Roadway track with vertical pivot joint

Abstract

A roadway track (10) for a vehicle (T) is provided, the roadway track having a roadway face and being suitable for being rolled up and designed to be placed on the ground and presenting a rolled-up position and a deployed position in which the roadway track extends substantially parallel to the ground. The roadway track includes at least a first track portion (14) and a second track portion (16), the first and second track portions being connected to each other by a pivot connection (18) having a pivot axis (A) that extends in a direction that is substantially perpendicular to the roadway face, whereby the first track portion can pivot relative to the second track portion about the pivot axis so as to form a bend (V).

Claims

1. A roadway track for a vehicle, comprising: a roadway face, wherein the roadway track is configured to be rolled-up and placed on a ground, and wherein the roadway track presents a rolled-up position and a deployed position in which said roadway track extends substantially parallel to the ground; at least a first track portion; and a second track portion, the first and second track portions extending substantially parallel to the ground when the roadway track is in the deployed position, the first and second track portions being connected to each other by a pivot connection having a pivot axis that extends in a direction substantially perpendicular to the roadway face when said roadway track is in the deployed position, such that the first track portion can pivot, during use, relative to the second track portion about the pivot axis to form a bend.

2. The roadway track according to claim 1, wherein the pivot connection comprises a connection element for fastening the first track portion to the second track portion so as to pivot about said pivot axis.

3. The roadway track according to claim 1, wherein the first track portion comprises an inside face disposed facing an inside face of the second track portion, the two inside faces defining an overlap zone between the first and second track portions, the pivot connection being situated in said overlap zone.

4. The roadway track according to claim 3, wherein said overlap zone presents a coefficient of friction that is less than that of the roadway face of the roadway track.

5. The roadway track according to claim 3, wherein at least one of the inside faces of the first and second track portions defining the overlap zone comprises a layer of a material having a low coefficient of friction.

6. The roadway track according to claim 5, wherein the layer of material having a low coefficient of friction surrounds the pivot connection.

7. The roadway track according to claim 1, wherein the first track portion comprises a main track portion and an end portion connected to the main track portion in a hinged manner, and wherein the pivot connection is situated in the end portion.

8. The roadway track according to claim 7, wherein the end portion is connected to the main track portion by a hinge, the hinge having a hinge axis perpendicular to said pivot axis.

9. The roadway track according to claim 7, wherein the main portion and the end portion of the first track portion include reinforcing elements that extend transversely relative to the longitudinal direction of the first track portion.

10. The roadway track according to claim 7, wherein the main track portion and the end portion are flexible about an axis that is transverse to the longitudinal direction of the first track portion.

11. The roadway track according to claim 7, wherein at least the end portion, and/or the main track portion comprise a textile covered in a polymer layer.

12. A junction for a vehicle roadway track according to claim 1, wherein said junction comprises: a first portion; and a second portion connected to the first portion so as to pivot at a pivot connection; the first portion including a mounting member to mount a main track portion on said first portion.

13. The junction according to claim 12, wherein the first portion covers the second portion at least in part in an overlap zone, the pivot connection being situated in said overlap zone.

14. The junction according to claim 12, wherein at least one of the first and second portions is made of a flexible material.

15. The junction according to claim 14, wherein the flexible material comprises a textile covered in a polymer layer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The disclosure can be better understood on reading the detailed description given below by way of indicative and non-limiting example and with reference to the accompanying drawings, in which:

(2) FIG. 1 shows a roadway track of the disclosure in a deployed position and forming a bend;

(3) FIG. 2 shows the roadway track of FIG. 2 in a rolled-up position;

(4) FIG. 3 is a plan view of the junction of the roadway track of FIG. 1, the first and second track portions being in alignment relative to each other;

(5) FIG. 4 shows the roadway track of FIG. 3, when the first and second track portions are pivoted relative to each other;

(6) FIG. 5 is a view of a detail of the pivot connection between the first and second track portions; and

(7) FIG. 6 shows a variant of the roadway track of FIG. 1.

DETAILED DESCRIPTION OF THE DISCLOSURE

(8) FIG. 1 shows an embodiment of a roadway track 10 constituting the present disclosure. This roadway track 10 is designed to enable a vehicle T to move on soft ground. In this example, the ground is sandy.

(9) In FIG. 1, the roadway track 10 is in its deployed position, its roadway face 12 being defined as being the face that is oriented upwards. In FIG. 2, the roadway track 20 is in its rolled-up position.

(10) As can be seen in FIG. 1, in its deployed position, the roadway track 10 extends substantially parallel to the ground S.

(11) In accordance with the disclosure, the roadway track 10 comprises at least a first track portion 14 and a second track portion 16, the first and second track portions extending substantially parallel to the ground S when the roadway track 10 is in the deployed position.

(12) The first and second track portions 14, 16 are connected to each other by a pivot connection 18 having a pivot axis A that extends in a direction substantially perpendicular to the roadway face when said roadway track is in the deployed position.

(13) As can be understood from FIG. 1, the first track portion 14 may pivot relative to the second track portion 16 about the pivot axis A so as to form a bend V.

(14) With reference to FIG. 3, it should be observed that the first track portion 14 comprises a main track portion 14a and an end portion 14b that is connected to the main track portion in such a manner as to hinge it by means of a hinge 20 having its hinge axis B perpendicular to the pivot axis A of the pivot connection 18.

(15) In this non-limiting example, the second track portion presents a structure that is similar to the first track portion, i.e. the second track portion comprises a main track portion 16a together with an end portion 16b, the end portion 16b being connected to the main track portion 16a in hinged manner by means of a hinge 22 having its hinge axis B likewise perpendicular to the pivot axis A.

(16) It should be understood that the hinges 20 and 22 have the function of inclining the main track portions 14a and 16a relative to the end portions 14b and 16b about axes of rotation that are substantially parallel to the ground, and do so in order to adapt to the topography of the ground.

(17) It can be seen in FIG. 3 that the first track portion 14 and the second track portion 16 overlap at the pivot connection 18. More precisely, in this example, the end portion 14b of the first track portion 14 overlaps the end portion 16b of the second track portion 16. The overlap zone 30 is shown in the form of hatching in FIG. 3. There is therefore continuity between the first and second track portions when the track is rectilinear.

(18) In FIG. 3, it should be observed that the longitudinal direction L1 of the first track portion 14 is in alignment with the longitudinal direction L2 of the second track portion 16.

(19) In FIG. 4, the first track portion 14 has pivoted relative to the second track portion about the pivot axis A through an angle so as to form a bend V.

(20) In the pivoted position of FIG. 4, it should be observed that the first and second track portions 14, 16 continue to overlap, the pivot connection 18 remaining in the overlap zone. There is thus still continuity between the first and second track portions when the first track portion has pivoted relative to the second track portion.

(21) With reference to FIG. 5, the pivot connection 18 is described in greater detail below.

(22) In this example, the pivot connection 18 comprises a connection element 32 in the form of a cylinder of axis A, which has the function of fastening the first track portion 14 to the second track portion 16 to pivot about the pivot axis A. The connection element thus holds together the first and second track portions, while enabling them to pivot relative to each other.

(23) As can be understood from FIG. 5, the end portions 14b and 16b of the first and second track portions include two coaxial orifices in which the connection element 32 is engaged. The element 32 is blocked axially relative to the end portions 14b, 16b of the first and second track portions 14, 16 by shoulders 32a and 32b that sandwich the end portions 14b and 16b at the overlap zone 30.

(24) In addition, the first track portion 14, and more precisely the end portion 14b of said first track portion 14, presents an inside face 14c that is disposed facing an inside face 16c of the second track portion, both facing inside faces defining the overlap zone 30.

(25) According to some embodiments, the overlap zone 30 presents a coefficient of friction that is strictly less than that of the roadway face 12 of the roadway track 10. For this purpose, at least one of the inside faces 14c, 16c of the first and second track portions 14, 16 defining the overlap zone 30 comprises a layer 40 of a slippery material. In this example, the slippery material is PTFE. The advantage of the slippery material (i.e., material having a low coefficient of friction) is that is facilitates pivoting of the first track portion relative to the second track portion.

(26) In this example, the layer of slippery material 40 surrounds the pivot connection while being of annular shape, as shown in particular in FIG. 3.

(27) In order to improve the transverse stiffness of the roadway track 10, the main portion 14a and the end portion 14b of the first track portion include reinforcing elements 50 that extend transversely relative to the longitudinal direction L1 of the first track portion. By way of example, these reinforcing elements 50 are metal rods. In this example, the main portion 16a and the end portion 16b of the second track portion 16 also include such transverse reinforcing elements 50.

(28) According to some embodiments, the main track portion 14a and the end portion 14b are made of a material that is flexible about an axis transverse to the longitudinal direction L1 of the first track portion. In this example, the flexible material is a textile 52 covered in a polymer layer 54. This flexibility about an axis transverse to the longitudinal direction makes it possible for the track portion 10 to be rolled up. As indicated above, the rolled-up position of the roadway track 10 is shown in FIG. 2.

(29) FIG. 6 shows a variant embodiment of the roadway track 10 of the disclosure, which differs from the roadway track of FIG. 3, by the fact that it does not have hinges 20, 22. In this variant, for each of the first and second track portions 14, 16, the main track portion forms a single part with the end portion. Again, the first and second track portions are pivotally fastened together so as to pivot by means of the pivot connection 18.

(30) Again with reference to FIG. 3, it should be observed that the roadway track 10 may be defined as including a junction 100 that comprises a first portion, constituted by the end portion 14b of the first track portion, and a second portion constituted by the end portion 16b of the second track portion, connected to the first portion so as to pivot by means of the pivot connection 18 having the axis A as its pivot axis. The first portion 14b includes a mounting member 20, specifically the hinge connection 20, in order to mount a main track portion 14a on said second portion 16.