EP2399797B1 - Elastic connection element intended for the floating assembly of an internal floor, internal floor panel equipped with a range of elastic connection elements and method for floating assembly of a floor - Google Patents
Elastic connection element intended for the floating assembly of an internal floor, internal floor panel equipped with a range of elastic connection elements and method for floating assembly of a floor Download PDFInfo
- Publication number
- EP2399797B1 EP2399797B1 EP10354034.0A EP10354034A EP2399797B1 EP 2399797 B1 EP2399797 B1 EP 2399797B1 EP 10354034 A EP10354034 A EP 10354034A EP 2399797 B1 EP2399797 B1 EP 2399797B1
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- floor
- bearing wall
- wall
- elastic
- under
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61D—BODY DETAILS OR KINDS OF RAILWAY VEHICLES
- B61D17/00—Construction details of vehicle bodies
- B61D17/04—Construction details of vehicle bodies with bodies of metal; with composite, e.g. metal and wood body structures
- B61D17/10—Floors
Definitions
- the invention relates to the floating assembly of internal floors of various vehicles, for example naval, rail or road vehicles. It relates more particularly to elastic connecting elements damping vibrations and noise that allow to suspend an internal floor structure on the frame of the body / structure of a vehicle and which we will subsequently designate "chassis structure" . To illustrate this invention, we have described elastic connection elements for the floating mounting of internal floors on the chassis of the boiler of railway vehicles.
- connection elements particularly effective in terms of damping vibrations and noise and which are currently used at present, particularly for the floating installation of internal floors on the floors of the cauldrons of railway vehicles.
- These elastic connection elements comprise a lower element having a first support wall intended to be fixed on the floor of the chassis structure, an upper element having a second support wall, substantially parallel to said first support wall and intended to be fixed on said inner floor and an elastic mass arranged between said lower element and said upper element so that said lower element and said upper element can make limited movements relative to each other, mainly according to the direction perpendicular to said support walls but also longitudinally and transversely, while remaining distant from one another.
- connection elements In practice, one installs, leveling and individually fixed, by gluing, screwing, riveting or welding, said elastic connection elements on the floor of the chassis structure and then the elements of the internal floor are placed on said elements of elastic connection, which we will call later "connecting elements".
- connecting elements typically (the number and distribution of connecting elements depends on the load to be supported), it is necessary to fix 4 to 6 connecting elements per square meter, that is to say of the order of 200 to 300 elements. caulking connection.
- the time spent preparing the floor of the chassis structure before the placement of the floor elements is of the order of 5-12 h.
- the connecting elements are fragile obstacles that operators must avoid when moving, so that the intervention devoted to the floating assembly of such floors has been up to now considered particularly long and delicate.
- the floor elements constituting the internal floor are then assembled and fixed, typically by screwing, on the upper elements of the elements. connection, for example using self-tapping screws.
- each connecting element is controlled and adjusted in height before the installation and fixing of the floor element, to take into account local height differences resulting from the imperfect flatness of the floor of the chassis structure.
- European patent EP 0 774 400 has a connecting element whose structure is very close to that of EP 0 576 394 with a lower element, an upper element and an elastic mass arranged between the lower element and the upper element.
- a connecting element whose structure is very close to that of EP 0 576 394 with a lower element, an upper element and an elastic mass arranged between the lower element and the upper element.
- the utility model German DE7518155U discloses an elastic connecting element comprising an upper element and a lower element separated by an elastic structure, the lower element itself being subdivided into two parts that can be displaced relative to each other: a flange connected to the elastic structure and a base, the gap between these two parts can be adjusted through a screw-nut system.
- the applicant has therefore tried to find a satisfactory solution for the floating assembly of an internal floor on the floor of the chassis structure of any vehicle, for example the cauldron of a railway vehicle, resulting in duration of intervention as short as possible, the internal floor must also have a perfect flatness, independent of flatness defects of the floor of the frame structure.
- one of the two elements separated by the elastic mass (the lower element or the upper element) of the connecting element according to the invention is itself subdivided into at least two mutually integral but movable parts; one in relation to the other in a direction substantially perpendicular to the support walls.
- Said first piece and said second piece are interconnected by a mechanical connection, called "incomplete”, which has at least one degree of freedom, in that it allows said first piece and said second piece to move. one with respect to the other in a direction substantially perpendicular to said first and second support walls.
- the connecting element according to the invention differs from DE 75 18 155U in that, by acting on the connection element itself, that is to say by imposing a relative displacement of the first part relative to the second part, it is possible to compensate for the height differences related to the lack of flatness the floor of the chassis structure without the need to pre-equip the floor of the frame structure with elements foreign to the connecting element. So, there is no need, as in EP 0 774 400 or DE 75 18 155U , to fix bases on the floor of the frame structure to receive said connecting elements and to allow their height adjustment.
- the great advantage of the invention lies in the possibility of pre-equipping the internal floor panels with said connecting elements so that at the time of assembly of the internal floor, there is no waste of time in the preparation of the floor of the chassis structure, which, without prefixed connecting pieces, remains easy to access and can be pushed by the operators without any particular precautions.
- the connecting elements according to the invention have a second bearing wall provided with an orifice whose diameter is defined to allow access to a spacer or an actuator (to adjust the gap between the first piece and the second piece ), and / or said immobilizing means (for fixing said gap), or even to the first support wall (for fixing the connecting element on the floor of the chassis structure)
- the following examples show that it is also possible to subdivide the upper element into two parts integral and movable relative to each other.
- said first piece and said second piece are interconnected by an incomplete mechanical connection, which allows the relative displacement of one piece relative to the other in a direction substantially perpendicular to the support walls.
- This incomplete mechanical connection is for example a slide connection which provides 5 degrees of connection and allows only a translational movement in the intended direction.
- This can be a sliding pivot connection with anti-rotation (typically a cylindrical shaft sliding in a bore without rotating about its axis, a helical connection (typically a screw-nut system), or a connection "double plane support” with secant contact planes (typically a system of wedges sliding support).
- Relative movement of the first piece relative to the second piece can be directly imposed manually. It can also be achieved using an intermediate piece whose displacement causes the relative movement of the first piece relative to the second piece.
- This intermediate part may be either part of a screw-nut system, one or more translational corners, the body or rod of a cylinder.
- the spacer can be moved by hand or with the aid of an actuator powered by an auxiliary energy source, such as a compressed spring, an electromechanical, pneumatic or hydraulic cylinder or a deformable enclosure pressurized with air to be used as a pneumatic support.
- auxiliary energy makes it possible to automate and / or remotely control the movement of the first piece relative to the second piece to reach the gap referred to, for example to allow the leveling of the floor element.
- said displacement can be performed after the laying of the floor element, even if access to the spacer or to the actuator is not very easy.
- said element which has been subdivided into at least two integral parts and movable relative to each other, is also provided with an immobilization means which immobilizes said first part with respect to said second part, so that said first support wall and said second support wall can be kept away from each other by a determined constant distance.
- an immobilization means which immobilizes said first part with respect to said second part, so that said first support wall and said second support wall can be kept away from each other by a determined constant distance.
- the immobilizing means may be a specific means, for example a bead secured to the first piece trapped in a groove secured to the second piece (or vice versa) or any fastening means, such as a screw, allowing join the first and second rooms.
- a screw-nut connection is used to provide the retractor function.
- a screw-nut connection is preferably chosen with helical threads of high slope and in low friction contact so that it is preferable to use specific immobilization means, typically a self-locking screw. tap threaded through the screw portion and the nut portion of the screw-nut system, for example at the common area of the fast nets.
- the connecting element comprises, in addition to the elastic mass formed between the upper element and the lower element, an outer layer which is adjacent to the second support wall and which is made of an insulating and elastic material, insulation to prevent possible stack corrosion between the material of the second support wall and the material of the underside of the inner floor panel, resilient to improve the damping of vibration and noise.
- This layer may be of natural rubber or neoprene, glued or vulcanized directly on said second support wall.
- the first bearing wall is in the form of a plate which projects beyond the space occupied by the upper element and the elastic mass, the periphery of said plate being provided with orifices or being intended to be pierced for the passage of fixing screws.
- the underside of the first backing wall is provided with an adhesive layer or is to be coated with an adhesive material, preferably just prior to placement of the inner floorboard. on the floor of the chassis structure.
- Another object according to the invention is an internal floor panel intended to be mounted floating on the floor of a chassis structure, characterized in that it is provided with at least a plurality of elastic connection elements according to the invention.
- the fact of using internal floorboards pre-equipped with elastic connection elements makes it possible to significantly reduce the assembly time of the internal floors, since the operation devoted to the fixing of the elastic connection elements does not take place. find more on the critical path of floating floor mounting. This operation can be done in hidden time on the site, or even before, in a dedicated workshop.
- Said elastic connection elements can be fixed "permanently" on the underside of said inner floor panel, for example by gluing, riveting or screwing the second bearing wall on the underside of said inner floor panel. They can also be simply held temporarily secured to the internal floor panel, for example by cooperation of securing means temporary (snap-fastening or screwing means, or reversible force sinking means, typically a male portion of the upper member to be driven into a cavity in said inner floor panel). Once the internal floor panel has been placed on the chassis-frame floor, these temporary securing means are removed in order to allow the activation of a spacer and the setting and freezing of the gap between the first part and the second room. Then, the elastic connection elements are permanently fixed on the inner floor panel, typically by screwing the second support wall on the underside of said panel, the screws, being screwed from the top of the panel, passing through the entire wall. thickness of said panel.
- a layer of insulating and elastic material is placed between said second support wall and the underside of the inner floor panel.
- said inner floor panel is also provided with openings made in line with the orifices provided in the second support wall of said elastic connection elements, so that, from the top of the internal floor, an operator can have access at the spreader and / or its actuator (to adjust the distance between the first part and the second part) and / or by means of immobilization (to maintain said gap), or to the first support wall ( to achieve the attachment to the floor of the chassis structure).
- said inner floor panel may also be provided with other openings, formed in line with the fixing points of the first support wall on the floor of the chassis structure, so that from the top of the internal floor , an operator can achieve the attachment of the first support wall on the floor of the frame structure.
- Some resilient connection elements may be chosen to effect fastening to the floor of the frame structure by screwing. Others may be chosen to allow attachment to the floor of the frame structure by gluing.
- the elastic connecting members other than the first three need not have the functionality of the first three and can be placed more quickly by screwing or gluing.
- the last connecting members of the floorboard to be adjusted and fixed on the floor of the frame structure can advantageously be glued without the need to wait for the glue to dry to start laying the floorboards internal neighbors, since said floor panel is firmly held in its position by the first three connecting elements and possibly a few following.
- step a) it is equipped with internal floor panels pre-equipped with three first connecting elements which have been positioned on said inner floor panel so that the latter can rest on the floor of the structure chassis under stable isostatic conditions.
- the connecting elements other than the first three are adjusted so that the distance between the first support wall and the second support wall is set at a second predefined value at least less than the said first predefined value, which was used for setting the first three link elements. In this way, the risk is reduced that the internal floor panel comes into contact with the floor of the chassis structure at other points than said first three connecting elements.
- the position of the first three connecting elements is indicated by a marking on the upper face of the inner floor panel.
- the first three elastic connecting elements are first fixed and then, during an intermediate step between b1) and b2), the differences between the first piece and the second piece of each of these first three resilient connection elements so that the inner floorboard is perfectly horizontal, placed at the desired altitude (it must generally be within a certain defined range of values relative to a reference altitude, for example the altitude of the rail if the floor is intended for a rail vehicle) and that it is well positioned relative to the side walls of said vehicle.
- a connecting element such as that presented in Example 7 and illustrated in figure 7 allows such an adjustment of the horizontality, the altitude and the lateral positioning of the internal floor panel. Once the adjustment is made, the gaps between the first piece and the second piece of each of said first three connecting elements are blocked by means of an immobilizing means. Then we go to step b2).
- the figure 1a illustrates, in front view and in semi-section by a vertical plane, a first embodiment according to the invention.
- the figure 1b illustrates, seen from above and in a section along the plane AA (cf. fig 1a ) this first embodiment.
- the figure 2 illustrates schematically, in front view, a second embodiment.
- the figure 3a schematically illustrates, in front view, a third embodiment.
- the figure 3b details the central part of the lower element of this third embodiment.
- the figure 3c schematically illustrates, in front view, an internal floor panel equipped with a connecting element according to the third embodiment and mounted on the floor of a rail vehicle boiler.
- the figure 3d illustrates an axisymmetric variant of this third embodiment.
- the Figures 4a to 4d illustrate a fourth embodiment.
- the Figures 5a and 5b illustrate, respectively in front view and in side view, a fifth embodiment.
- the Figures 6a to 6c illustrate, respectively in front view, in side view and in top view, a sixth embodiment.
- the Figures 6b and 6c (partial view) are sections respectively with respect to plane AA and plane BB as illustrated in figure 6a ..
- FIGs 7 to 9 illustrate, in front view, three other embodiments, in which, unlike the previous embodiments, it is the upper element which is subdivided into two parts linked by an incomplete mechanical connection.
- the example of figure 7 allows lateral positioning of the inner floor panel.
- Examples of figures 8 and 9 allow bonding on the floor of the frame structure.
- the figure 8 illustrates an embodiment where the first support wall is glued before the installation of the internal floor panel equipped with such a connecting element.
- the figure 9 illustrates an embodiment where an adhesive material is injected after laying the floorboard.
- the lower member (31) comprises a first piece (311) which is adjacent to the elastic mass (6) and a second piece (312) which comprises said first bearing wall (30).
- the first piece and the second piece are interconnected by a link (313) of the slide type where the axis (318) is integral with the second piece (312) and where the first piece (311) is provided with a bore (311.1) slidable about said axis (318), which serves as a vertical displacement guide.
- the relative displacement of the first piece relative to the second is achieved by means of two symmetrically disposed intermediate pieces (314 and 314 ') which act as a spacer moving the upper member away from the lower member.
- the intermediate pieces (314 and 314 ') are indeed longitudinal wedges connected by a spring (316) which tends to bring them closer together. Thanks to the sliding contact of the inclined faces (314.1) and (311.2), the approximation of the corners tends to lift the first piece (311).
- the lifting movement, guided by the sliding of the bore (311.1) around the axis (318) is limited, or even thwarted by the presence of a nut (315) that can be screwed more or less on the threaded upper part of said axis (318).
- the distance between the first support wall (30) and the second support wall (40) can be adjusted to the desired distance, for example the distance corresponding to the actual level difference between the internal floor and the floor of the cauldron at the connecting element.
- the nut (315) is a standard nut with a low-pitch helical screw thread. Under the effect of the axial stress exerted by the spring (316) via the intermediate pieces (314 and 314 '), a certain friction is exerted on the thread and the nut serves as a means of immobilization to maintain the distance between the first support wall (30) and the second support wall (40) to the desired value.
- a nut of different shape with a fast screw thread, of higher slope, and a wider peripheral part through which a self-tapping screw can pass to be screwed on the first piece (311 ).
- connection element also comprises a vulcanized neoprene layer (7) on the second support wall (40), which improves the performance of the connection element in terms of corrosion resistance of the assembly. at the junction linkage - internal floor and in terms of vibration damping and noise.
- the connecting element (51) is adhered to the bottom wall (24) of the inner floor panel (21), which is provided with an orifice (22) in line with the orifice (42) formed in the second wall support (40). In this way, an operator can act on the nut (315) from the top of the inner floor to adjust the distance between the first support wall (30) and the second support wall (40).
- the connecting element (52) comprises a lower element (32) having a first bearing wall (30), an upper element (42) having a second bearing wall (40) and an elastic mass ( 6).
- the lower member (32) comprises a first piece (321) which is adjacent to the elastic mass (6) and a second piece (322) which comprises said first bearing wall (30).
- the first piece and the second piece are interconnected by a jack (326).
- the incomplete mechanical connection is a slider type link (323), where the piston (324) slides in the cylinder chamber.
- the connecting element (53) comprises a lower element (33) which has a first bearing wall (30), an upper element (43), which has a second bearing wall (40), and an elastic mass (6).
- the lower member (33) comprises a first piece (331) which is adjacent to the elastic mass (6) and a second piece (332) which comprises said first bearing wall (30) and a pin (335). central fixed perpendicular to said first support wall.
- the first piece (331) and the second piece (332) are interconnected by a connection (333) of screw-nut type, the nut function being provided by a piece (337) which is integral with the first piece (331).
- the screw function being provided by a sleeve (334) externally threaded, free to rotate with respect to the axis of said pin but secured to the second piece (332) by means of the head (335.1) of said spindle.
- a sleeve 334
- the distance between the first support wall (30) and the second support wall (40) can be adjusted to the desired distance.
- a washer 338 is placed between said threaded sleeve and the second support piece (332).
- the figure 3c illustrates the detail of a panel (21) of an internal floor (2) provided with a plurality of elastic connecting elements (53) adhered to the underside (24) of the inner floor panel (21).
- the layer (7) is an insulating and resilient material that protects the assembly from corrosion and dampens vibration and noise.
- This layer (7), vulcanized neoprene on the second support wall (40), has been coated with adhesive material to fix the connecting elements (53) on the floor panel (21).
- the inner floor panel (21) is provided with an opening (22) formed in line with the orifice (42) formed in the second support wall (40). In this way, an operator can, from the top of the internal floor, have access to the lower element, which itself has an orifice (339) so that one can have access to the sleeve (334) externally threaded and rotating it with a tool fitting into the notches (334.1).
- the internal floor panel is also provided with openings (23) arranged at the right fixing points (13) of the first support wall (30) on the floor (110) of the frame structure (1). In this way, an operator can, from the top of the internal floor, achieve the attachment of the first support wall on the floor of the frame structure.
- said internal floor panel significantly reduces the mounting time of the internal floors, since the operation devoted to the attachment of one of the support walls of the elements elastic connection can be performed in hidden time.
- the connecting element (53 ') comprises a lower element (33') which has a first support wall (30), an upper element (43 '), which has a second support wall (40), and an elastic mass (6).
- the lower member (33 ') comprises a first piece (331') which is adjacent to the elastic mass (6) and a second piece (332 ') which comprises said first bearing wall (30).
- the first piece and the second piece are interconnected by a connection (333 ') of screw-nut type, the nut function is provided directly by the first piece (331') which has a threaded bore, the screw function being provided by an externally threaded sleeve (334 '), free to rotate relative to the axis of a vertical pin (not shown) similar to the pin (335), which is surmounted by a head which holds the sleeve (334') integral with the second piece (332 ').
- the connecting element (54) comprises a lower element (34) having a first bearing wall (30), an upper element (44) having a second bearing wall (40), and an elastic mass (6).
- the lower member (34) includes a first piece (341) that is adjacent to the elastic mass (6) and a second piece (342) that includes said first bearing wall (30).
- the first piece and the second piece are interconnected by a link (343) of slide type, the inverted U formed by the wings (341.1) of the first piece (341) being inserted into the space delimited by the wings (342.1) of the second piece (342).
- the displacement of the second piece relative to the first piece is ensured manually from the top of the floor, thanks to the access provided by the orifice (42) formed in the second support wall (40).
- the outer wall of the wings (341.1) is provided with a snap-on bead (341.2).
- the inner wall of the wings (342.1) is provided with a plurality of grooves (342.2) of complementary shape to that of the bead.
- the snap-on bead (341.2), trapped by one of the grooves (342.2), constitutes an immobilization means (345) which makes it possible to keep the distance between the first support wall (30) and the second wall pressing (40) to the desired value.
- a pivoting latch (348) also operable from above the floor is used. By rotating the gripping head (347) of the latch, the arms (349) are placed in a position where they come into contact with the inner walls of the wings (341.1) of the first piece.
- the arms (349) have a length such that when they come into contact with the wings (341.1), they impose an outward movement, putting the snap beads (341.2) in forced support in the grooves (342.2) .
- the connecting element (55) comprises a lower element (35) having a first bearing wall (30), an upper element (45) having a second bearing wall (40), and an elastic mass (6).
- the lower member (35) comprises a first piece (351) which is adjacent to the elastic mass (6) and a second piece (352) which comprises said first bearing wall (30).
- the first piece (351) and the second piece (352) are interconnected by a pantograph (354), the retractor function being provided by the screw-nut connection of the pantograph, the braces transforming the horizontal movement in vertical movement.
- a handle (357) is used to manually turn the threaded rod (358) of the pantograph.
- the connecting element (56) comprises a lower element (36) having a first bearing wall (30), an upper element (46) having a second bearing wall (40), and an elastic mass (6).
- the lower member (36) includes a first piece (361) which is adjacent to the elastic mass (6) and a second piece (362) which includes said first support wall (30).
- the first piece (361) and the second piece (362) are interconnected by a connection (363) type "sliding support corners".
- the first piece (361) is secured, by means of an intermediate piece (364), an inclined face (364.1).
- the second piece (362) is provided with an inclined face (362.1) placed opposite the inclined face (364.1) of the intermediate piece (364).
- Relative movement of the first piece (361) relative to the second piece (362) is achieved by sliding on said inclined faces (364.1) and (362.1). This results in a displacement which moves the bearing face (30) closer to or closer to the upper element of the bearing face (40) of the lower element.
- the first piece (361) and the intermediate piece (364) form a single piece.
- the first piece (361) and the second piece (362) are made integral with a screw (365) whose head is supported on the upper face of the first piece (361) and whose threaded shaft is screwed in a threaded bore formed in the second piece (362).
- Said threaded barrel passes through oblong bores (3610) and (3640) formed in the first piece (361) and the intermediate piece (364).
- the inner floor panel (21) is provided with an opening (22) formed in line with the orifice (42) formed in the second support wall (40). In this way, an operator can, from the top of the internal floor, have access to the lower element, in particular to the screw (365). After proceeding as indicated in the preceding paragraph, an operator can, from the top of the internal floor, adjust and then fix the distance between the first support wall (30) and the second support wall (40) to the value desired.
- the inner floor panel is also provided with openings arranged in line with the attachment points (13) of the first support wall (30) on the floor of the frame structure (1). In this way, an operator can, from the top of the internal floor, achieve the attachment of the first support wall on the floor of the frame structure.
- the connecting element (57) comprises a lower element (37) having a first bearing wall (30), an upper element (47) having a second bearing wall (40), and an elastic mass (6).
- the upper member (47) comprises a first piece (471) which is adjacent to the elastic mass (6) and a second piece (472) which comprises said second bearing wall (40).
- the first piece (471) and the second piece (472) are interconnected by a connection (473) of screw-nut type, the nut function being provided directly by the second piece (472), which is provided with a bore Threaded, the screw function being ensured, as in Example 3, by a sleeve (474) externally threaded and operable in rotation through a notch form (474.1).
- the pin (not shown) which retains said sleeve (474) externally threaded is here integral with the finger (478) of the ball joint (477), the first piece (471) and the second piece (472) forming between them a ball joint finger, which blocks the three translations and the rotation around the axis of the finger but leaves free the two other rotations.
- the ball (477) can pivot in the spherical cavity formed in the first piece (471) with the possibility of rotating about two axes perpendicular to said finger (478), in the extension of which is the pin which holds the sleeve (474). ).
- the gap between the first support wall and the second support wall is adjusted to a predefined standard value.
- the fingers of these three elastic connecting elements are oriented so as to have the good distance from the side walls while actuating the threaded sleeve to compensate for the effect of the inclination of the spherical pivot link finger and maintain good horizontality.
- Such a connecting element may not be part of these first three connecting elements.
- the distance between the first bearing wall and the second support wall is fixed at a predefined value lower than the previous one and the threaded sleeve is actuated to increase the said gap up to the difference in levels between the first support wall and the second support wall corresponds exactly to the actual level difference between the internal floor and the floor of the cauldron at said connecting element.
- FIG. 8 An eighth embodiment according to the invention is illustrated in figure 8 .
- the connecting member (58) comprises a lower member (38) having a first bearing wall (30 '), an upper member (48) having a second bearing wall (40), and a mass elastic (6).
- the first bearing wall (30 ') has a periphery surrounded by a continuous bead (300), which delimits the layer of adhesive material (9) deposited on said bearing face.
- the deposition of the adhesive material is performed on all the connecting elements, just before the installation of the internal floor panel on the floor of the frame structure, the gaps between the first support wall and the second wall of support having been fixed to said first or second predetermined value, depending on whether the connecting element concerned is part of the first three connecting elements or the following.
- the upper element (48) comprises a first part (481), which is tubular, threaded internally and adjacent to the elastic mass (6) by its outer wall, and a second part (482) which comprises said second support wall (40).
- the first piece (481) and the second piece (482) are interconnected by a connection (483) of screw-nut type, the nut function being provided by the second piece (482), which comprises a cylindrical skirt (484) provided on its outer wall of a screw thread which cooperates with the screw thread formed on the inner wall of the first piece (481), the latter having a tubular shape.
- the connecting element (58) is placed on the floor panel (21) so as to be temporarily secured to it by means of the screws (10) which hold the second piece (482) of the element higher (48).
- the screws (10) are unscrewed until the rotation of the second piece (482) is possible and, with the aid of a complementary shape tool to the hexagonal cavity (484.1) formed on the upper face of the second piece (482), rotates said second piece (482) about the axis (100).
- the second piece (482) has a cylindrical male portion (484.2) inserted into the orifice (22) which passes through said floor panel (21) and acts as a rotating shaft in a hub.
- this connecting element is part of the first three connecting elements used for mounting the panel on the floor of the frame structure as described above
- the first piece (481) secured to the lower member (38) by the bias of the elastic mass (6) has been screwed in such a way that the distance between the first support wall (30) and the second support wall (40) corresponds to a first predetermined value associated with the altitude theoretical assigned to said internal floor.
- the first bearing surface (30 ') of the element provided with its layer of adhesive material (9) comes into contact with the floor of the chassis structure, which, after a certain time drying, rotates the lower member (38) and the first piece (481).
- this connecting element is not part of the first three connecting elements used for mounting the panel on the floor of the frame structure as described above, the first piece (481) integral with the lower member (38). ) through the elastic mass (6) has been screwed so that the distance between the first bearing wall (30) and the second bearing wall (40) is fixed at a second predetermined value, lower than said first predetermined value. In this way, when adjusting and fixing the first three connecting elements, the first support wall of this connecting element is not likely to immediately touch the floor of the frame structure.
- the connecting element (59) comprises a lower element (39) which has a first support wall (30 '), an upper element (49), which has a second support wall (40), and a mass elastic (6).
- the upper element (49) comprises a first part (491) adjacent to the elastic mass (6) by its outer wall and having a tubular portion (491.1) threaded on its outer wall.
- the upper member (49) also includes a second piece (492) which includes said second bearing wall (40).
- the first piece (491) and the second piece (492) are interconnected by a connection (493) of screw-nut type, the nut function being provided directly by the second piece (492), which comprises a cylindrical skirt (494). ) provided with a screw thread on its inner wall which cooperates with the screw thread formed on the outer wall of the tubular portion (491.1) of the first piece (491).
- the first support wall (30 ') has a periphery surrounded by a continuous bead (300), so that when the connecting element is brought into contact with the floor of the chassis structure, it is formed between said floor and said first support wall a cavity (301) adapted to receive adhesive material (9) injected from above the floor internal.
- a vertical tubular duct (391) integral with said first piece, whose upper end is oriented towards the respective orifices (22) and (42) of the second support wall (40) and the panel (21) of internal floor and whose lower end opens into said cavity (301) guides the injection of adhesive material.
- the upper end (392) of this tubular duct (391), accessible from the outside through the orifices (42) and (22), is provided on its inner wall, temporary securing means, here 6 which, in cooperation with an external tool manipulated from above the inner floor, rotates the lower member (39) and the first piece (491), which are therefore screwed or unscrewed relative to the second piece (492) attached to the inner floor panel (21).
- the connecting element (59) is fixed on the internal floor panel (21) by screwing the second support wall (40) onto the lower face (24) of said panel.
- this embodiment allowing the injection of adhesive material after the introduction of the panel, can advantageously, at least when the connecting element is not part of the first three, permanently fix the connecting element on the inner floor panel before the laying thereof: the first piece (491), secured to the lower member (39) through the elastic mass (6), has been advantageously screwed so that the distance between the first support wall (30) and the second support wall (40) is set at a second predetermined value less than the first predetermined value which corresponds to the theoretical difference in levels between the internal floor and the floor of the frame structure and, once the panel is placed on the floor of the frame structure, the first member (39), the elastic mass (6) and the first piece (491) are rotated by means of a tool of shape made integral in rotation with the cylindrical duct (391) thanks to the hexagon of the end (392) of said cylindrical duct until the end of the bead (300) of the first support wall (30) reaches the second support wall (40) and then remove the tool to release the conduit and then inject the adhesive material in the cavity (301).
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Description
L'invention concerne le montage flottant de planchers internes de véhicules divers, par exemple des véhicules navals, ferroviaires ou routiers. Elle concerne plus particulièrement les éléments de liaison élastique amortissant les vibrations et les bruits qui permettent de monter en suspension une structure de plancher interne sur le châssis de la caisse/structure d'un véhicule et que nous désignerons par la suite "structure-châssis". Pour illustrer ladite invention, nous avons décrit des éléments de liaison élastique destinés au montage flottant de planchers internes sur les châssis des chaudrons de véhicules ferroviaires.The invention relates to the floating assembly of internal floors of various vehicles, for example naval, rail or road vehicles. It relates more particularly to elastic connecting elements damping vibrations and noise that allow to suspend an internal floor structure on the frame of the body / structure of a vehicle and which we will subsequently designate "chassis structure" . To illustrate this invention, we have described elastic connection elements for the floating mounting of internal floors on the chassis of the boiler of railway vehicles.
On connaît par
Dans la pratique, on pose, on met à niveau et on fixe individuellement, par collage, vissage, rivetage ou soudage, les dits éléments de liaison élastique sur le plancher de la structure-châssis puis on pose les éléments du plancher interne sur lesdits éléments de liaison élastique, que nous appellerons par la suite "éléments de liaison". Typiquement (le nombre et la répartition des éléments de liaison dépend de la charge à supporter), il faut fixer 4 à 6 éléments de liaison par mètre carré, c'est-à-dire de l'ordre de 200 à 300 éléments de liaison par chaudron. Même si plusieurs opérateurs peuvent agir simultanément, la mise en place des panneaux de plancher interne et leur mise à niveau se traduisent par des temps de préparation importants avant la fixation proprement dite, qui elle-même est une opération longue et entraîne un certain temps d'attente (refroidissement après soudage, séchage de l'adhésif, etc...) avant de pouvoir entreprendre une nouvelle opération sur un (ou plusieurs) élément(s) de plancher voisin(s). Typiquement, pour un chaudron ferroviaire, le temps consacré à la préparation du plancher de la structure-châssis avant la mise en place des éléments du plancher est de l'ordre de 5-12 h. De plus, une fois fixés sur le plancher de la structure-châssis, les éléments de liaison constituent des obstacles fragiles que les opérateurs doivent éviter lors de leurs déplacements, de sorte que l'intervention consacrée au montage flottant de tels planchers a été jusqu'à présent considérée comme particulièrement longue et délicate.In practice, one installs, leveling and individually fixed, by gluing, screwing, riveting or welding, said elastic connection elements on the floor of the chassis structure and then the elements of the internal floor are placed on said elements of elastic connection, which we will call later "connecting elements". Typically (the number and distribution of connecting elements depends on the load to be supported), it is necessary to fix 4 to 6 connecting elements per square meter, that is to say of the order of 200 to 300 elements. caulking connection. Even if several operators can act simultaneously, the installation of internal floor panels and their leveling result in significant preparation times before the actual fixing, which itself is a long operation and involves a certain amount of time. waiting (cooling after welding, drying of the adhesive, etc ...) before being able to undertake a new operation on one (or more) element (s) next floor (s). Typically, for a railway cauldron, the time spent preparing the floor of the chassis structure before the placement of the floor elements is of the order of 5-12 h. In addition, once attached to the floor of the frame structure, the connecting elements are fragile obstacles that operators must avoid when moving, so that the intervention devoted to the floating assembly of such floors has been up to now considered particularly long and delicate.
Les éléments de plancher constituant le plancher interne (typiquement des panneaux, des dalles ou des planches, en bois, en nid d'abeille et/ou en structure composite) sont ensuite assemblés et fixés, typiquement par vissage, sur les éléments supérieurs des éléments de liaison, à l'aide par exemple de vis auto-taraudantes. Comme la structure-châssis du chaudron n'est pas parfaitement plane, il faut, si l'on souhaite obtenir un plancher interne de planéité satisfaisante, que chaque élément de liaison soit contrôlé et ajusté en hauteur avant la mise en place et la fixation de l'élément de plancher, pour tenir compte des différences de hauteur locales résultant de la planéité imparfaite du plancher de la structure-châssis.The floor elements constituting the internal floor (typically panels, slabs or planks, made of wood, honeycomb and / or composite structure) are then assembled and fixed, typically by screwing, on the upper elements of the elements. connection, for example using self-tapping screws. As the frame structure of the cauldron is not perfectly flat, it is necessary, if it is desired to obtain an internal floor of satisfactory flatness, that each connecting element is controlled and adjusted in height before the installation and fixing of the floor element, to take into account local height differences resulting from the imperfect flatness of the floor of the chassis structure.
La demande de
De telles solutions ne paraissent pas entièrement satisfaisantes dans la mesure où la mise en place des socles sur le plancher de la structure-châssis prend toujours beaucoup de temps. De plus, le maintien du réglage en hauteur qui résulte de la coopération des filets et des rampes hélicoïdales (
La demanderesse a donc tenté de trouver une solution satisfaisante permettant de réaliser le montage flottant d'un plancher interne sur le plancher de la structure-châssis de tout véhicule, par exemple le chaudron d'un véhicule ferroviaire, se traduisant par durée d'intervention aussi courte que possible, le plancher interne devant par ailleurs présenter une planéité parfaite, indépendante des défauts de planéité du plancher de la structure-châssis.The applicant has therefore tried to find a satisfactory solution for the floating assembly of an internal floor on the floor of the chassis structure of any vehicle, for example the cauldron of a railway vehicle, resulting in duration of intervention as short as possible, the internal floor must also have a perfect flatness, independent of flatness defects of the floor of the frame structure.
Un premier objet selon l'invention est un élément de liaison amortissant les vibrations et les bruits destiné au montage flottant d'un plancher interne sur le plancher d'une structure-châssis et comprenant :
- a) un élément inférieur présentant une première paroi d'appui destinée à être fixée sur le plancher de ladite structure-châssis;
- b) un élément supérieur, présentant une deuxième paroi d'appui, sensiblement parallèle à ladite première paroi d'appui et destinée à être fixée sur ledit plancher interne;
- c) une masse élastique agencée entre ledit élément inférieur et ledit élément supérieur de telle sorte que ledit élément inférieur et ledit élément supérieur peuvent se déplacer l'un par rapport à l'autre tout en restant distants l'un de l'autre;
- a) a lower member having a first support wall for attachment to the floor of said frame structure;
- b) an upper element, having a second support wall, substantially parallel to said first support wall and intended to be fixed on said inner floor;
- c) an elastic mass arranged between said lower member and said upper member such that said lower member and said upper member can move relative to each other while remaining distant from each other;
Comme dans
Mais l'élément de liaison selon l'invention se distingue de
Parmi les modes de réalisation présentés ci-après dans les exemples, les premiers proposent de subdiviser l'élément inférieur en au moins deux pièces solidaires entre elles et mobiles l'une par rapport à l'autre. Les exemples suivants montrent qu'il est également possible de subdiviser l'élément supérieur en deux pièces solidaires et mobiles l'une par rapport à l'autre.Among the embodiments presented hereinafter in the examples, the first propose to subdivide the lower element into at least two parts integral with each other and movable relative to each other. The following examples show that it is also possible to subdivide the upper element into two parts integral and movable relative to each other.
Selon l'invention, ladite première pièce et ladite deuxième pièce sont liées entre elles par une liaison mécanique incomplète, qui permet le déplacement relatif d'une pièce par rapport à l'autre suivant une direction sensiblement perpendiculaire aux parois d'appui. Cette liaison mécanique incomplète est par exemple une liaison glissière qui assure 5 degrés de liaison et ne permet qu'un mouvement de translation dans la direction visée. Ce peut être une liaison pivot glissant avec anti-rotation (typiquement un arbre cylindrique coulissant dans un alésage sans tourner autour de son axe, une liaison hélicoïdale (typiquement un système vis-écrou), ou encore une liaison "double appui plan" avec de plans de contact sécants (typiquement un système de coins en appui glissant).According to the invention, said first piece and said second piece are interconnected by an incomplete mechanical connection, which allows the relative displacement of one piece relative to the other in a direction substantially perpendicular to the support walls. This incomplete mechanical connection is for example a slide connection which provides 5 degrees of connection and allows only a translational movement in the intended direction. This can be a sliding pivot connection with anti-rotation (typically a cylindrical shaft sliding in a bore without rotating about its axis, a helical connection (typically a screw-nut system), or a connection "double plane support" with secant contact planes (typically a system of wedges sliding support).
Le déplacement relatif de la première pièce par rapport à la deuxième pièce peut être directement imposé manuellement. Il peut également être réalisé à l'aide d'une pièce intermédiaire dont le déplacement entraîne le déplacement relatif de la première pièce par rapport à la deuxième pièce. Nous appellerons par la suite cette pièce intermédiaire "écarteur". L'écarteur peut être l'une ou l'autre partie d'un système vis-écrou, un ou plusieurs coins en translation, le corps ou la tige d'un vérin. L'écarteur peut être déplacé à la main ou à l'aide d'un actionneur alimenté par une source d'énergie auxiliaire, tel un ressort comprimé, un vérin électromécanique, pneumatique ou hydraulique ou encore une enceinte déformable mise sous pression d'air pour être utilisée comme support pneumatique. L'apport d'une énergie auxiliaire permet d'automatiser et/ou de piloter à distance le déplacement de la première pièce par rapport à la deuxième pièce pour atteindre l'écart visé, par exemple pour permettre la mise à niveau de l'élément de plancher. Ainsi, dans le cadre de la présente invention, ledit déplacement peut être effectué après la pose de l'élément de plancher, même si l'accès à l'écarteur ou à l'actionneur n'est pas très aisé.Relative movement of the first piece relative to the second piece can be directly imposed manually. It can also be achieved using an intermediate piece whose displacement causes the relative movement of the first piece relative to the second piece. We will call later this intermediate part "spacer". The spacer may be either part of a screw-nut system, one or more translational corners, the body or rod of a cylinder. The spacer can be moved by hand or with the aid of an actuator powered by an auxiliary energy source, such as a compressed spring, an electromechanical, pneumatic or hydraulic cylinder or a deformable enclosure pressurized with air to be used as a pneumatic support. The contribution of an auxiliary energy makes it possible to automate and / or remotely control the movement of the first piece relative to the second piece to reach the gap referred to, for example to allow the leveling of the floor element. Thus, in the context of the present invention, said displacement can be performed after the laying of the floor element, even if access to the spacer or to the actuator is not very easy.
Avantageusement, ledit élément (inférieur ou supérieur), qui a été subdivisé en au moins deux pièces solidaires et mobiles l'une par rapport à l'autre, est muni également d'un moyen d'immobilisation qui immobilise ladite première pièce par rapport à ladite deuxième pièce, de sorte que ladite première paroi d'appui et ladite deuxième paroi d'appui peuvent être maintenues éloignées l'une de l'autre selon une distance constante déterminée. Par exemple, lorsque l'écart entre la première paroi d'appui et la seconde paroi d'appui correspond exactement à la différence de niveaux réelle qui existe entre le plancher interne et le plancher de ladite structure-châssis au voisinage dudit élément de liaison, on peut, en immobilisant la première pièce par rapport à la deuxième pièce, réaliser le montage d'un plancher interne dont la planéité ne dépend pas des défauts de planéité du plancher de la structure-châssis.Advantageously, said element (lower or upper), which has been subdivided into at least two integral parts and movable relative to each other, is also provided with an immobilization means which immobilizes said first part with respect to said second part, so that said first support wall and said second support wall can be kept away from each other by a determined constant distance. For example, when the distance between the first support wall and the second support wall corresponds exactly to the actual difference in levels that exists between the internal floor and the floor of the said frame structure in the vicinity of the said connecting element, it is possible, by immobilizing the first piece relative to the second part, to mount an internal floor whose flatness does not depend on flatness defects of the floor of the frame structure.
Le moyen d'immobilisation peut être un moyen spécifique, par exemple un bourrelet solidaire de la première pièce piégé dans une gorge solidaire de la deuxième pièce (ou vice-versa) ou encore tout moyen de fixation, tel qu'une vis, permettant de solidariser la première et la deuxième pièce.The immobilizing means may be a specific means, for example a bead secured to the first piece trapped in a groove secured to the second piece (or vice versa) or any fastening means, such as a screw, allowing join the first and second rooms.
Dans beaucoup d'exemples exposés ci-après, on utilise une liaison vis-écrou pour assurer la fonction d'écarteur. Pour permettre un réglage rapide, on choisit de préférence une liaison vis-écrou avec des filets hélicoïdaux de pente élevée et au contact faiblement frottant de sorte qu'il est préférable de faire appel à des moyens d'immobilisation spécifiques, typiquement une vis auto-taraudante vissée au travers de la partie vis et de la partie écrou du système vis-écrou, par exemple au niveau de la zone commune des filets rapides.In many examples described below, a screw-nut connection is used to provide the retractor function. To allow a quick adjustment, a screw-nut connection is preferably chosen with helical threads of high slope and in low friction contact so that it is preferable to use specific immobilization means, typically a self-locking screw. tap threaded through the screw portion and the nut portion of the screw-nut system, for example at the common area of the fast nets.
Avantageusement, l'élément de liaison comprend, outre la masse élastique ménagée entre l'élément supérieur et l'élément inférieur, une couche extérieure qui est adjacente à la deuxième paroi d'appui et qui est constituée d'un matériau isolant et élastique, isolant pour éviter une éventuelle corrosion par effet de pile entre le matériau de la deuxième paroi d'appui et le matériau de la face inférieure du panneau de plancher interne, élastique pour améliorer l'amortissement des vibrations et des bruits. Cette couche peut être en caoutchouc naturel ou en néoprène, collée ou vulcanisée directement sur ladite deuxième paroi d'appui.Advantageously, the connecting element comprises, in addition to the elastic mass formed between the upper element and the lower element, an outer layer which is adjacent to the second support wall and which is made of an insulating and elastic material, insulation to prevent possible stack corrosion between the material of the second support wall and the material of the underside of the inner floor panel, resilient to improve the damping of vibration and noise. This layer may be of natural rubber or neoprene, glued or vulcanized directly on said second support wall.
Dans certains modes de réalisation, la première paroi d'appui se présente sous la forme d'une platine qui déborde de l'espace occupé par l'élément supérieur et la masse élastique, la périphérie de ladite platine étant munie d'orifices ou étant destinée à être percée pour le passage de vis de fixation. Dans d'autres modes de réalisation, la face inférieure de la première paroi d'appui est munie d'une couche adhésive ou est destinée à être enduite d'une matière adhésive, de préférence juste avant la mise en place du panneau de plancher interne sur le plancher de la structure-châssis. Enfin, dans d'autres modes de réalisation, tels que celui du dernier exemple présenté ci-après, on entoure la périphérie de la face inférieure de la première paroi d'appui avec un bourrelet continu, de telle sorte que lorsque l'élément de liaison est mis au contact du plancher de la structure-châssis, il se forme entre ledit plancher et ladite première paroi d'appui une cavité apte à recevoir de la matière adhésive injectée depuis le dessus du plancher interne.In some embodiments, the first bearing wall is in the form of a plate which projects beyond the space occupied by the upper element and the elastic mass, the periphery of said plate being provided with orifices or being intended to be pierced for the passage of fixing screws. In other embodiments, the underside of the first backing wall is provided with an adhesive layer or is to be coated with an adhesive material, preferably just prior to placement of the inner floorboard. on the floor of the chassis structure. Finally, in other embodiments, such as that of the last example presented below, surround the periphery of the lower face of the first support wall with a continuous bead, so that when the element of connection is brought into contact with the floor of the frame structure, there is formed between said floor and said first support wall a cavity adapted to receive the adhesive material injected from the top of the internal floor.
Un autre objet selon l'invention est un panneau de plancher interne destiné à être monté de manière flottante sur le plancher d'une structure-châssis caractérisé en ce qu'il est muni d'au moins une pluralité d'éléments de liaison élastique selon l'invention. Comme indiqué précédemment, le fait d'utiliser des panneaux de plancher interne pré-équipés d'éléments de liaison élastique permet de diminuer significativement le temps de montage des planchers internes, puisque l'opération consacrée à la fixation des éléments de liaison élastique ne se trouve plus sur le chemin critique du montage flottant du plancher. Cette opération peut être réalisée en temps caché sur le site, voire bien avant, dans un atelier consacré.Another object according to the invention is an internal floor panel intended to be mounted floating on the floor of a chassis structure, characterized in that it is provided with at least a plurality of elastic connection elements according to the invention. As previously mentioned, the fact of using internal floorboards pre-equipped with elastic connection elements makes it possible to significantly reduce the assembly time of the internal floors, since the operation devoted to the fixing of the elastic connection elements does not take place. find more on the critical path of floating floor mounting. This operation can be done in hidden time on the site, or even before, in a dedicated workshop.
Lesdits éléments de liaison élastique peuvent être fixés "définitivement" sur la face inférieure du dit panneau de plancher interne, par exemple par collage, rivetage ou vissage de la deuxième paroi d'appui sur la face inférieure dudit panneau de plancher interne. Ils peuvent également être simplement maintenus temporairement solidaires du panneau de plancher interne, par exemple par coopération de moyens de solidarisation temporaire (moyens d'encliquetage ou de vissage, ou encore moyens d'enfonçage à force réversible, typiquement une partie mâle de l'élément supérieur destinée à être enfoncée dans une cavité ménagée dans ledit panneau de plancher interne). Une fois que le panneau de plancher interne a été posé sur le plancher de structure-châssis, ces moyens de solidarisation temporaire sont enlevés afin de permettre l'activation d'un écarteur et le réglage et le figeage de l'écart entre la première pièce et la deuxième pièce. Ensuite, les éléments de liaison élastique sont fixés définitivement sur le panneau de plancher interne, typiquement par vissage de la deuxième paroi d'appui sur la face inférieure dudit panneau, les vis, étant vissées depuis le dessus du panneau, traversant la totalité de l'épaisseur dudit panneau.Said elastic connection elements can be fixed "permanently" on the underside of said inner floor panel, for example by gluing, riveting or screwing the second bearing wall on the underside of said inner floor panel. They can also be simply held temporarily secured to the internal floor panel, for example by cooperation of securing means temporary (snap-fastening or screwing means, or reversible force sinking means, typically a male portion of the upper member to be driven into a cavity in said inner floor panel). Once the internal floor panel has been placed on the chassis-frame floor, these temporary securing means are removed in order to allow the activation of a spacer and the setting and freezing of the gap between the first part and the second room. Then, the elastic connection elements are permanently fixed on the inner floor panel, typically by screwing the second support wall on the underside of said panel, the screws, being screwed from the top of the panel, passing through the entire wall. thickness of said panel.
Avantageusement une couche en un matériau isolant et élastique est placée entre ladite deuxième paroi d'appui et la face inférieure du panneau de plancher interne.Advantageously a layer of insulating and elastic material is placed between said second support wall and the underside of the inner floor panel.
Avantageusement, ledit panneau de plancher interne est également muni d'ouvertures réalisées au droit des orifices ménagés dans la deuxième paroi d'appui desdits éléments de liaison élastique, de façon à ce que, depuis le dessus du plancher interne, un opérateur puisse avoir accès à l'écarteur et/ou à son actionneur (pour régler l'écart entre la première pièce et la deuxième pièce) et/ou au moyen d'immobilisation (pour maintenir ledit écart), ou encore à la première paroi d'appui (pour réaliser la fixation au plancher de la structure-châssis).Advantageously, said inner floor panel is also provided with openings made in line with the orifices provided in the second support wall of said elastic connection elements, so that, from the top of the internal floor, an operator can have access at the spreader and / or its actuator (to adjust the distance between the first part and the second part) and / or by means of immobilization (to maintain said gap), or to the first support wall ( to achieve the attachment to the floor of the chassis structure).
Avantageusement, ledit panneau de plancher interne peut être également muni d'autres ouvertures, ménagées au droit des points de fixation de la première paroi d'appui sur le plancher de la structure châssis, de façon à ce que, depuis le dessus du plancher interne, un opérateur puisse réaliser la fixation de la première paroi d'appui sur le plancher de la structure-châssis.Advantageously, said inner floor panel may also be provided with other openings, formed in line with the fixing points of the first support wall on the floor of the chassis structure, so that from the top of the internal floor , an operator can achieve the attachment of the first support wall on the floor of the frame structure.
Bien évidemment, il est possible de munir un même panneau de plancher interne de plusieurs pluralités d'éléments de liaison élastique selon l'invention, chaque pluralité répondant à un mode de réalisation différent, associé par exemple à une fonction optionnelle supplémentaire. Ainsi, dans le procédé préféré de montage de plancher décrit ci-après, on utilise en premier trois éléments de liaison élastique pour régler, dans des conditions de support isostatiques, l'horizontalité, l'altitude et le positionnement latéral du panneau de plancher interne. Ces trois premiers éléments de liaison jouent un rôle différent de celui des autres éléments de liaison et on peut choisir pour ceux-ci un mode de réalisation spécifique, particulièrement adapté à ce stade du procédé de montage, tel que celui présenté dans l'exemple 7 ci-après.Of course, it is possible to provide the same internal floor panel with several pluralities of elastic connection elements according to the invention, each plurality corresponding to a different embodiment, associated for example with an additional optional function. Thus, in the preferred method of floor mounting described hereinafter, three elastic connecting elements are used first to adjust, in isostatic support conditions, horizontality, altitude and lateral positioning of the internal floorboard. These first three connecting elements play a role different from that of the other connecting elements and one can choose for them a specific embodiment, particularly suitable for this stage of the assembly process, such as that presented in Example 7 below.
Certains éléments de liaison élastique peuvent être choisis pour effectuer une fixation sur le plancher de la structure-châssis par vissage. D'autres peuvent être choisis pour permettre une fixation sur le plancher de la structure-châssis par collage. Par exemple, dans ledit procédé préféré de montage de plancher interne, les éléments de liaison élastique autres que les trois premiers n'ont pas à présenter la fonctionnalité des trois premiers et peuvent être placés plus rapidement par vissage ou par collage. Les derniers éléments de liaison du panneau de plancher qui doivent être réglés et fixés sur le plancher de la structure châssis peuvent avantageusement être collés sans qu'il y ait le besoin d'attendre le séchage de la colle pour commencer à poser les panneaux de plancher interne voisins, puisque ledit panneau de plancher est solidement maintenu dans sa position par les trois premiers éléments de liaison et éventuellement quelques suivants.Some resilient connection elements may be chosen to effect fastening to the floor of the frame structure by screwing. Others may be chosen to allow attachment to the floor of the frame structure by gluing. For example, in said preferred internal floor mounting method, the elastic connecting members other than the first three need not have the functionality of the first three and can be placed more quickly by screwing or gluing. The last connecting members of the floorboard to be adjusted and fixed on the floor of the frame structure can advantageously be glued without the need to wait for the glue to dry to start laying the floorboards internal neighbors, since said floor panel is firmly held in its position by the first three connecting elements and possibly a few following.
Un autre objet selon l'invention est un procédé d'assemblage permettant de monter de manière flottante un plancher interne sur un plancher de structure-châssis, caractérisé en ce qu'il comprend les étapes suivantes:
- a) on se munit de panneaux de plancher interne selon l'invention, tels que décrits ci-dessus ;
- b) on pose lesdits panneaux de plancher interne sur le plancher de la structure châssis et, pour chaque panneau de plancher interne:
- b1) on fixe sur ledit plancher de la structure-châssis la première paroi d'appui de trois éléments de liaison selon l'invention, la distance entre la première paroi d'appui et la deuxième paroi d'appui ayant été fixée à une première valeur prédéfinie, typiquement associée à l'altitude théorique affectée au dit plancher interne;
- b2) pour chacun des éléments de liaison restants, on ajuste l'écart entre ladite première pièce et ladite deuxième pièce de telle sorte que la première paroi affleure plancher de la structure-châssis, on immobilise la première pièce par rapport à la deuxième pièce et on fixe ladite première paroi d'appui sur ledit plancher de la structure châssis.
- a) is equipped with internal floor panels according to the invention, as described above;
- b) installing said inner floor panels on the floor of the frame structure and, for each inner floor panel:
- b1) is fixed on said floor of the frame structure the first support wall of three connecting elements according to the invention, the distance between the first support wall and the second support wall having been fixed to a first predefined value, typically associated with the theoretical altitude assigned to said internal floor;
- b2) for each of the remaining connecting elements, the gap between said first piece and said second piece is adjusted so that the first wall is flush with the floor of the frame structure, the first piece is immobilized with respect to the second piece and said first support wall is fixed on said floor of the chassis structure.
Au cours de l'étape a), on se munit de panneaux de plancher interne pré-équipés de trois premiers éléments de liaison qui ont été positionnés sur ledit panneau de plancher interne de telle sorte que ce dernier puisse reposer sur le plancher de la structure châssis dans des conditions isostatiques stables. Avantageusement, les éléments de liaison autres que les trois premiers sont réglés de telle sorte que la distance entre la première paroi d'appui et la deuxième paroi d'appui soit fixée à une deuxième valeur prédéfinie au moins inférieure à ladite première valeur prédéfinie, qui a été utilisée pour le réglage des trois premiers éléments de liaison. De la sorte, on diminue le risque que le panneau de plancher interne entre en contact avec le plancher de la structure-châssis en d'autres points que lesdits trois premiers éléments de liaison. Avantageusement, la position des trois premiers éléments de liaison est signalée par un marquage sur la face supérieure du panneau de plancher interne.During step a), it is equipped with internal floor panels pre-equipped with three first connecting elements which have been positioned on said inner floor panel so that the latter can rest on the floor of the structure chassis under stable isostatic conditions. Advantageously, the connecting elements other than the first three are adjusted so that the distance between the first support wall and the second support wall is set at a second predefined value at least less than the said first predefined value, which was used for setting the first three link elements. In this way, the risk is reduced that the internal floor panel comes into contact with the floor of the chassis structure at other points than said first three connecting elements. Advantageously, the position of the first three connecting elements is indicated by a marking on the upper face of the inner floor panel.
Avantageusement, à l'étape b1), on commence par fixer les dits trois premiers éléments de liaison élastique puis, au cours d'une étape intermédiaire entre b1) et b2), on règle les écarts entre la première pièce et la deuxième pièce de chacun de ces trois premiers éléments de liaison élastique de façon à ce que le panneau de plancher interne soit parfaitement horizontal, placé à l'altitude voulue (celle-ci doit en général se trouver à l'intérieur d'un certain domaine de valeurs défini par rapport à une altitude de référence, par exemple l'altitude du rail si le plancher est destiné à un véhicule ferroviaire) et à ce qu'il soit bien positionné par rapport aux parois latérales du dit véhicule. Un élément de liaison tel que celui présenté dans l'exemple 7 et illustré en
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Tous les exemples présentés ci-après ne sont bien évidemment pas limitatifs. En particulier, on pourra, sauf incompatibilité fonctionnelle évidente, transposer un de ces exemples qui présente une certaine fonction supplémentaire à un autre élément de liaison de structure différente, par exemple à un dispositif axisymétrique alors que le dispositif de l'exemple ne l'était pas, ou vice versa, ou encore à un dispositif pour lequel l'élément subdivisé en deux parties liées par un liaison mécanique incomplète est l'élément supérieur alors que celui de l'exemple était l'élément inférieur, ou vice versa.All the examples presented below are obviously not limiting. In particular, it will be possible, unless obvious functional incompatibility, to transpose one of these examples which has a certain additional function to another connecting element of different structure, for example to an axisymmetric device while the device of the example was not not, or vice versa, or to a device for which the element divided into two parts linked by an incomplete mechanical connection is the upper element while that of the example was the lower element, or vice versa.
Un premier mode de réalisation selon l'invention est illustré en
- a) un élément inférieur (31) qui présente une première paroi d'appui (30) destinée à être fixée sur le plancher (1) d'un chaudron de véhicule ferroviaire.
- b) un élément supérieur (41), qui présente une deuxième paroi d'appui (40), sensiblement parallèle à la première paroi d'appui et destinée à être fixée sur le plancher interne (2);
- c) une masse élastique (6) agencée entre l'élément inférieur (31) et l'élément supérieur (41) de telle sorte que l'élément inférieur et l'élément supérieur peuvent avoir des déplacements relatifs limités tout en restant distants l'un de l'autre.
- a) a lower element (31) which has a first support wall (30) intended to be fixed on the floor (1) of a railway vehicle boiler.
- b) an upper element (41), which has a second support wall (40), substantially parallel to the first support wall and intended to be fixed on the internal floor (2);
- c) an elastic mass (6) arranged between the lower element (31) and the upper element (41) so that the lower element and the upper element can have limited relative displacements while remaining distant; one of the other.
L'élément inférieur (31) comprend une première pièce (311) qui est adjacente à la masse élastique (6) et une deuxième pièce (312) qui comprend ladite première paroi d'appui (30). La première pièce et la deuxième pièce sont liées entre elles par une liaison (313) de type glissière où l'axe (318) est solidaire de la deuxième pièce (312) et où la première pièce (311) est munie d'un alésage (311.1) pouvant coulisser autour dudit axe (318), qui sert de guide de déplacement vertical.The lower member (31) comprises a first piece (311) which is adjacent to the elastic mass (6) and a second piece (312) which comprises said first bearing wall (30). The first piece and the second piece are interconnected by a link (313) of the slide type where the axis (318) is integral with the second piece (312) and where the first piece (311) is provided with a bore (311.1) slidable about said axis (318), which serves as a vertical displacement guide.
Le déplacement relatif de la première pièce par rapport à la deuxième est réalisé à l'aide de deux pièces intermédiaires (314 et 314') disposées symétriquement, qui agissent comme un écarteur éloignant l'élément supérieur de l'élément inférieur. Les pièces intermédiaires (314 et 314') sont en effet des coins longitudinaux reliés par un ressort (316) qui tend à les rapprocher. Grâce au contact glissant des faces inclinées (314.1) et (311.2), le rapprochement des coins tend à soulever la première pièce (311). Le mouvement de soulèvement, guidé par le coulissement de l'alésage (311.1) autour de l'axe (318) est limité, voire contrarié, par la présence d'un écrou (315) que l'on peut visser plus ou moins sur la partie supérieure filetée du dit axe (318). Selon le nombre de tours de vissage imposés à l'écrou, l'éloignement entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) peut être réglé à la distance voulue, par exemple la distance correspondant à la différence de niveaux réelle entre le plancher interne et le plancher du chaudron au niveau de l'élément de liaison.The relative displacement of the first piece relative to the second is achieved by means of two symmetrically disposed intermediate pieces (314 and 314 ') which act as a spacer moving the upper member away from the lower member. The intermediate pieces (314 and 314 ') are indeed longitudinal wedges connected by a spring (316) which tends to bring them closer together. Thanks to the sliding contact of the inclined faces (314.1) and (311.2), the approximation of the corners tends to lift the first piece (311). The lifting movement, guided by the sliding of the bore (311.1) around the axis (318) is limited, or even thwarted by the presence of a nut (315) that can be screwed more or less on the threaded upper part of said axis (318). According to the number of tightening turns imposed on the nut, the distance between the first support wall (30) and the second support wall (40) can be adjusted to the desired distance, for example the distance corresponding to the actual level difference between the internal floor and the floor of the cauldron at the connecting element.
Ici, l'écrou (315) est un écrou standard avec un filet de vissage hélicoïdal à faible pente. Sous l'effet de la contrainte axiale exercée par le ressort (316) via les pièces intermédiaires (314 et 314'), un certain frottement s'exerce sur le filet et l'écrou fait office de moyen d'immobilisation permettant de maintenir l'éloignement entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) à la valeur voulue. Bien évidemment, on peut concevoir un écrou de forme différente, avec un filet de vissage rapide, de pente plus élevée, et une partie périphérique plus étendue au travers de laquelle une vis auto-taraudante peut passer pour être vissée sur la première pièce (311).Here, the nut (315) is a standard nut with a low-pitch helical screw thread. Under the effect of the axial stress exerted by the spring (316) via the intermediate pieces (314 and 314 '), a certain friction is exerted on the thread and the nut serves as a means of immobilization to maintain the distance between the first support wall (30) and the second support wall (40) to the desired value. Of course, one can design a nut of different shape, with a fast screw thread, of higher slope, and a wider peripheral part through which a self-tapping screw can pass to be screwed on the first piece (311 ).
L'élément de liaison comprend également une couche (7) en néoprène vulcanisé sur la deuxième paroi d'appui (40), qui permet d'améliorer les performances de l'élément de liaison en termes de tenue à la corrosion de l'assemblage au niveau de la jonction élément de liaison - plancher interne et en termes d'amortissement des vibrations et des bruits.The connection element also comprises a vulcanized neoprene layer (7) on the second support wall (40), which improves the performance of the connection element in terms of corrosion resistance of the assembly. at the junction linkage - internal floor and in terms of vibration damping and noise.
L'élément de liaison (51) est collé sur la paroi inférieure (24) du panneau (21) de plancher interne, lequel est muni d'un orifice (22) au droit de l'orifice (42) ménagé dans la deuxième paroi d'appui (40). De la sorte, un opérateur peut agir sur l'écrou (315) depuis le dessus du plancher interne pour régler la distance entre la première paroi d'appui (30) et la deuxième paroi d'appui (40).The connecting element (51) is adhered to the bottom wall (24) of the inner floor panel (21), which is provided with an orifice (22) in line with the orifice (42) formed in the second wall support (40). In this way, an operator can act on the nut (315) from the top of the inner floor to adjust the distance between the first support wall (30) and the second support wall (40).
Un deuxième mode de réalisation selon l'invention est illustré en
L'élément inférieur (32) comprend une première pièce (321) qui est adjacente à la masse élastique (6) et une deuxième pièce (322) qui comprend ladite première paroi d'appui (30). La première pièce et la deuxième pièce sont liées entre elles par un vérin (326). La liaison mécanique incomplète est une liaison (323) de type glissière, où le piston (324) coulisse dans la chambre du vérin.The lower member (32) comprises a first piece (321) which is adjacent to the elastic mass (6) and a second piece (322) which comprises said first bearing wall (30). The first piece and the second piece are interconnected by a jack (326). The incomplete mechanical connection is a slider type link (323), where the piston (324) slides in the cylinder chamber.
Un troisième mode de réalisation selon l'invention est illustré en
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Le panneau (21) de plancher interne est muni d'une ouverture (22) réalisée au droit de l'orifice (42) ménagé dans la deuxième paroi d'appui (40). De la sorte, un opérateur peut, depuis le dessus du plancher interne, avoir accès à l'élément inférieur, qui lui-même possède un orifice (339) de façon à que l'on puisse avoir accès au manchon (334) fileté extérieurement et le faire tourner à l'aide d'un outil s'emboîtant dans les encoches (334.1). Le panneau de plancher interne est également muni d'ouvertures (23) ménagées au droit des points de fixation (13) de la première paroi d'appui (30) sur le plancher (110) de la structure châssis (1). De la sorte, un opérateur peut, depuis le dessus du plancher interne, réaliser la fixation de la première paroi d'appui sur le plancher de la structure châssis.The inner floor panel (21) is provided with an opening (22) formed in line with the orifice (42) formed in the second support wall (40). In this way, an operator can, from the top of the internal floor, have access to the lower element, which itself has an orifice (339) so that one can have access to the sleeve (334) externally threaded and rotating it with a tool fitting into the notches (334.1). The internal floor panel is also provided with openings (23) arranged at the right fixing points (13) of the first support wall (30) on the floor (110) of the frame structure (1). In this way, an operator can, from the top of the internal floor, achieve the attachment of the first support wall on the floor of the frame structure.
Ainsi pré-équipé d'éléments de liaison selon l'invention, ledit panneau de plancher interne permet de diminuer significativement le temps de montage des planchers internes, puisque l'opération consacrée à la fixation de l'une des parois d'appui des éléments de liaison élastique peut être réalisée en temps caché.Thus pre-equipped with connecting elements according to the invention, said internal floor panel significantly reduces the mounting time of the internal floors, since the operation devoted to the attachment of one of the support walls of the elements elastic connection can be performed in hidden time.
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Un quatrième mode de réalisation selon l'invention est illustré en
La paroi externe des ailes (341.1) est munie d'un bourrelet d'encliquetage (341.2). La paroi interne des ailes (342.1) est munie d'une pluralité de gorges (342.2) de forme complémentaire à celle du bourrelet. Le bourrelet d'encliquetage (341.2), piégé par l'une des gorges (342.2), constitue un moyen d'immobilisation (345) qui permet de garder la distance entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) à la valeur désirée. Pour renforcer cette immobilisation, un loquet pivotant (348), également manoeuvrable depuis le dessus du plancher est utilisé. En faisant tourner la tête de préhension (347) du loquet, on place les bras (349) dans une position où ils arrivent au contact des parois internes des ailes (341.1) de la première pièce. Les bras (349) ont une longueur telle que lorsqu'ils arrivent au contact des ailes (341.1), ils leur imposent un déplacement vers l'extérieur, mettant les bourrelets d'encliquetage (341.2) en appui forcé dans les gorges (342.2).The outer wall of the wings (341.1) is provided with a snap-on bead (341.2). The inner wall of the wings (342.1) is provided with a plurality of grooves (342.2) of complementary shape to that of the bead. The snap-on bead (341.2), trapped by one of the grooves (342.2), constitutes an immobilization means (345) which makes it possible to keep the distance between the first support wall (30) and the second wall pressing (40) to the desired value. To reinforce this immobilization, a pivoting latch (348), also operable from above the floor is used. By rotating the gripping head (347) of the latch, the arms (349) are placed in a position where they come into contact with the inner walls of the wings (341.1) of the first piece. The arms (349) have a length such that when they come into contact with the wings (341.1), they impose an outward movement, putting the snap beads (341.2) in forced support in the grooves (342.2) .
Un cinquième mode de réalisation selon l'invention est illustré en
Un sixième mode de réalisation selon l'invention est illustré en
La première pièce (361) et la deuxième pièce (362) sont rendues solidaires à l'aide d'une vis (365) dont la tête prend appui sur la face supérieure de la première pièce (361) et dont le fût fileté est vissé dans un alésage fileté ménagé dans la deuxième pièce (362). Ledit fût fileté traverse des alésages oblongs (3610) et (3640) ménagés dans la première pièce (361) et la pièce intermédiaire (364). En dévissant la vis (365), incomplètement de façon à maintenir les première et deuxième pièces solidaires, et en agissant sur la tête de ladite vis, on peut soit rapprocher les faces d'appui (30) et (40) (mouvement vers la gauche), soit les éloigner (mouvement vers la droite) et enfin "figer" le nouvel écart obtenu entre les faces d'appui en vissant à nouveau la vis (365).The first piece (361) and the second piece (362) are made integral with a screw (365) whose head is supported on the upper face of the first piece (361) and whose threaded shaft is screwed in a threaded bore formed in the second piece (362). Said threaded barrel passes through oblong bores (3610) and (3640) formed in the first piece (361) and the intermediate piece (364). By unscrewing the screw (365), incompletely so as to hold the first and second integral parts, and by acting on the head of said screw, the bearing faces (30) and (40) can be brought closer together (movement towards the left), or move them away (movement to the right) and finally "freeze" the new gap obtained between the bearing faces by screwing the screw (365) again.
Le panneau (21) de plancher interne est muni d'une ouverture (22) réalisée au droit de l'orifice (42) ménagé dans la deuxième paroi d'appui (40). De la sorte, un opérateur peut, depuis le dessus du plancher interne, avoir accès à l'élément inférieur, en particulier à la vis (365). Après avoir procédé comme indiqué dans le paragraphe précédent, un opérateur peut, depuis le dessus du plancher interne, régler puis fixer l'écart entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) à la valeur désirée.The inner floor panel (21) is provided with an opening (22) formed in line with the orifice (42) formed in the second support wall (40). In this way, an operator can, from the top of the internal floor, have access to the lower element, in particular to the screw (365). After proceeding as indicated in the preceding paragraph, an operator can, from the top of the internal floor, adjust and then fix the distance between the first support wall (30) and the second support wall (40) to the value desired.
Le panneau de plancher interne est également muni d'ouvertures ménagées au droit des points de fixation (13) de la première paroi d'appui (30) sur le plancher de la structure châssis (1). De la sorte, un opérateur peut, depuis le dessus du plancher interne, réaliser la fixation de la première paroi d'appui sur le plancher de la structure châssis.The inner floor panel is also provided with openings arranged in line with the attachment points (13) of the first support wall (30) on the floor of the frame structure (1). In this way, an operator can, from the top of the internal floor, achieve the attachment of the first support wall on the floor of the frame structure.
Un septième mode de réalisation selon l'invention est illustré en
Dans ce mode de réalisation, c'est l'élément supérieur qui est subdivisé en deux parties. La broche (non illustrée) qui retient ledit manchon (474) fileté extérieurement est ici solidaire du doigt (478) de la rotule (477), la première pièce (471) et la deuxième pièce (472) formant entre elles une liaison rotule à doigt, qui bloque les trois translations et la rotation autour de l'axe du doigt mais laisse libre les deux autres rotations. La rotule (477) peut pivoter dans la cavité sphérique ménagée dans la première pièce (471) en ayant la possibilité de tourner autour de deux axes perpendiculaires audit doigt (478), dans le prolongement duquel se trouve la broche qui retient le manchon (474). En combinant ces rotations, on peut, lors du montage du panneau de plancher interne, ajuster le positionnement dudit panneau de plancher interne par rapport aux parois latérales du véhicule ferroviaire, tout en corrigeant le décalage entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) dû à l'inclinaison du doigt, à l'aide dudit manchon (474). En effet, selon le nombre de tours imposés au manchon fileté (474), l'éloignement entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) peut être réglé à la distance voulue.In this embodiment, it is the upper element that is subdivided into two parts. The pin (not shown) which retains said sleeve (474) externally threaded is here integral with the finger (478) of the ball joint (477), the first piece (471) and the second piece (472) forming between them a ball joint finger, which blocks the three translations and the rotation around the axis of the finger but leaves free the two other rotations. The ball (477) can pivot in the spherical cavity formed in the first piece (471) with the possibility of rotating about two axes perpendicular to said finger (478), in the extension of which is the pin which holds the sleeve (474). ). By combining these rotations, it is possible, during the assembly of the inner floor panel, to adjust the positioning of said inner floor panel with respect to the side walls of the railway vehicle, while correcting the offset between the first support wall (30) and the second support wall (40) due to the inclination of the finger, with the aid of said sleeve (474). Indeed, according to the number of turns imposed on the threaded sleeve (474), the distance between the first support wall (30) and the second support wall (40) can be adjusted to the desired distance.
Pour régler le positionnement latéral du panneau de plancher interne, il est avantageux d'équiper celui-ci d'au moins trois éléments de liaison élastique de cet exemple. Avant la pose, on règle l'écart entre la première paroi d'appui et la deuxième paroi d'appui à une valeur standard prédéfinie. Au cours de la mise en place du panneau de plancher interne, on oriente les doigts de ces trois éléments de liaison élastique de façon à avoir la bonne distance par rapport aux parois latérales tout en actionnant le manchon fileté pour compenser l'effet de l'inclinaison du doigt de la liaison pivot sphérique et conserver une bonne horizontalité. Une fois le positionnement latéral obtenu, on actionne, si nécessaire, à nouveau l'ensemble des manchons filetés pour atteindre l'altitude visée.To adjust the lateral positioning of the inner floor panel, it is advantageous to equip it with at least three elastic connection elements of this example. Before laying, the gap between the first support wall and the second support wall is adjusted to a predefined standard value. During the establishment of the inner floor panel, the fingers of these three elastic connecting elements are oriented so as to have the good distance from the side walls while actuating the threaded sleeve to compensate for the effect of the inclination of the spherical pivot link finger and maintain good horizontality. Once the lateral positioning obtained, it activates, if necessary, again the set of threaded sleeves to reach the target altitude.
Un tel élément de liaison peut ne pas faire partie de ces trois premiers éléments de liaison. Dans ce cas, avant la pose du panneau, on fixe l'écart entre la première paroi d'appui et la deuxième paroi d'appui à une valeur prédéfinie inférieure à la précédente et on actionne le manchon fileté pour augmenter ledit écart, jusqu'à ce que la différence de niveaux entre la première paroi d'appui et la deuxième paroi d'appui corresponde exactement à la différence de niveaux réelle entre le plancher interne et le plancher du chaudron au niveau du dit élément de liaison. Avec un tel élément de liaison, on peut fixer la première paroi d'appui bien à plat sur le plancher de la structure châssis et la deuxième paroi d'appui bien à plat sur le panneau de plancher interne, même si ceux-ci ne sont pas parfaitement parallèles entre eux.Such a connecting element may not be part of these first three connecting elements. In this case, before the installation of the panel, the distance between the first bearing wall and the second support wall is fixed at a predefined value lower than the previous one and the threaded sleeve is actuated to increase the said gap up to the difference in levels between the first support wall and the second support wall corresponds exactly to the actual level difference between the internal floor and the floor of the cauldron at said connecting element. With such a connecting element, it is possible to fix the first support wall lying flat on the floor of the frame structure and the second support wall lying flat on the internal floor panel, even if these are not not perfectly parallel to each other.
Un huitième mode de réalisation selon l'invention est illustré en
L'élément de liaison (58) comprend un élément inférieur (38) qui présente une première paroi d'appui (30'), un élément supérieur (48), qui présente une deuxième paroi d'appui (40), et une masse élastique (6). La première paroi d'appui (30') présente une périphérie ceinte par un bourrelet (300) continu, qui permet de délimiter la couche en matériau adhésif (9) déposée sur ladite face d'appui. Avantageusement, le dépôt du matériau adhésif est effectué sur l'ensemble des éléments de liaison, juste avant la pose du panneau de plancher interne sur le plancher de la structure châssis, les écarts entre la première paroi d'appui et la deuxième paroi d'appui ayant été fixés à ladite première ou à ladite deuxième valeur prédéterminée, selon que l'élément de liaison concerné fait partie des trois premiers éléments de liaison ou des suivants.The connecting member (58) comprises a lower member (38) having a first bearing wall (30 '), an upper member (48) having a second bearing wall (40), and a mass elastic (6). The first bearing wall (30 ') has a periphery surrounded by a continuous bead (300), which delimits the layer of adhesive material (9) deposited on said bearing face. Advantageously, the deposition of the adhesive material is performed on all the connecting elements, just before the installation of the internal floor panel on the floor of the frame structure, the gaps between the first support wall and the second wall of support having been fixed to said first or second predetermined value, depending on whether the connecting element concerned is part of the first three connecting elements or the following.
L'élément supérieur (48) comprend une première pièce (481), qui est tubulaire, filetée intérieurement et adjacente à la masse élastique (6) par sa paroi extérieure, et une deuxième pièce (482) qui comprend ladite deuxième paroi d'appui (40). La première pièce (481) et la deuxième pièce (482) sont liées entre elles par une liaison (483) de type vis-écrou, la fonction écrou étant assurée par la deuxième pièce (482), qui comprend une jupe cylindrique (484) munie sur sa paroi extérieure d'un filet de vissage qui coopère avec le filet de vissage ménagé sur la paroi intérieure de la première pièce (481), cette dernière ayant une forme tubulaire.The upper element (48) comprises a first part (481), which is tubular, threaded internally and adjacent to the elastic mass (6) by its outer wall, and a second part (482) which comprises said second support wall (40). The first piece (481) and the second piece (482) are interconnected by a connection (483) of screw-nut type, the nut function being provided by the second piece (482), which comprises a cylindrical skirt (484) provided on its outer wall of a screw thread which cooperates with the screw thread formed on the inner wall of the first piece (481), the latter having a tubular shape.
L'élément de liaison (58) est placé sur le panneau de plancher (21) de façon à être maintenu temporairement solidaire de celui-ci à l'aide des vis (10) qui retiennent la deuxième pièce (482) de l'élément supérieur (48). Une fois le panneau de plancher (21) posé sur le plancher de la structure châssis, on dévisse les vis (10) jusqu'à ce que la rotation de la deuxième pièce (482) soit possible et, à l'aide d'un outil de forme complémentaire à la cavité à 6 pans (484.1) ménagée sur la face supérieure de la deuxième pièce (482), on fait tourner ladite deuxième pièce (482) autour de l'axe (100). La deuxième pièce (482) présente une partie mâle cylindrique (484.2) insérée dans l'orifice (22) qui traverse ledit panneau de plancher (21) et qui joue le rôle d'un arbre tournant dans un moyeu.The connecting element (58) is placed on the floor panel (21) so as to be temporarily secured to it by means of the screws (10) which hold the second piece (482) of the element higher (48). Once the floor panel (21) is placed on the floor of the frame structure, the screws (10) are unscrewed until the rotation of the second piece (482) is possible and, with the aid of a complementary shape tool to the hexagonal cavity (484.1) formed on the upper face of the second piece (482), rotates said second piece (482) about the axis (100). The second piece (482) has a cylindrical male portion (484.2) inserted into the orifice (22) which passes through said floor panel (21) and acts as a rotating shaft in a hub.
Dans le cas où cet élément de liaison fait partie des trois premiers éléments de liaison utilisés pour le montage du panneau sur le plancher de la structure châssis tel que décrit précédemment, la première pièce (481) solidaire de l'élément inférieur (38) par le biais de la masse élastique (6) a été vissée de telle sorte que la distance entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) correspond à une première valeur prédéterminée, associée à l'altitude théorique affectée au dit plancher interne. Lors de la pose du panneau, la première face d'appui (30') de l'élément, munie de sa couche en matériau adhésif (9), arrive au contact du plancher de la structure châssis, ce qui, après un certain temps de séchage, bloque en rotation l'élément inférieur (38) et la première pièce (481). En faisant tourner la deuxième pièce (482) autour de l'axe (100), on peut donc, grâce à la liaison vis-écrou, régler l'écart entre les faces d'appui de façon à ce que le panneau ainsi posé soit parfaitement horizontal et placé à l'altitude voulue.In the case where this connecting element is part of the first three connecting elements used for mounting the panel on the floor of the frame structure as described above, the first piece (481) secured to the lower member (38) by the bias of the elastic mass (6) has been screwed in such a way that the distance between the first support wall (30) and the second support wall (40) corresponds to a first predetermined value associated with the altitude theoretical assigned to said internal floor. When laying the panel, the first bearing surface (30 ') of the element, provided with its layer of adhesive material (9), comes into contact with the floor of the chassis structure, which, after a certain time drying, rotates the lower member (38) and the first piece (481). By rotating the second part (482) around the axis (100), it is therefore possible, thanks to the screw-nut connection, to adjust the gap between the bearing faces so that the panel thus laid is perfectly horizontal and placed at the desired altitude.
Dans le cas où cet élément de liaison ne fait pas partie des trois premiers éléments de liaison utilisés pour le montage du panneau sur le plancher de la structure châssis tel que décrit précédemment, la première pièce (481) solidaire de l'élément inférieur (38) par le biais de la masse élastique (6) a été vissée de telle sorte que la distance entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) soit fixée à une deuxième valeur prédéterminée, inférieure à ladite première valeur prédéterminée. De la sorte, lors du réglage et de la fixation des trois premiers éléments de liaison, la première paroi d'appui de cet élément de liaison ne risque pas de toucher immédiatement le plancher de la structure-châssis. Une fois les trois premiers éléments de liaison réglés et fixés, on enlève les vis (10) et, la partie mâle cylindrique (484.2) ayant été insérée dans l'alésage (22) avec un certain jeu, l'ensemble de l'élément de liaison tombe par gravité jusqu'à ce que la couche de matière adhésive (9) encollée sur la première paroi d'appui atteigne le plancher de la structure-châssis. En faisant tourner la deuxième pièce (482) autour de l'axe (100) à l'aide de l'outil de forme inséré dans la cavité 6 pans (484.1), on peut donc, grâce à la liaison vis-écrou, régler l'écart entre les faces d'appui de façon à ce que la deuxième paroi d'appui vienne affleurer la face inférieure (24) dudit panneau. A l'aide des vis (10), auto-taraudantes, on fixe à nouveau de la deuxième paroi d'appui sur la face inférieure dudit panneau.In the case where this connecting element is not part of the first three connecting elements used for mounting the panel on the floor of the frame structure as described above, the first piece (481) integral with the lower member (38). ) through the elastic mass (6) has been screwed so that the distance between the first bearing wall (30) and the second bearing wall (40) is fixed at a second predetermined value, lower than said first predetermined value. In this way, when adjusting and fixing the first three connecting elements, the first support wall of this connecting element is not likely to immediately touch the floor of the frame structure. Once the first three connecting elements have been adjusted and fixed, the screws (10) are removed and the cylindrical male part (484.2) having been inserted into the bore (22) with a certain clearance, the whole of the element The link is dropped by gravity until the layer of adhesive material (9) adhered to the first bearing wall reaches the floor of the frame structure. By turning the second part (482) about the axis (100) with the form tool inserted in the hexagonal cavity (484.1), it is therefore possible, thanks to the screw-nut connection, to adjust the gap between the support faces so that the second support wall comes flush with the underside (24) of said panel. Using the screws (10), self-tapping, is fixed again the second support wall on the underside of said panel.
Un neuvième mode de réalisation selon l'invention est illustré en
La première paroi d'appui (30') présente une périphérie ceinte par un bourrelet (300) continu, de telle sorte que lorsque l'élément de liaison est mis au contact du plancher de la structure-châssis, il se forme entre ledit plancher et ladite première paroi d'appui une cavité (301) apte à recevoir de la matière adhésive (9) injectée depuis le dessus du plancher interne. Un conduit tubulaire (391) vertical, solidaire de ladite première pièce, dont l'extrémité supérieure est orientée en direction des orifices (22) et (42) respectifs de la deuxième paroi d'appui (40) et du panneau (21) de plancher interne et dont l'extrémité inférieure débouche dans ladite cavité (301) permet de guider l'injection de matière adhésive.The first support wall (30 ') has a periphery surrounded by a continuous bead (300), so that when the connecting element is brought into contact with the floor of the chassis structure, it is formed between said floor and said first support wall a cavity (301) adapted to receive adhesive material (9) injected from above the floor internal. A vertical tubular duct (391) integral with said first piece, whose upper end is oriented towards the respective orifices (22) and (42) of the second support wall (40) and the panel (21) of internal floor and whose lower end opens into said cavity (301) guides the injection of adhesive material.
Avantageusement, l'extrémité supérieure (392) de ce conduit tubulaire (391), accessible à partir de l'extérieur grâce aux orifices (42) et (22), est munie sur sa paroi interne, de moyens de solidarisation temporaire, ici 6 pans, qui, en coopération avec un outil extérieur manipulé depuis le dessus du plancher interne, permet de faire tourner l'élément inférieur (39) et la première pièce (491), lesquels sont par conséquent vissés ou dévissés par rapport à la deuxième pièce (492) fixée sur le panneau (21) de plancher interne.Advantageously, the upper end (392) of this tubular duct (391), accessible from the outside through the orifices (42) and (22), is provided on its inner wall, temporary securing means, here 6 which, in cooperation with an external tool manipulated from above the inner floor, rotates the lower member (39) and the first piece (491), which are therefore screwed or unscrewed relative to the second piece (492) attached to the inner floor panel (21).
Ici, l'élément de liaison (59) est fixé sur le panneau (21) de plancher interne par vissage de la deuxième paroi d'appui (40) sur la face inférieure (24) dudit panneau. Comme dans l'exemple précédent, on peut effectuer une fixation temporaire de l'élément de liaison avant la pose du panneau et procéder, au moment de la pose, de deux manières différentes, selon que l'élément de liaison est utilisé parmi les trois premiers ou parmi les suivants. Cependant, ce mode de réalisation permettant l'injection de matière adhésive après la mise en place du panneau, on peut avantageusement, au moins lorsque l'élément de liaison ne fait pas partie des trois premiers, fixer de manière définitive l'élément de liaison sur le panneau de plancher interne avant la pose de celui-ci: la première pièce (491), solidaire de l'élément inférieur (39) par le biais de la masse élastique (6), a été avantageusement vissée de telle sorte que la distance entre la première paroi d'appui (30) et la deuxième paroi d'appui (40) soit fixée à une deuxième valeur prédéterminée inférieure à la première valeur prédéterminée qui correspond à la différence théorique de niveaux entre le plancher intérieur et le plancher de la structure-châssis et, une fois le panneau posé sur le plancher de la structure-châssis, on fait tourner le premier élément (39), la masse élastique (6) et la première pièce (491) à l'aide d'un outil de forme rendu solidaire en rotation avec le conduit cylindrique (391) grâce aux 6 pans de l'extrémité (392) dudit conduit cylindrique jusqu'à ce que l'extrémité du bourrelet (300) de la première paroi d'appui (30) atteigne la deuxième paroi d'appui (40) puis on enlève l'outil pour libérer le conduit et on injecte ensuite la matière adhésive dans la cavité (301). Avantageusement, ladite matière adhésive est un mastic polyuretane, un mastic silicone ou un mastic acrylique.Here, the connecting element (59) is fixed on the internal floor panel (21) by screwing the second support wall (40) onto the lower face (24) of said panel. As in the previous example, it is possible to temporarily fix the connecting element before the panel is laid and to proceed, at the time of installation, in two different ways, depending on whether the connecting element is used among the three first or next. However, this embodiment allowing the injection of adhesive material after the introduction of the panel, can advantageously, at least when the connecting element is not part of the first three, permanently fix the connecting element on the inner floor panel before the laying thereof: the first piece (491), secured to the lower member (39) through the elastic mass (6), has been advantageously screwed so that the distance between the first support wall (30) and the second support wall (40) is set at a second predetermined value less than the first predetermined value which corresponds to the theoretical difference in levels between the internal floor and the floor of the frame structure and, once the panel is placed on the floor of the frame structure, the first member (39), the elastic mass (6) and the first piece (491) are rotated by means of a tool of shape made integral in rotation with the cylindrical duct (391) thanks to the hexagon of the end (392) of said cylindrical duct until the end of the bead (300) of the first support wall (30) reaches the second support wall (40) and then remove the tool to release the conduit and then inject the adhesive material in the cavity (301). Advantageously, said adhesive material is a polyuretane mastic, a silicone mastic or an acrylic mastic.
Claims (17)
- Noise- and vibration-damping elastic connector (51, 52, 53, 54, 55, 56, 57, 58, 59) designed for floating installation of an internal floor (2) over a chassis floor (1), comprising:a) a lower part (31, 32, 33, 34, 35, 36, 37, 38, 39) having a first bearing wall (30,30') intended to be fastened to the floor (1) of said chassis;b) an upper part (41, 42, 43, 44, 45, 46, 47, 48, 49), having a second bearing wall (40) very similar to the first, intended to be fastened to said internal floor;c) an elastic mass (6) positioned between said lower and upper parts, such that the lower part and upper part are able to move relative to each other without coming into contact; either of said parts separated by said elastic mass, i.e. the lower part or upper part, respectively, comprising two or more parts able to move relative to one another in a direction (100) essentially perpendicular to said bearing walls, the first of which (311, 321, 331, 341, 351, 361, 471, 481, 491) being adjacent to said elastic mass and the second of which
(312, 322, 332, 342, 352, 362, 472, 482, 492) being or comprising said first bearing wall or second bearing wall, respectively;
said lower or upper part, respectively, being optionally equipped with a spacer (314, 324, 334, 354, 364, 474, 484, 494), that may be moved manually or by means of an actuator powered by an auxiliary power source, causing the first part to move relative to the second part,
said lower or upper part, respectively,
being optionally equipped with an immobilising device (345) that immobilises said first part relative to said second part, such that said first bearing wall and said second bearing wall may be kept a constant distance apart, enabling a controlled difference in level to be maintained between said internal floor and the floor of said chassis, wherein said second bearing wall contains an orifice (42) of sufficient diameter to afford access to said first bearing wall and, optionally, to said spacer or said actuator and/or said immobilising device. - Elastic connector (51, 52, 53, 54) under claim 1, wherein a thin sheet or layer (7) of elastic, insulating material is bonded to second bearing wall.
- Connector (51) under claim 1 or 2, wherein the lower part (31) comprises a first part (311) adjacent to the elastic mass (6) and a second part (312) comprising the first bearing wall (30), the first part (311) being reamed (311.1) such that it may slide along a shaft (318) attached to the second part (312) perpendicular to said first bearing wall (30), movement of said first part relative to second part being enabled by two intermediate parts (314 and 314') in the form of symmetrically arranged wedges connected by a spring (316) forcing them together, causing the upper part to rise above the lower part, said raising being limited or inhibited by the presence of a nut (315), which may be screwed in to a greater or lesser extent along the upper threaded section of said shaft (318).
- Connector (52) under claim 1 or 2, wherein the lower part (32) comprises a first part (321) adjacent to the elastic mass (6) and a second part (322) comprising said first bearing wall (30), said first part (321) and said second part (322) being connected together by a cylinder (326).
- Connector (53) under claim 1 or 2, wherein the lower part (33) comprises a first part (331) adjacent to the elastic mass (6) and a second part (332) comprising said first bearing wall (30) and a spindle (335) aligned perpendicular to said first bearing wall (30), the first part (331) and the second part (332) being connected together by a screw-and-nut fastener (333), the nut function being performed by a part (337) joined to the first part (331) having a threaded reamed hole, and the screw function being performed by an externally threaded sleeve (334) secured to said second part (332) by the head (335.1) of said spindle, while being free to rotate radially around said spindle.
- Connector (54) under claim 1 or 2, wherein the lower part (34) comprises a first part (341) adjacent to the elastic mass (6) and a second part (342) comprising said first bearing wall (30), said first part and said second part (343) being linked by a slide fitting, with the inverted U formed by the fins (341.1) on the first part (341) sliding into the space defined by the fins (342.1) on the second part (342), the outer surface of the fins (341.1) being equipped with a ridged ratchet mechanism (341.2) and the inner surface of the fins (342.1) being equipped with multiple grooves (342.2) matching the shape of said ridge.
- Connector (54) under claim 6, in which a pivoting catch (348) attached to said first part, including a grasping head (347), has an arm (349) of a length such that, when said grasping head is actuated and comes into contact with said fins (341.1), it displaces said fins outward, pressing said ratchet ridges (341.2) into said grooves (342.2).
- Connector (55) under claim 1 or 2, wherein the lower part (35) comprises a first part (351) adjacent to the elastic mass (6) and a second part (352) comprising said first bearing wall (30), said first part (351) and said second part (352) being connected together by a pantograph (354).
- Connector (56) under claim 1 or 2, wherein the lower part (36) comprises a first part (361) adjacent to the elastic mass (6) and a second part (362) comprising said first bearing wall (30), said first part (361) and said second part (362) comprising or being attached to inclined walls along which they may slide, the first part (361) and the second part (362) being fastened together by means of a screw (365) having its head bearing on the upper surface of the first part (361) and its threaded shank screwed into a threaded hole reamed into the second part (362).
- Connector (57) under claim 1 or 2,wherein the upper part (47) comprises a first part (471) adjacent to the elastic mass (6) and a second part (472) comprising said second bearing wall (40), said first part (471) and said second part (472) being connected together by a screw-and-nut fastener (473), the nut function being performed directly by the second part (472), having a threaded reamed hole, and the screw function being performed by an externally threaded sleeve (474) that may be rotated by means of a shaped groove (474.1), said sleeve being secured to the rod (478) of a ball joint (477) that is able to rotate inside a spherical cavity in the first part (471).
- Connector (58) under claim 1 or 2, wherein the upper part (48) comprises a tubular, internally-threaded first part (481) having its outer wall adjacent to the elastic mass (6), and a second part (482) comprising said second bearing wall (40), said first part (481) and said second part (482) being connected together by a screw-and-nut fastener (483), the nut function being performed directly by the second part (482), which includes a cylindrical skirt (484) having a thread on its outer wall that engages with the thread on the inner wall of the first part (481), said first bearing wall either being coated with adhesive or designed to be covered with a layer of adhesive material.
- Connector (59) under claim 1 or 2, wherein the upper part (49) comprises a tubular, internally-threaded first part (491) having its outer wall adjacent to the elastic mass (6), and a second part (492) comprising said second bearing wall (40), said first part (491) and said second part (492) being connected together by a screw-and-nut fastener (493), the nut function being performed directly by the second part (492), which includes a cylindrical skirt (494) having a thread on its outer wall that engages with the thread on the inner wall of said first part (491), the first bearing wall (30') having a continuous ridge (300) around its perimeter, such that mating the connector with the chassis floor forms a cavity (301) between said chassis floor and said first bearing wall (30'), into which adhesive material (8) may be injected from above the internal floor through a tube (391) attached to said first part, the top end of which is aligned with the orifice (42) in the second bearing wall (40) and the bottom end of which opens into said cavity.
- Internal floor (2) panel (21), designed to be assembled in a floating installation over the floor of a chassis, wherein the panel is equipped with two or more connectors (51, 52, 53, 54, 55, 56, 57, 58, 59) under any of claims 1 to 12.
- Internal floor (2) panel (21) under claim 13, wherein the panel has openings (22) coinciding with the orifices (42) in the second bearing wall (40) of said connectors.
- Internal floor (2) panel (21) under claim 13 or 14, wherein the panel also has openings (23) coinciding with the anchor points (13), enabling the first bearing wall (30) of said connectors to be fastened to the chassis floor (1).
- Assembly process for mounting an internal floor to in a floating installation above the floor (1) on a rail truck or other chassis, wherein it comprises the following steps:a) Obtain internal floor panels (21) under any of claims 13 to 15;b) Install said internal floor panels over the chassis floor, and for each internal floor panel (21):b1) Fasten the first bearing wall (30) of three connectors under any of claims 1 to 12 to the chassis floor (1), setting the distance between said first bearing wall and second bearing wall (40) to a first predetermined value;b2) For each remaining connector, adjust the gap between said first part and said second part such that the first part is flush with the chassis floor, Immobilise said first part relative to said second part and fasten said first bearing wall to said chassis floor.
- Process under claim 16 whereby:- During step a), obtain internal floor panels (21) on which said first three connectors have been positioned such that said panels rest on the chassis floor in stable isostatic conditions, with the other elastic connectors adjusted such that the distance between the first bearing wall and the second bearing wall is a second predetermined value, smaller than the first predetermined value;- During step b1, secure the first three elastic connectors and then,- During an intermediate step between b1) and b2), adjust the gap between said first part and said second part of each of the first three elastic connectors such that said internal floor panel is perfectly horizontal, at the desired altitude and in the correct lateral position, and then use an immobilising product to lock the gap between the first part and second part of each of said first three elastic connectors before proceeding to step b2).
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP10354034.0A EP2399797B1 (en) | 2010-06-22 | 2010-06-22 | Elastic connection element intended for the floating assembly of an internal floor, internal floor panel equipped with a range of elastic connection elements and method for floating assembly of a floor |
ES10354034.0T ES2622472T3 (en) | 2010-06-22 | 2010-06-22 | Elastic joint element intended for floating assembly of an interior floor, interior floor panel equipped with a plurality of elastic joint elements and floating assembly process of a floor |
PCT/EP2011/002623 WO2011160755A1 (en) | 2010-06-22 | 2011-05-27 | Resilient connection element for the buoyant installation of an inner floor, inner floor panel provided with a plurality of resilient connection elements, and method for the buoyant installation of a floor |
ZA2012/09535A ZA201209535B (en) | 2010-06-22 | 2012-12-14 | Resilient connection element for the buoyant installation of an inner floor,inner floor panel provided with a plurality of resilient connection elements,and method for the buoyant installation of a floor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP10354034.0A EP2399797B1 (en) | 2010-06-22 | 2010-06-22 | Elastic connection element intended for the floating assembly of an internal floor, internal floor panel equipped with a range of elastic connection elements and method for floating assembly of a floor |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2399797A1 EP2399797A1 (en) | 2011-12-28 |
EP2399797B1 true EP2399797B1 (en) | 2017-01-11 |
Family
ID=42751989
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP10354034.0A Active EP2399797B1 (en) | 2010-06-22 | 2010-06-22 | Elastic connection element intended for the floating assembly of an internal floor, internal floor panel equipped with a range of elastic connection elements and method for floating assembly of a floor |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP2399797B1 (en) |
ES (1) | ES2622472T3 (en) |
WO (1) | WO2011160755A1 (en) |
ZA (1) | ZA201209535B (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
ES2729274T3 (en) * | 2011-04-11 | 2019-10-31 | Constellium Valais Sa Ag Ltd | Floating floor panel assembly process |
FR3004526B1 (en) | 2013-04-11 | 2018-10-12 | Constellium Valais Sa (Constellium Valais Ag) (Constellium Valais Ltd.) | HEATING AND / OR REFRIGERATION DEVICE FOR VEHICLE WITH INTERNAL FLOOR |
DE102018100069A1 (en) * | 2018-01-03 | 2019-07-04 | Bombardier Transportation Gmbh | Connecting device for connecting a floor element to a carrier, system, assembly method and use |
CN109398390A (en) * | 2018-09-13 | 2019-03-01 | 中车唐山机车车辆有限公司 | The installation method of high-speed EMUs modular floor and modular floor |
FR3107242B1 (en) | 2020-02-17 | 2023-06-30 | Speedinnov | Vehicle floor leveling stud, in particular railway, vehicle floor and vehicle body comprising such a stud |
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DE7518155U (en) * | 1975-06-06 | 1976-02-19 | Bardocz, Arpad, Dr., 8000 Muenchen | Vibration isolator with air damping |
SU1182215A1 (en) * | 1984-04-29 | 1985-09-30 | Nikolaj N Rakhmanov | Shock-absorbing device |
SU1446383A2 (en) * | 1987-06-04 | 1988-12-23 | Пермское Высшее Военное Командно-Инженерное Краснознаменное Училище Ракетных Войск Им.Маршала Советского Союза В.И.Чуйкова | Shock-absorbing device |
SU1732077A1 (en) * | 1989-01-09 | 1992-05-07 | Всесоюзный Научно-Исследовательский Институт Железнодорожного Транспорта | Spring |
DE10205788A1 (en) * | 2002-02-13 | 2003-08-28 | Bundesrep Deutschland | Shock absorbing bearing system for use on board ship has cylinder supported from below containing piston with stacks of Belleville springs above and below it |
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ZA933714B (en) | 1992-06-24 | 1994-01-03 | Alusuisse Lonza Services Ag | Sound proofing and vibration dampening elastic connecting element |
DE19542358A1 (en) | 1995-11-14 | 1997-05-15 | Abb Patent Gmbh | Floor for vehicles |
AT409751B (en) * | 2000-10-02 | 2002-11-25 | Getzner Werkstoffe Gmbh | MOUNTING PART FOR THE ELASTIC FASTENING OF VEHICLE FLOOR PANELS |
DE10337930A1 (en) * | 2003-08-18 | 2005-03-17 | Siemens Ag | Floor of a large-scale vehicle for passenger transport, in particular a rail vehicle |
-
2010
- 2010-06-22 EP EP10354034.0A patent/EP2399797B1/en active Active
- 2010-06-22 ES ES10354034.0T patent/ES2622472T3/en active Active
-
2011
- 2011-05-27 WO PCT/EP2011/002623 patent/WO2011160755A1/en active Application Filing
-
2012
- 2012-12-14 ZA ZA2012/09535A patent/ZA201209535B/en unknown
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE7518155U (en) * | 1975-06-06 | 1976-02-19 | Bardocz, Arpad, Dr., 8000 Muenchen | Vibration isolator with air damping |
SU1182215A1 (en) * | 1984-04-29 | 1985-09-30 | Nikolaj N Rakhmanov | Shock-absorbing device |
SU1446383A2 (en) * | 1987-06-04 | 1988-12-23 | Пермское Высшее Военное Командно-Инженерное Краснознаменное Училище Ракетных Войск Им.Маршала Советского Союза В.И.Чуйкова | Shock-absorbing device |
SU1732077A1 (en) * | 1989-01-09 | 1992-05-07 | Всесоюзный Научно-Исследовательский Институт Железнодорожного Транспорта | Spring |
DE10205788A1 (en) * | 2002-02-13 | 2003-08-28 | Bundesrep Deutschland | Shock absorbing bearing system for use on board ship has cylinder supported from below containing piston with stacks of Belleville springs above and below it |
Also Published As
Publication number | Publication date |
---|---|
EP2399797A1 (en) | 2011-12-28 |
ES2622472T3 (en) | 2017-07-06 |
ZA201209535B (en) | 2014-03-26 |
WO2011160755A1 (en) | 2011-12-29 |
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