Device for separating at least two adjacent strands of material and system including such a device

The invention claimed is: 1. A device for separating at least two strands of material created by longitudinally cutting a continuously moving strip of material, wherein the device comprises: upstream guiding means of the two strands of material, guiding them along one and the same direction, known as the main direction, a spacer to space the strands of material along a direction extending in the moving plane of the strands of material, the spacer including guiding means configured to guide the strands of material along two separate and divergent directions, downstream guiding means of the two separated strands of material, guiding them along one and the same direction, the upstream guiding means and the spacer being positioned so that the moving plane of the strands of material in the spacer forms a nonzero angle with the moving plane of the strands of material between the upstream guiding means and the spacer, the spacer and the downstream guiding means being positioned so that the moving plane of the strands of material in the spacer forms a non-zero angle with the moving plane of the strands of material between the spacer and the downstream guiding means, wherein the spacer comprises at least two adjacent support parts, each support part including at least two successive guiding cylinders with parallel axes rotationally movable about their axes, to separately guide one of the strands of material; the axes of rotation of the two guiding cylinders belonging to two separate support parts forming a non-zero angle between them; wherein at least two adjacent guiding cylinders belonging to separate support parts are in contact at one of their ends. 2. The device according to claim 1 , wherein each of the support parts comprises an arm connecting the successive guiding cylinders of the support part together and keeping their axes mutually parallel, at least one of the arms being able to pivot in relation to the other of the arms along a direction basically normal to the moving plane of the strands of material. 3. The device according to claim 1 , wherein pre-stressed elastic means are located between one of the ends of the guiding cylinder and the arm carrying this cylinder to repel said cylinder toward the adjacent guiding cylinder belonging to another support part. 4. The device according to claim 1 , wherein the downstream guiding means comprise at least one moving cylinder rotationally movable about its axis, the cylinder(s) being suitable for receiving the strands of material spaced apart by the spacer. 5. The device according to claim 1 , wherein the upstream guiding means comprise at least one moving cylinder rotationally movable about its axis, suitable for receiving the strands of material cut longitudinally and located side by side. 6. The device according to claim 1 , wherein: the upstream guiding means and the spacer are positioned so that the moving plane of the strands of material in the spacer is basically perpendicular to the moving plane of the strands of material between the upstream guiding means and the spacer, and/or the spacer and the downstream guiding means are positioned so that the moving plane of the strands of material in the spacer is basically perpendicular to the moving plane of the strands of material between the spacer and the downstream guiding means. 7. The device according to claim 1 , wherein the downstream guiding means are configured to guide the strands of material along the main direction, the guiding means of the spacer being configured to guide at least one of the strands of material, particularly the two strands, along a direction separate from the main direction. 8. A system for producing a ribbon of electrical energy storage complex including at least one strand of material, wherein the production system includes a separating device according to claim 1 to space at least two strands of material apart from one another. 9. The system according to claim 8 , which further comprises a measuring device, downstream of the separating device, to measure the traction forces exerted on each strand of material. 10. The system according to claim 8 , which further comprises a complexing device, downstream of the separating device, to assemble at least one film in a single piece, such as an electrolyte film, on the spaced strands of material. 11. The system according to claim 10 , wherein the complexing device comprises pressing means for superimposing and assembling said or at least one of the films on one of the faces of the spaced strands of material. 12. The system according to claim 11 , wherein the pressing means comprise a support and a compressing cylinder, the spaced strands of material and the film(s) moving between the support and said compressing cylinder. 13. The system according to claim 12 , wherein the support comprises at least one support cylinder facing said and at least one compressing cylinder. 14. The system according to claim 13 , wherein the pressing means varies the inclination of the axis of rotation of the compressing cylinder in relation to the support, as a function of the results returned by the measuring device. 15. The system according to claim 8 , which further comprises a heating element for heating the strands of material and/or said or at least one of the films superimposed on the strands of material.