinforcements 26, supports 30, and other elements that can oppose the internal passage of said roulette 13. In a closed device, the detachable wheel 13 is retracted and does not rest on the ground. When opening the device, the removable caster 13 is lowered or tilted to touch the ground. The descent or tilting of the wheel can be obtained by any means known to those skilled in the art including screw system, mechanical jack, jack pneumatic, hydraulic or electric. The roulette will preferably be fixed and oriented to be able to roll in the axis of the locking module. However, it is also envisaged that the wheel is pivotally mounted by relative to its support axis. This configuration is useful when roulette still rests on the ground when rotating the corresponding arm for opening. The locking module 10 has in cross section a approximately trapezoidal and symmetrical shape based on the ground side, wide and top top, opposite, narrow. The side walls joining the ends of the base and the top as well as the upper wall forming summit are substantially flat and continuous. The base of module 10 is opened. At the base of the module 10, laterally, along each side are two bearing plates on the ground 16. These ground support plates are intended to improve the stability and holding capacity of the device in the event of of shock, the vehicle wheel or wheels pressing the support plate on the ground. The internal faces of the two side walls of the locking module comprise U-shaped metal profiles 11 for reinforcing the rigidity of the module. These 11 sections are preferably welded and are each arranged at a height corresponding to the grooves 23, described later, arm modules 20 so that the translation of the module 10 on the arm 2 can be to do without any trouble. Lateral guide rollers 12 are arranged regularly along said profiles 11. The lateral guide rollers 12 are intended to circulate in the grooves 23 arranged on the walls side of the arm modules 20. The lock module is preferably made from a single metal plate which is folded. However, it is also envisaged that the locking module is made by the union of two or more metal plates by welding and / or bolting.

Figures 6 and 7 show through a cut cross section of an arm at a locking module two modes of embodiment of the system for rolling the locking module 10 on the arm modules 20 of the arm 2 at the top of the device. In the first embodiment, FIG. 6, at least one pair of rollers of upper guide 14 is fixed on the top wall of the module of locking 10. Runways 24 are available on the parts side of the upper face of the top walls of the arm modules 20. The cut passes through an internal reinforcement 26 of arm module 20. The base of the internal reinforcement 26 can go down to the level of the ground support plates 28. In this mode, only the locking module 10 has rollers of lateral guidance 12 and above 14, allowing the translation into covering said module 10 on the corresponding arm 2. In this figure are represented the keying means 15, however they may be arranged at other levels in height and along the modules. In the second embodiment, FIG. 7, at least one pair of rollers 27 is fixed towards the top of the arm 2 and the raceways 17 are available on the lower face of the top wall of the locking module 10. The cut passes through an internal reinforcement 26 'supporting the pair of wheels 27. In this mode, casters are therefore provided both on the locking module and on the arm.

The respective dimensions of the locking module 10 and the arm modules 20 are adapted so that the translation of the module of locking 10 on the arm 2 is done without obstacle. We can note on Figures 6 and 7 that the arm module 20 has at its base and laterally ground support plates 28 having the same function as those, 16, of the module of However, the shape of the support plates 16 of the module locking 10 allows their translation on those 28 of the arm module 20. note also that the central part of the top of the arm modules is open allowing access to the internal elements and in particular to the supports 30, retractable pivoting axes with wheels 40 and allowing the passage of the removable caster 13 of the locking module 10. An arm module 20, a approximately the following dimensions: 0.8 m in height, 0.6 m in width at the base and 0.9 m counting the two ground support plates 28, each of the bearing plates 16 or 28 having an approximate width of 0.15 m. An arm module 20 has a length of approximately 3.5 m. The module locking 10 has a length of approximately 6 meters. The thickness of metal plates is preferably 3 mm except for the module of locking where a thickness of 4 mm is preferred.

Figure 8 is a cross-section of an arm module 20 at the of a support 30. In the device at rest, in the closed position, the support is stuck in the ground, inserted in a sheath 31. The sheath is stuck in the ground. The arm module 20 has an outer template of approximately trapezoidal equivalent to that of the locking module 10. The walls However, the side walls of the arm module 20 have splines 23 longitudinal devices intended to improve the rigidity of the device. In this example embodiment, two grooves 23 per side wall are provided. Plates ground support 28 are arranged laterally on each side along a module to improve the stability and the holding capacity of the module in case of choc. The module will be preferably realized by the meeting of two folded metal plates. The support 30 passes in a spacer 32, said spacer being attached to both side walls of the arm module 20. In this particular embodiment, the spacer 32 consists of three elements bolted together. However, in other embodiments, the spacer may be made in one piece and / or the elements welded together. The support 30 being stuck in the ground in a sheath 31, its length will be preferentially as it will be included in the internal template of the module of 20. In other embodiments, some of these media may be be longer and possibly exceed the template of the standard module. However, the arm end supports 2 will not have to prevent the translation in overlap of the locking module on the end of said arm as well when stuck in the ground in their sheaths or when are extracted. In order to keep the support 30 in place with respect to the spacer 32, a removable locking ring 34 is provided either above the spacer to prevent the support 30 from descending too deeply into the sleeve 31, or through the spacer 32 and the support 30 to block all relative movement between these two pieces. Two corresponding holes are provided in the medium and, possibly, in correspondence, in the spacer, so as to insert said locking ring 34. Similarly, a equivalent blocking means may be provided between the sleeve 31 and the support 30 in order to block any relative movement between the two when the support is stuck in the ground. This last blocking means is placed under the ground level so that the sheath does not protrude and it will preferentially masked when the supports are removed, the device being open, so as not to impede traffic. Blocking circles can be removed individually but it is also expected that they can be disengaged simultaneously from all media. In the latter case, all rounds will be connected to a cable or linkage and one or more return springs bringing the rounds back into engagement and blocking position will be provided. he will therefore suffice for the operator to pull on the cable or linkage to disengage round. A round guide secured to the spacer will keep the round in position axial during these movements of engagement and disengagement. of the means of transmission shall be provided between the cables or the linkage of the different modules assembled together.

In order to allow the opening of the communication zone, the supports 30 will be extracted from their sleeves 31 to clear them completely from the ground. The supports 30 may then be completely removed from the device, be left in place in the device by providing as before a locking ring 34 'arranged in such a way that the support is immobilized in a position where he is no longer engaged in the ground. In the latter case, the support exceeds the top of the template of the standard module. This is a disadvantage at the end of the arm 2 where the locking module 10 must be translated in recovery. Also, in this area, we will prefer to withdraw completely the supports 30 of the device. It is however envisaged in a another embodiment that the spacer has a hinge allowing to swing horizontally the support out of its sheath 31 so that said support is fully included in the template of the arm module 20 and does not interfere with the opening of the locking module 10. The extraction out of sleeve 31 of the support 30 is made by any means, manually, by a gear system or mechanical and / or hydraulic cylinders and / or pneumatic and / or electric.

FIG. 9 shows the spacer 32 of FIG. 8 seen from above where the three elements are secured by bolting. The bolting holes are preferentially oblong to catch the games. The support 30 is preferably consisting of a metal tube with a diameter of 101.6 mm and of thickness 3.6 mm, the sheath then having a diameter of 114.3 mm and a 3.6 mm thick. The part stuck in the ground as well as the length of the sleeve is approximately 700 mm, but this value will be modulated in field function. The diameter of passage of the support in the spacer is 114.3 mm. However, it is also envisaged to use other forms of supports, for example in U or square or rectangular. The pivot axis for rotation forming the hinge 33 or 33 'is essentially constructed according to the principles described for the supports. However the chosen axis will be a tube metal which allows the rotation of the spacer, said tube being preferentially fixed in the soil. However in other modes implementation, the pivot axis can be maintained at its upper part by a hinge holding arm 38 or 38 'of the connection module 50 or 50 'as explained later, the tube can be placed in the ground in a sheath. In addition, more than one spacer can be articulation level 33, 33 'in order to strengthen it. If two spacers are used for the articulation, the first will be arranged towards the upper part the corresponding arm module and the second to the lower part.

Figure 10 shows a cross-section of an arm module 20 at the level of a retractable pivoting foot with wheels 40. The pivoting of the foot allows, when the wheels are on the ground, a bearing according to all possible directions. The device being closed, the feet are retracted and not rest on the ground, the modules then resting through the support plates 28 on the floor. For the opening of the device, the feet are actuated by any means allowing them to descend to the ground by a gear system or screw jacks or mechanical or pneumatic or hydraulic or electric so that they rest on the ground and lift the module and therefore the arm. With the arm raised, the operator can easily open the device for tilting the traffic by pushing and rotating the arm 2, 2 'around their joints 33, 33'. Once the desired position of the reaching arm, the retractable pivoting feet with casters are retracted so that the modules rest on the ground again. The supports 30 can then may be reimplanted into the soil and the ends of the arms may possibly be attached to concrete blocks. 4. Preferably, movements of all the wheeled feet 40 modules 20 of an arm will be synchronous by a common mechanical transmission of the axis type transmission and gear, cylinder, pneumatic, hydraulic, or electric. he It is also envisaged that the movement of withdrawal and / or establishment of supports 30 and descent and / or up the feet with wheels 40 are synchronous. An example of such a purely mechanical device is given to the FIG. 15, in which an incomplete rack meshes with the wheeled foot 40 than when the support is sufficiently disengaged from its sheath. Others methods of mobilization will use effector organs controlled by contactors, valves or other equivalents, ordered according to the positioning of the supports 30 and feet with wheels 40. In a module arm 20 comprising both at least one support and at least one foot to casters 40, the movements of these two elements are therefore synchronous, a transmission 36 having at both ends an of coupling 37 to the corresponding coupling member of the transmission adjacent module or to a crank or any other device allowing the setting in motion the transmission. However, it is envisaged that the in motion can be done at any level of transmission by a means taking and / or returning. In the same way synchronism can be realized in a arm 2, 2 'made by assembling any type of different arm module 20.

Several embodiments are envisaged for joining together two adjacent arm modules 20 at the assembly area 21. The FIG. 11 represents in cross-section the junction between two modules of arm 20 according to a first mode. In this mode, the end of a first module 20 internally comprises a metal connecting frame, said frame being welded to said module and overflowing thereof. The end corresponding of the second module 20 has bolting orifices 25 on its side walls. These holes are oblong to catch the games and the dilation of the metal. Said end of the second module is positioned on the overflowing part of the linkage of the first module in order to align the bolting holes of these two elements. In addition to its role as an element of connection, the connecting frame 35 has a reinforcing internal reinforcement role and joining the side walls of the arm modules 20. In this mode of realization, the side walls of the modules are in continuity one of the other. It is also envisaged that the liaison framework will include passage of a support, said frame then having all the functions of a spacer and a simple connecting frame.

In other embodiments of the link, it is envisaged that the connection between two arm modules is done by covering the walls side according to two possibilities. In the first, by partial overlap extremities of the modules, the end walls of one of the modules are staggered either in recess or in overflow with respect to the general plan of walls. Ends of two types are then defined, in the general plane and out of the general plane, and can mate. In the second possibility, overlapping patches will be bolted to the walls of the two ends of two adjacent modules in the manner of external splints or bilateral.

Figure 13 shows the connection area between a separator permanent safety slide type 3 'and an arm 2 of the device. A module 50 'is disposed between the end of the slide 3' and the end arm 2 'having the hinge 33'. The connection module 50 ' has a beveled end inserted between the two metal profiles of the slide 3, as shown in Figure 13c. In this particular mode of embodiment, a hinge holding arm 38 'is fixed on the part upper end of the connection module 50 'side arm 2'. The arm maintains 38 'allows to fix the upper part, protruding from the module of arm 20 of the hinge pin pivot 33 '. In other modes of realization, and in particular when the articulation pivot axis is anchored in the ground, the holding arm 38 'may be omitted. The module 50 'connection will preferably be fixed on the end of the slide 3' and preferably comprise internal reinforcements and one or more supports embedded in the soil, which will preferably be anchored in the soil. The length Approximate amount of this connection module is 3.50 meters. The walls side of the arm module 20 having the hinge 33 'will be preferentially covered towards the joint so that the grooves 23 are masked, the lateral profile then being similar to that of the connection module 50 ', FIGS. 13a and 13b.

Figure 14 shows a top view of the connection area between a permanent separator of the concrete wall type 3 and the articulated end of an arm 2. The connection module 50 comprises a holding arm articulation 38. The arm 38 is fixed to the upper part of the pivot axis forming articulation 33. The approximate minimum length of this module of connection is 1.50 meters in order to move from the separator profile permanent concrete profile of the arm modules. Module 50 will be preferentially fixed by bolting on the end of the permanent separator 3.

In FIGS. 6, 7, 8, 9 the section passes through reinforcements 26 and 26 ' metallic or spacers 32 internal to the arm modules. These elements are intended to secure the side walls and reinforce the structure of the arm modules 20. The respective numbers of internal reinforcements 26, 26 ', of spacers 32, inside the arm modules 20 or connection 50, 50 'will depend on the desired holding capacity for the device. For a arm module 3.5 meters long with a connecting frame of module 35, a support and an internal reinforcement are preferably provided. If a upper retention capacity is sought, at least two supports and two reinforcements will be provided. However all possible combinations of Many of these elements are considered, the goal being to obtain sufficient restraint for the best cost. The modules 10, 20, 50, 50 'are preferentially symmetrical with respect to a vertical median plane longitudinal.

Tests carried out with a device with two arms for a length total of 32 meters, showed that the opening for tilting of the circulation could be carried out by a single operator without special equipment heavy, especially lifting, in less than 15 minutes. The operator can push each arm on a road with a slope in the order of 4%, no load greater than 40 kg not to be carried despite an arm weight greater than 1500 kg. During these operations, the operator is under the protection of the device.

Reference signs inserted after the mentioned characteristics in the claims, are only intended to facilitate the understanding of these and in no way limit the scope. On the other hand the examples of implementation are given for illustrative and illustrative purposes only and all possible combinations of these examples as well as variants are part of the description. In particular, a device comprising only one arm is considered. It includes a first connection module on the separator permanent upstream, an articulated arm, a locking module according to the previous description and a second connection module that can receive the end of the locking module and be keyed. Said second module connection connecting to the permanent downstream separator. Moreover, he is envisaged that the functioning of the device is partially or totally remote control, electrical effector devices, pneumatic, hydraulics and sensors ensuring and controlling the movements of different moving parts. It is also envisaged that the arm modules 20 are partially or fully standardized and can be used indifferently along one arm. In this case, we will prefer the mode of embodiment shown in FIG. 6, the stops 29 and 29 'will be removable for only be placed according to the needs and the mode of connection between the modules 20 will be chosen accordingly, or that the module 20 does not include no binding frame either an overlay system is chosen. The transmission of the control of the movements of the supports 30 and feet retractable pivoting wheels 40 may, as indicated, be common and synchronous or not. Similarly for blocking rounds 34. Moreover this or these transmissions can be made in a common way along the arm for all these moving parts. For example a transmission axis may end at each end of a module by a device coupling allowing, when the arm modules are joined, the coupling and transmission of the control from one end of the arm to the other and to the next arm. Finally, it is foreseen that a means of limiting the deflection of the arm during its rotation, retaining means, is included in the device. This means may be a brake acting on the wheels of one or several retractable pivoting axes 40, a cable connected to the arm and anchored to the floor on the central solid ground, an abutment anchored to the ground near the articulation in two positions or a simple hold on the ground at the desired location for the arm in the open position for tilting Traffic.

Claims (13)

1. A suspending device for a passage for road median barrier provided with a permanent separator for a communication zone between carriageways, having a closing position ensuring continuity of the separation of the carriageways and rotation opening positions for diverting the traffic, where the carriageways are connected, whereas the device Comprises joined trapezoid metal modules having closed lateral walls, whereas the said metal modules comprise retractable supports (30) engaged in sheaths (31) driven into the ground, whereby the said supports are placed in spacers (32), the said spacers (32) are integral with lateral walls, the device comprises at least one arm (2, 2') with two opposite ends and consisting of at least one arm module (20), the said arm (2, 2') at its first end is mobile in rotation around a vertical axle forming a joint (33, 33') and the said arm comprises at least one retractable pivoting foot with castors (40) intended for lifting and enabling the rotation of the said arm round the joint in order to ensure opening for diverting the traffic,
   characterised in that it comprises moreover a locking module (10) with a translation-mobile trapezoid profile on the second end of the arm (2) in order to provide an emergency opening, whereas each lateral wall (18) of the locking module comprises along its internal face at least two U-shaped profiles (11) for strengthening purposes, each of the said profiles comprises at least two lateral guiding castors (12) distributed along the said profiles and in that a removable castor (13) is arranged at one end of the said locking module (10).
2. A device according to claim 1, characterised in that ground-resting plates (16, 28) are provided laterally at the base of the said modules (10, 20) in order to reinforce the retention capacities of the said modules.
3. A device according to claim 1 or 2, characterised in that the arm module (20) is stiffened by at least two ribs (23) arranged along each lateral wall (22) and by at least one internal reinforcing piece (26, 26').
4. A device according to one of claims 1 to 3, characterised in that the locking module (10) comprises at its upper part at least two pairs of upper guiding castors (14) distributed along the said module (10).
5. A device according to one of claims 1 to 3, characterised in that each arm module (20), intended for receiving the locking module (10) by translation-covering, comprises at its upper part at least one pair of castors (27).
6. A device according to any one of the previous claims, characterised in that the spacer (32) comprises a joint so that the removable support (30), once retracted off the ground, can be tilted horizontally in order to rest inside the gauge delineated by an arm module (20).
7. A device according to any one of the previous claims, characterised in that the axle forming a joint (33) is a support driven into the ground consisting of a round metal tube and in that the tube is arranged in at least one spacer comprising an adequate circular passage, whereas the said spacer is integral with the lateral walls (22) of an arm module (2, 2').
8. A device according to any one of the previous claims, characterised in that, in an arm (2, 2'), the assembly between a first arm module and a second arm module consists in bolting or keying the corresponding end of the second module on a linking frame (35) integral with and protruding from the first module.
9. A device according to any one of the previous claims, characterised in that it comprises two connection modules (50, 50') intended for ensuring continuity of the separation with two adjacent permanent separators (3, 3') and in that the connection module (50, 50') arranged between the end of the arm (2, 2') comprising the joint (33, 33') and the permanent separator (3, 3') exhibits two closed lateral walls and in that it comprises a joint-holding arm (38, 38') at its upper part.
10. A device according to any one of the previous claims, characterised in that the arm module (20) is about 0.8 m in height, 0.6 m in width at the base, whereas the base is extended laterally by two ground-resting plates (28) each 0.15 m in width, 0.27 m in width at the apex for a 3.5 m length.
11. A device according to any one of the previous claims, characterised in that the rising or descending movements of the retractable pivoting foot axle comprising castors (40) are controlled by a screw-jack type means.
12. A device according to any one of the previous claims, characterised in that in one arm (2, 2'), the rising and descending movements of the retractable pivoting foot comprising castors (40) and the rising and descending movements of the support (30) can be controlled by a single synchronised means.
13. A device according to any one of the previous claims, characterised in that the length of the device is at least 32 m and that it comprises two arms (2, 2'), each of the arms consisting of at least four arm modules (20).

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