APPARATUS FOR LIFTING AND MOVING A RAIL

Description

Field of invention

[0001] The present invention relates to apparatus for lifting and moving a railway rail and a method of lifting and moving railway rails using such apparatus.

Background to invention

[0002] Railway maintenance may involve replacing railway rails when they are worn. It is known within the railway maintenance industry to use apparatus that runs on an existing railway to lift worn rails and lay replacement rails. Recent years have seen the introduction of trackside rail handling apparatus, which can lift and transpose rails without having to use apparatus which runs on a railway.

[0003] EP 1 733 096 B2 (see also WO 2005/095716 A1) discloses a railway rail handling apparatus for lifting and transposing railway rails. A rail moving means depends from a chassis supported on two spaced apart support frames, which are each supported on a continuous chain tread. On the chassis are supported a pneumatic system, a diesel generator and a user control, which provide pneumatic actuation, generation and user control of the railway rail handling apparatus in accordance with known techniques. The diesel generator provides motive power for the railway rail handling apparatus DE 12 08 326 B discloses a rail handling apparatus comprising first and second vertical shaft members mounted on a car platform for rotation about a vertical pivot axis; this known apparatus further comprises first and second rail support members cantilevered from the upper ends of the first and second vertical shaft members respectively, wherein the first and second rail support members can rotate about their respective pivot axes between a closed position and an open position.

[0004] The rail moving means comprises an elongate telescopic body, the upper part of which is mounted on the chassis by means of a coupling, which provides for swivelling and/or rotation of the rail moving means relative to the chassis. A pin can be inserted by an operator into an upper part of the rail moving means to arrest swivelling and/or rotation relative to the chassis.

[0005] At the lower end of the rail moving means there is provided a lifting head for accommodating a rail. The lifting head has two spaced apart side members extending down from a top plate and defining an aperture, and a lower roller spaced from the top plate and extending between the two side members. A rail can be lifted into the aperture with the roller removed, and the roller replaced while the rail is held in the aperture. The rail is then lowered to be supported by the roller and engaged by the lifting head. As the apparatus moves along the ground, the lifting head urges the rail to move laterally to align the rail to the position of the lifting head. The aperture is of sufficient dimensions to accommodate discontinuities and projections encountered on a surface of a rail, as the rail moving means is moved along the rail.

[0006] The known apparatus is capable of transposing one rail at a time.

[0007] There is a need for a rail moving apparatus which can operate trackside and lift and carry more than one rail at a time.

[0008] It is an object of the present invention to provide an apparatus which enables a railway rail handling apparatus means to lift and move more than one rail at a time, either multiple single rails, or switch heads.

Switch lifting head

[0009] According to a first aspect of the present invention there is provided a rail lifting head comprising:

a transverse beam having a lifting point at its upper side adapted to be lifted by a lifting means of a rail moving apparatus;

first and second vertical shaft members mounted on the transverse beam for rotation about a vertical pivot axis, and extending downwards from the transverse beam;

first and second rail support members cantilevered from the lower ends of the first and second vertical shaft members respectively;

wherein the first and second rail support members can rotate about their respective pivot axes between a closed position in which the rail support members, the vertical shaft members and the transverse beam form a substantially closed frame and an open position in which the rail support members extend substantially perpendicular to the transverse beam.

[0010] The rail lifting head may include two side walls extending downwards from the transverse beam. Each side wall may at least partially enclose one of the first and second vertical shaft members. Each side wall may be arranged inside the corresponding vertical shaft member, i.e. towards the centre of the rail lifting head from the vertical shaft members, to prevent contact between a rail carried on the associated rail support member and the vertical shaft member.

[0011] The rail lifting head may further comprise first and second head levers extending above the transverse beam and rotationally fixed to the first and second vertical shaft members respectively for controlling rotation of the first and second vertical shaft members.

[0012] Each head lever may have a locking member hingedly attached thereto and selectively engageable with a fixing slot arranged on the transverse beam to lock the corresponding vertical shaft member against rotation.

[0013] The transverse beam may have a rectangular hollow section.

[0014] Each rail support member may have a rectangular hollow section.

Apparatus and lifting head

[0015] According to a second aspect of the present invention there is provided a railway rail handling apparatus configured for track side operation comprising first and second ground engaging means arranged on opposite sides of the apparatus, a support frame spanning between the first and second ground engaging means and a rail lifting head arranged on the support frame between the first and second ground engaging means, wherein the rail lifting head is a rail lifting head according to the first aspect.

[0016] Preferably the apparatus includes a lifting means adapted to raise or lower the rail lifting head. The lifting means may be electric, hydraulic or pneumatic, for example an electric motor or hydraulic cylinder.

[0017] The load of the rails carried by the rail lifting head is thus carried between the ground engaging means so that there is no overturning load on the a railway rail handling apparatus as a result of the weight of the rails.

[0018] Preferably the spacing between the first and second ground engaging means (28) is between 0.7 and 1.5 m, preferably about 1.0 m, so that in operation the apparatus can be used on single track railways, with one ground engaging means between the rails of the single track railway and the other ground engaging means is to one side of the rails of the single track railway, on the ballast or area close to the track.

Method of use of switch lifting head

[0019] According to a third aspect of the present invention there is provided a method of carrying one or more rails using a railway rail handling apparatus according to the second aspect of the present invention having a rail lifting head according to the first aspect of the present invention, the method including the steps of:

manoeuvring the railway rail handling apparatus to a lifting location;

opening the rail lifting head by rotating the rail support members from the closed position to the open position;

lowering the rail lifting head over a portion of the rail or rails which is raised above the ground;

closing the rail lifting head by rotating the rail support members from the closed position to the open position beneath the portion of the rail or rails;

raising the rail lifting head to lift the rail or rails on the rail support members; and

driving the railway rail handling apparatus to carry and move the one or more rails.

[0020] The one or more rails may comprise a switch.

[0021] The method may include the step of locking the rail lifting head after the step of closing the rail lifting head, the locking step including engaging the locking member associated with each rail support member with a corresponding fixing slot arranged on the transverse beam to lock the corresponding vertical shaft member against rotation.

[0022] The method may include using two railway rail handling apparatuses according to the third aspect of the present invention, each having a rail lifting head according to the second aspect of the present invention, the method including the steps of:

manoeuvring the first railway rail handling apparatus to a lifting location;

manoeuvring the second railway rail handling apparatus to a lifting location;

opening the rail lifting head of the first apparatus by rotating the rail support members from the closed position to the open position;

lowering the rail lifting head of the first apparatus over a portion of the rail or rails which is raised above the ground;

closing the rail lifting head of the first apparatus by rotating the rail support members from the closed position to the open position beneath the portion of the rail or rails;

opening the rail lifting head of the second apparatus by rotating the rail support members from the closed position to the open position;

lowering the rail lifting head of the second apparatus over a portion of the rail or rails which is raised above the ground;

closing the rail lifting head of the second apparatus by rotating the rail support members from the closed position to the open position beneath the portion of the rail or rails;

raising the rail lifting head to lift the rail or rails on the rail support members of the first apparatus;

raising the rail lifting head to lift the rail or rails on the rail support members of the second apparatus; and

driving the first and second railway rail handling apparatuses to carry and move the one or more rails.

Brief Description of the Drawings

[0023] The invention will be described, by way of example only, with reference to the drawings in which:

Fig. 1 is a side view of a railway handling apparatus carrying the end of a rail;

Fig. 2 is a front view of a railway handling apparatus carrying two rails;

Fig. 3 shows a perspective view of a rail lifting head carrying two rails;

Fig. 4 shows a perspective view of a rail lifting head for carrying up to four rails;

Fig. 5 shows a perspective view of a rail lifting head for carrying a switch or several rails in a closed position; and

Fig. 6 shows a perspective view of the rail lifting head of Fig. 5 from the opposite side.

[0024] It should be noted that the rail lifting head shown in Figures 1 to 4 does not form part of the present invention, and is included as technological background information only.

Description of Specific Embodiments

Multi rail lifting head

[0025] Referring to the drawings, Figures 1 and 2 respectively provide side and front views of a railway rail handling apparatus 10. The apparatus 10 comprises rail moving or lifting means 12, which is located approximately half way between and depends between two spaced apart apparatus support frame members 14, 16, which extend from ground engaging wheel means 28, such as tracks. The rail lifting means 12 depends from a chassis 18, which is supported on the two spaced apart apparatus support frame members 14, 16. The chassis 18 and support frame members 14, 16 together form a support frame. However the apparatus is not limited to this arrangement of a support frame. Any structure which is capable of supporting a rail lifting means 12 between the ground engaging wheel means may be used.

[0026] On the chassis 18 are supported a pneumatic or hydraulic system 20, a diesel generator 22 and a user control 24, which provide pneumatic or hydraulic actuation, generation and user control of the railway rail handling apparatus in accordance with known techniques.

[0027] The diesel generator provides motive power for the railway rail handling apparatus. In addition, a block and tackle arrangement 26 is mounted on the front of the chassis 18. The block and tackle arrangement can be moved to one of several positions between the spaced apart support members 14, 16. A continuous chain tread 28 (which constitutes ground engaging wheel means) is provided at the end of each of the two spaced apart apparatus support members 14, 16.

[0028] The rail lifting means 12 comprises an elongate telescopic body 40, having a first part 42 that is telescopically received in a second part 44. The upper end of the body 40 is mounted on the chassis 18 by means of a coupling 46, which provides for swivelling and/or rotation of the rail lifting means in relation to the chassis. A pin (not shown and which constitutes arresting means) is inserted by an operator into an upper part of the rail lifting means to arrest swivelling and/or rotation in relation to the chassis.

[0029] At the lower end of the rail lifting means 12 there is a coupling means 54 adapted to engage with a lifting point 102 provided on a rail lifting head 100. The coupling means 54 may be any suitable coupling means, for example a lockable pin or shackle which engages with an aperture of the lifting point 102 on the rail lifting head 100.

[0030] Structural parts of the railway rail handling apparatus, such as the chassis 18, the support members 14, 16, the block and tackle arrangement 26, the rail lifting means 12, the rail lifting head etc, are largely formed of a metal, such steel. The continuous chain tread 28 may be formed of rubber, plastics or similar such material.

[0031] The height of the railway rail handling apparatus 10 from the ground to the chassis 18, when the apparatus is standing on the continuous chain tread 28, may be between 0.8 and 1.2 m, preferably about 1m. A width of the chassis 18 between the ground engaging wheel means 28 may be between 0.8 and 1.2 m, preferably about 1m.

[0032] A length of the apparatus from the front of the continuous chain tread to its rear may be between 1.2 and 2.2 m, preferably about 1.7m, and the length of the chassis may be between 0.8 and 1.2 m, preferably about 1m.

[0033] With reference to Fig. 3 there is shown a rail lifting head 100. The rail lifting head 100 comprises a post member 104 having a lifting point 102 at its upper end adapted to be lifted by the rail lifting means 12 of the rail moving apparatus 10. The lifting point 102 includes a lifting boss 103 through which a lifting pin or shackle of the coupling means 54 provided at the lower end of the rail lifting means 12 may be inserted to secure the rail lifting head 100 to the rail lifting means 12. A transverse beam 106 is rigidly secured to the lower end of the post member 104 and is stiffened by welded stiffener plates 108.

[0034] The upper surface of the transverse beam 106 forms a rail bearing surface 110, on which in use rails 80 can be supported. The rail bearing surface 110 is provided with a number of sockets 112 for receiving rail retention members 114, 116, which in the embodiment of Fig. 1 may be retention blocks 114 or retention pins 116.

[0035] The transverse beam 106 includes first and second transverse beam portions 106A, 106B arranged on opposite sides of the post member 104. The first and second transverse beam portions 106A, 106B are cantilevered from the post member, so that if lifting two or more rails 80, the rails can be distributed either side of the post member 4 to balance the load, if required.

[0036] The embodiment of Fig. 4 is similar. In this case the rail lifting head 100 is shown without rails 80, and with only retention pins 116 used to retain the rails. A slotted rack 120 provided on the post member 104 serves as a pin stowage member for storing the retention pins 116. The slots in the slotted rack 120 are dimensioned to retain the heads 122 provided on the pins 116. The pins 116 may be permanently attached to the rack 120 by chains 124, only part of which is illustrated, so that they cannot be mislaid.

[0037] The rail lifting head 100 has a tilt stop 130 comprising two stop members 132, each arranged on one side of the post member 104 below the lifting point 102. The stop members 132 are connected by gusset plates 134. The stop members 132 restrict the swing movement of the rail lifting head 100 in both directions, thereby protecting any internal components of the rail moving apparatus 10. The stop members 132 provide a safety feature, by preventing the rail lifting head 100 from tilting excessively if it is loaded unevenly, for example if a rail is carried on one transverse beam portion 106A, 106B only.

Switch lifting head

[0038] Figs. 5 and 6 show an embodiment of a rail lifting head 200, according to the claimed invention, used for lifting and transporting switches.

[0039] The rail lifting head 200 comprises a transverse beam 202 having a centrally positioned lifting point 102 at its upper side adapted to be lifted by the rail moving means 12 of the rail moving apparatus 10. The lifting point 102 includes a lifting boss 103 through which a lifting pin or shackle of the coupling means 54 provided at the lower end of the rail moving or lifting means 12 may be inserted to secure the rail lifting head 200 to the rail lifting means 12.

[0040] The rail lifting head 200 includes first and second vertical shaft members 204 mounted on the transverse beam 202 for rotation about a vertical pivot axis 206, and extending downwards from the transverse beam 202. At the lower end of each vertical shaft member 204 there is a rail support member 208 cantilevered from the lower end of respective shaft member 204. Each rail support member 208 can rotate about its respective pivot axis 206 between a closed position illustrated in Figs. 5 and 6, in which the rail support members 208, the vertical shaft members 204 and the transverse beam 202 form a substantially closed, coplanar frame, and an open position in which the rail support members 208 extend substantially perpendicular to the transverse beam 202.

[0041] The rail lifting head 200 may have two side walls 210 extending downwards from the transverse beam 202. Each side wall includes a first portion 212 facing inwards towards the centre of the rail lifting head 200. The first portion 212 is arranged inside the corresponding vertical shaft member to prevent contact between a rail carried on the associated rail support member 208 and the rotatable vertical shaft member 204. The second portion 214 is arranged perpendicular to the first portion 212, and together the portions of the side wall 210 at least partially enclose the associated vertical shaft member 204.

[0042] The rail lifting head 200 may further comprise first and second head levers 216 extending above the transverse beam 202 and rotationally fixed to the first and second vertical shaft members 204 respectively. These head levers 216 can be used to control the rotation of the first and second vertical shaft members 204, i.e. to open and close the gate of the rail lifting head 200.

[0043] Each head lever 216 may have a locking member 218 hingedly attached thereto and selectively engageable with a fixing slot 220 arranged on the transverse beam 202 to lock the corresponding vertical shaft member 204 against rotation, so that the rail lifting head 200 can be locked in the closed position when transporting a switch or rails.

[0044] Typically the transverse beam 202 and rail support members 208 are of steel and have a rectangular hollow section.

Use of multi rail lifting head

[0045] The apparatus may be used in the following manner to transport a number of rails. The method is described with reference to the use of two railway rail handling apparatuses, but if the length of rail is short, or if it is only required to move part of a rail, a single apparatus may be used.

[0046] A rail lifting head 100 as illustrated in Figs. 3 and 4 is fitted to each apparatus 10. In use the railway rail handling apparatuses 10 are driven to the place where the rail or rails are to be lifted. The rails 80 to be lifted may be supported off the ground, on support timbers or the like. The operator adjusts the level of the rail lifting head 100 of the first apparatus 109 so that the rail bearing surface 110 is below the level of the underside of the rail or rails 80 to be lifted at their first end, by operation of the rail lifting means 12. The first railway rail handling apparatus is then driven or manoeuvred so that the rail bearing surface 110 is directly beneath the rail or rails to be lifted, by operating the ground engaging wheel means 28. These steps are repeated with the second apparatus 10 at the opposite, second end of the rail or rails 80 to be lifted.

[0047] The rail lifting head 100 of each apparatus 10 is then raised by the operator, by operation of the rail lifting means 12, to lift the rail or rails 80 so that the rails are supported on the rail bearing surfaces 110 of the rail lifting heads 100 of both apparatuses 10. At this point one or more rail retention blocks 114 and/or rail retention pins 116 may be inserted into the sockets 112 on the rail bearing surface 110, to hold the rails 80 in place. The operator then drives the railway rail handling apparatus 10 to carry and move the one or more rails 80, by operating the ground engaging wheel means 28. When the required destination is reached, the rails are lowered by reversing the process.

[0048] The operator may operate the rail lifting means 12 and the ground engaging wheel means 28 in any suitable manner, for example by means of a control panel on the apparatus 10, or by a control panel connected to the apparatus 10 by a communication cable, or by wireless control.

Use of switch lifting head

[0049] The apparatus of the invention may be used in the following manner to transport a switch or other structure containing more than one rail. The method is described with reference to the use of two railway rail handling apparatuses, but if the length of the switch or structure is short, or if it is only required to move part of the structure, a single apparatus may be used.

[0050] A rail lifting head 200 as illustrated in Figs. 5 and 6 is fitted to each railway rail handling apparatus 10. Each apparatus 10 is manoeuvred to the appropriate lifting location, typically at opposite ends of a switch.

[0051] The rail lifting head 200 of the first apparatus is opened by rotating the rail support members 208 from the closed position to the open position. The rail lifting head 200 of the first apparatus is then lowered over a portion of the rail or rails 80 which is raised above the ground. The rail lifting head 200 of the first apparatus is then closed by rotating the rail support members 208 from the closed position to the open position beneath the portion of the rail or rails 80.

[0052] The procedure is repeated with the second apparatus 10. Then both rail lifting heads 200 are raised to lift the rail or rails 80 on the rail support members 208 of both apparatuses 10. The apparatuses 10 may then be driven together to carry and move the rails or switch. When the required destination is reached, the rails or switch are lowered by reversing the process.

[0053] The invention provides a simple and low cost method of moving single or multiple rails in areas of limited access, or in narrow track locations.

[0054] The invention is not limited to the specific embodiments described, and modifications and alternatives are possible, within the scope of the appended claims. The shape, material and size of the various components can be modified.

Claims

1. A rail lifting head (200) comprising:

a transverse beam (202) having a lifting point (102) at its upper side adapted to be lifted by a lifting means (12) of a rail moving apparatus;

first and second vertical shaft members (204) mounted on the transverse beam for rotation about a vertical pivot axis (206), and extending downwards from the transverse beam;

first and second rail support members (208) cantilevered from the lower ends of the first and second vertical shaft members (204) respectively;

wherein the first and second rail support members (208) can rotate about their respective pivot axes between a closed position in which the rail support members (208), the vertical shaft members (204) and the transverse beam (202) form a substantially closed frame and an open position in which the rail support members extend substantially perpendicular to the transverse beam.

2. The rail lifting head of claim 1, further comprising two side walls (210) extending downwards from the transverse beam (202), each side wall at least partially enclosing one of the first and second vertical shaft members (204).

3. The rail lifting head of either preceding claim, further comprising first and second head levers (216) extending above the transverse beam (202) and rotationally fixed to the first and second vertical shaft members (204) respectively for controlling rotation of the first and second vertical shaft members.

4. A railway rail handling apparatus (10) configured for track side operation comprising first and second ground engaging means (28) arranged on opposite sides of the apparatus, a support frame (14, 16, 18) spanning between the first and second ground engaging means and a rail lifting head (200) arranged on the support frame between the first and second ground engaging means, wherein the rail lifting head is a rail lifting head according to any preceding claim.

5. The railway rail handling apparatus of claim 4, further comprising a lifting means (12) adapted to raise or lower the rail lifting head.

6. The railway rail handling apparatus of claim 4 or 5, wherein the spacing between the first and second ground engaging means (28) is between 0.7 and 1.5 m.

7. A method of carrying one or more rails using a railway rail handling apparatus (10) according to any of claims 4 to 6 wherein the rail lifting head is a rail lifting head (200) according to any of claims 1 to 3, the method including the steps of:

manoeuvring the railway rail handling apparatus (10) to a lifting location;

opening the rail lifting head (200) by rotating the rail support members (208) from the closed position to the open position;

lowering the rail lifting head (200) over a portion of the rail or rails (80) which is raised above the ground;

closing the rail lifting head (200) by rotating the rail support members (208) from the open position to the closed position beneath the portion of the rail or rails;

raising the rail lifting head (200) to lift the rail or rails on the rail support members; and

driving the railway rail handling apparatus (10) to carry and move the one or more rails.

8. The method of claim 7, wherein the one or more rails comprises a switch.

9. The method of claim 7 or 8, comprising the further step of locking the rail lifting head (200) after the step of closing the rail lifting head, the locking step including engaging a locking member (218) associated with each rail support member (208) with a corresponding fixing slot (220) arranged on the transverse beam (202) to lock the corresponding vertical shaft member (204) against rotation.

10. A method of carrying one or more rails (80) using first and second railway rail handling apparatuses (10) according to any of claims 4 to 6 wherein the rail lifting head is a rail lifting head (200) according to any of claims 1 to 3, the method including the steps of:

manoeuvring the first railway rail handling apparatus (10) to a lifting location;

manoeuvring the second railway rail handling apparatus (10) to a lifting location;

opening the rail lifting head (200) of the first apparatus (10) by rotating the rail support members (208) from the closed position to the open position;

lowering the rail lifting head (200) of the first apparatus over a portion of the rail or rails which is raised above the ground;

closing the rail lifting head (200) of the first apparatus by rotating the rail support members (208) from the open position to the closed position beneath the portion of the rail or rails;

opening the rail lifting head (200) of the second apparatus (10) by rotating the rail support members from the closed position to the open position;

lowering the rail lifting head (200) of the second apparatus over a portion of the rail or rails which is raised above the ground;

closing the rail lifting head (200) of the second apparatus by rotating the rail support members (208) from the open position to the closed position beneath the portion of the rail or rails;

raising the rail lifting head (200) to lift the rail or rails on the rail support members of the first apparatus;

raising the rail lifting head (200) to lift the rail or rails on the rail support members of the second apparatus; and

driving the first and second railway rail handling apparatuses (10) to carry and move the one or more rails.

Ansprüche

1. Ein Schienenhebekopf (200), der Folgendes beinhaltet:

einen Querträger (202), der an seiner Oberseite einen Hebepunkt (102) aufweist, der angepasst ist, um durch ein Hebemittel (12) einer Schienenbewegungsvorrichtung gehoben zu werden;

ein erstes und ein zweites vertikales Schaftelement (204), die an dem Querträger zur Drehung um eine vertikale Schwenkachse (206) montiert sind und sich von dem Querträger nach unten erstrecken;

ein erstes und ein zweites Schienenstützelement (208), die aus dem unteren Ende des ersten bzw. des zweiten vertikalen Schaftelements (204) auskragen;

wobei sich das erste und das zweite Schienenstützelement (208) um ihre jeweilige Schwenkachse zwischen einer geschlossenen Stellung, in der die Schienenstützelemente (208), die vertikalen Schaftelemente (204) und der Querträger (202) einen im Wesentlichen geschlossenen Rahmen bilden, und einer offenen Stellung, in der sich die Schienenstützelemente im Wesentlichen senkrecht zu dem Querträger erstrecken, drehen können.

2. Schienenhebekopf gemäß Anspruch 1, der weiter zwei Seitenwände (210) beinhaltet, die sich von dem Querträger (202) nach unten erstrecken, wobei jede Seitenwand mindestens teilweise eines von dem ersten und dem zweiten vertikalen Schaftelement (204) umschließt.

3. Schienenhebekopf gemäß einem der vorhergehenden Ansprüche, der weiter einen ersten und einen zweiten Kopfhebel (216) beinhaltet, die sich über dem Querträger (202) erstrecken und an dem ersten bzw. dem zweiten vertikalen Schaftelement (204) drehfest fixiert sind, um die Drehung des ersten und des zweiten vertikalen Schaftelements zu steuern.

4. Eine Eisenbahnschienenhandhabungsvorrichtung (10), die zum streckenseitigen Betrieb konfiguriert ist und ein erstes und ein zweites Bodeneingriffsmittel (28), die auf gegenüberliegenden Seiten der Vorrichtung angeordnet sind, einen Stützrahmen (14, 16, 18), der sich zwischen dem ersten und dem zweiten Bodeneingriffsmittel erstreckt, und einen Schienenhebekopf (200), der auf dem Stützrahmen zwischen dem ersten und dem zweiten Bodeneingriffsmittel angeordnet ist, beinhaltet, wobei der Schienenhebekopf ein Schienenhebekopf gemäß einem der vorhergehenden Ansprüche ist.

5. Eisenbahnschienenhandhabungsvorrichtung gemäß Anspruch 4, die weiter ein Hebemittel (12) beinhaltet, das angepasst ist, um den Schienenhebekopf anzuheben oder zu senken.

6. Eisenbahnschienenhandhabungsvorrichtung gemäß Anspruch 4 oder 5, wobei der Abstand zwischen dem ersten und dem zweiten Bodeneingriffsmittel (28) zwischen 0,7 und 1,5 m beträgt.

7. Ein Verfahren zum Tragen einer oder mehrerer Schienen unter Verwendung einer Eisenbahnschienenhandhabungsvorrichtung (10) gemäß einem der Ansprüche 4 bis 6, wobei der Schienenhebekopf ein Schienenhebekopf (200) gemäß einem der Ansprüche 1 bis 3 ist, wobei das Verfahren die folgenden Schritte umfasst:

Manövrieren der Eisenbahnschienenhandhabungsvorrichtung (10) zu einer Hebestelle; Öffnen des Schienenhebekopfs (200) durch Drehen der Schienenstützelemente (208) von der geschlossenen Stellung in die offene Stellung;

Senken des Schienenhebekopfs (200) über einen Teil der Schiene oder Schienen (80), der vom Boden angehoben ist;

Schließen des Schienenhebekopfs (200) durch Drehen der Schienenstützelemente (208) von der offenen Stellung in die geschlossene Stellung unter dem Teil der Schiene oder Schienen;

Anheben des Schienenhebekopfs (200), um die Schiene oder Schienen auf den Schienenstützelementen zu heben; und

Antreiben der Eisenbahnschienenhandhabungsvorrichtung (10), um die eine oder die mehreren Schienen zu tragen und zu bewegen.

8. Verfahren gemäß Anspruch 7, wobei die eine oder die mehreren Schienen eine Weiche beinhalten.

9. Verfahren gemäß Anspruch 7 oder 8, das den weiteren Schritt des Sperrens des Schienenhebekopfs (200) nach dem Schritt des Schließens des Schienenhebekopfs beinhaltet, wobei der Sperrschritt das Eingreifen eines Sperrelements (218), das mit jedem Schienenstützelement (208) assoziiert ist, in einen entsprechenden Fixierungsschlitz (220) umfasst, der auf dem Querträger (202) angeordnet ist, um das entsprechende vertikale Schaftelement (204) gegen Drehung zu sperren.

10. Ein Verfahren zum Tragen einer oder mehrerer Schienen (80) unter Verwendung einer ersten und einer zweiten Eisenbahnschienenhandhabungsvorrichtung (10) gemäß einem der Ansprüche 4 bis 6, wobei der Schienenhebekopf ein Schienenhebekopf (200) gemäß einem der Ansprüche 1 bis 3 ist, wobei das Verfahren die folgenden Schritte umfasst:

Manövrieren der ersten Eisenbahnschienenhandhabungsvorrichtung (10) zu einer Hebestelle;

Manövrieren der zweiten Eisenbahnschienenhandhabungsvorrichtung (10) zu einer Hebestelle;

Öffnen des Schienenhebekopfs (200) der ersten Vorrichtung (10) durch Drehen der Schienenstützelemente (208) von der geschlossenen Stellung in die offene Stellung; Senken des Schienenhebekopfs (200) der ersten Vorrichtung über einen Teil der Schiene oder Schienen, der vom Boden angehoben ist;

Schließen des Schienenhebekopfs (200) der ersten Vorrichtung durch Drehen der Schienenstützelemente (208) von der offenen Stellung in die geschlossene Stellung unter dem Teil der Schiene oder Schienen;

Öffnen des Schienenhebekopfs (200) der zweiten Vorrichtung (10) durch Drehen der Schienenstützelemente von der geschlossenen Stellung in die offene Stellung;

Senken des Schienenhebekopfs (200) der zweiten Vorrichtung über einen Teil der Schiene oder Schienen, der vom Boden angehoben ist;

Schließen des Schienenhebekopfs (200) der zweiten Vorrichtung durch Drehen der Schienenstützelemente (208) von der offenen Stellung in die geschlossene Stellung unter dem Teil der Schiene oder Schienen;

Anheben des Schienenhebekopfs (200), um die Schiene oder Schienen auf den Schienenstützelementen der ersten Vorrichtung zu heben;

Anheben des Schienenhebekopfs (200), um die Schiene oder Schienen auf den Schienenstützelementen der zweiten Vorrichtung zu heben; und

Antreiben der ersten und der zweiten Eisenbahnschienenhandhabungsvorrichtung (10), um die eine oder die mehreren Schienen zu tragen und zu bewegen.

Revendications

1. Une tête de levage de rail (200) comprenant :

une poutre transversale (202) ayant un point de levage (102) au niveau de son côté supérieur conçu pour être levé par un moyen de levage (12) d'un appareil de déplacement de rail ;

des premier et deuxième éléments formant arbres verticaux (204) montés sur la poutre transversale pour une rotation autour d'un axe de pivotement vertical (206), et s'étendant vers le bas à partir de la poutre transversale ;

des premier et deuxième éléments de support de rail (208) en porte-à-faux à partir des extrémités inférieures des premier et deuxième éléments formant arbres verticaux (204) respectivement ;

où les premier et deuxième éléments de support de rail (208) peuvent tourner autour de leurs axes de pivotement respectifs entre une position fermée dans laquelle les éléments de support de rail (208), les éléments formant arbres verticaux (204) et la poutre transversale (202) forment un cadre substantiellement fermé et une position ouverte dans laquelle les éléments de support de rail s'étendent substantiellement perpendiculairement à la poutre transversale.

2. La tête de levage de rail de la revendication 1, comprenant en outre deux parois latérales (210) s'étendant vers le bas à partir de la poutre transversale (202), chaque paroi latérale renfermant au moins partiellement l'un des premier et deuxième éléments formant arbres verticaux (204).

3. La tête de levage de rail de l'une ou l'autre revendication précédente, comprenant en outre des premier et deuxième leviers de tête (216) s'étendant au-dessus de la poutre transversale (202) et assujettis de façon rotative aux premier et deuxième éléments formant arbres verticaux (204) respectivement pour la commande de la rotation des premier et deuxième éléments formant arbres verticaux.

4. Un appareil de manutention de rail de voie ferrée (10) configuré pour une exploitation en bordure de voie comprenant des premier et deuxième moyens entrant en contact avec le sol (28) agencés sur des côtés opposés de l'appareil, un cadre de support (14, 16, 18) formant travée entre les premier et deuxième moyens entrant en contact avec le sol et une tête de levage de rail (200) agencée sur le cadre de support entre les premier et deuxième moyens entrant en contact avec le sol, où la tête de levage de rail est une tête de levage de rail selon n'importe quelle revendication précédente.

5. L'appareil de manutention de rail de voie ferrée de la revendication 4, comprenant en outre un moyen de levage (12) conçu pour élever ou abaisser la tête de levage de rail.

6. L'appareil de manutention de rail de voie ferrée de la revendication 4 ou de la revendication 5, où l'écartement entre les premier et deuxième moyens entrant en contact avec le sol (28) est compris entre 0,7 et 1,5 m.

7. Un procédé de transport d'un ou de plusieurs rails à l'aide d'un appareil de manutention de rail de voie ferrée (10) selon n'importe lesquelles des revendications 4 à 6 où la tête de levage de rail est une tête de levage de rail (200) selon n'importe lesquelles des revendications 1 à 3, le procédé incluant les étapes :

de manœuvre de l'appareil de manutention de rail de voie ferrée (10) vers un emplacement de levage ;

d'ouverture de la tête de levage de rail (200) en faisant tourner les éléments de support de rail (208) de la position fermée à la position ouverte ;

d'abaissement de la tête de levage de rail (200) par-dessus une portion du rail ou des rails (80) qui est élevée au-dessus du sol ;

de fermeture de la tête de levage de rail (200) en faisant tourner les éléments de support de rail (208) de la position ouverte à la position fermée en dessous de la portion du rail ou des rails ;

d'élévation de la tête de levage de rail (200) afin de lever le rail ou les rails sur les éléments de support de rail ; et

de conduite de l'appareil de manutention de rail de voie ferrée (10) afin de transporter et de déplacer ces un ou plusieurs rails.

8. Le procédé de la revendication 7, où ces un ou plusieurs rails comprennent une aiguille.

9. Le procédé de la revendication 7 ou de la revendication 8, comprenant l'étape supplémentaire de verrouillage de la tête de levage de rail (200) après l'étape de fermeture de la tête de levage de rail, l'étape de verrouillage incluant la mise en prise d'un élément de verrouillage (218) associé à chaque élément de support de rail (208) avec une encoche d'assujettissement (220) correspondante agencée sur la poutre transversale (202) afin de verrouiller l'élément formant arbre vertical (204) correspondant pour qu'il ne puisse pas tourner.

10. Un procédé de transport d'un ou de plusieurs rails (80) à l'aide de premier et deuxième appareils de manutention de rail de voie ferrée (10) selon n'importe lesquelles des revendications 4 à 6 où la tête de levage de rail est une tête de levage de rail (200) selon n'importe lesquelles des revendications 1 à 3, le procédé incluant les étapes :

de manœuvre du premier appareil de manutention de rail de voie ferrée (10) vers un emplacement de levage ;

de manœuvre du deuxième appareil de manutention de rail de voie ferrée (10) vers un emplacement de levage ;

d'ouverture de la tête de levage de rail (200) du premier appareil (10) en faisant tourner les éléments de support de rail (208) de la position fermée à la position ouverte ;

d'abaissement de la tête de levage de rail (200) du premier appareil par-dessus une portion du rail ou des rails qui est élevée au-dessus du sol ;

de fermeture de la tête de levage de rail (200) du premier appareil en faisant tourner les éléments de support de rail (208) de la position ouverte à la position fermée en dessous de la portion du rail ou des rails ;

d'ouverture de la tête de levage de rail (200) du deuxième appareil (10) en faisant tourner les éléments de support de rail de la position fermée à la position ouverte ;

d'abaissement de la tête de levage de rail (200) du deuxième appareil par-dessus une portion du rail ou des rails qui est élevée au-dessus du sol ;

de fermeture de la tête de levage de rail (200) du deuxième appareil en faisant tourner les éléments de support de rail (208) de la position ouverte à la position fermée en dessous de la portion du rail ou des rails ;

d'élévation de la tête de levage de rail (200) afin de lever le rail ou les rails sur les éléments de support de rail du premier appareil ;

d'élévation de la tête de levage de rail (200) afin de lever le rail ou les rails sur les éléments de support de rail du deuxième appareil ; et

de conduite des premier et deuxième appareils de manutention de rail de voie ferrée (10) afin de transporter et de déplacer ces un ou plusieurs rails.

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