Rack positioning assembly for an electric panel, electric panel comprising one such assembly and method for fitting this assembly

The invention claimed is: 1. A rack positioning assembly for an electric panel, comprising: a vertical busbar configured to distribute electric current to electric appliances, said busbar comprising several bars, which are positioned in a same vertical plane and on which are provided connections to racks of the electric panel, and several rack positioning modules, which are positioned above one another, which surround the bars of the vertical busbar and which comprise separating flanks for the bars of the vertical busbar between which insulating ribs extend, wherein each insulating rib extends between two flanks and is not rectilinear, the separating flanks for the bars of the vertical busbar between which insulating ribs extend increasing an insulation distance between the bars at an interface between two successive modules, the insulation distance corresponding to a length of an electric creep path between the bars, wherein the flanks are not designed to be in contact with the bars. 2. The rack positioning assembly according to claim 1 , wherein each insulating rib is in the form of a broken line. 3. The rack positioning assembly according to claim 1 , wherein the insulation distance is equal to 25.4 mm. 4. The rack positioning assembly according to claim 1 , wherein each positioning module comprises: a first part, in which passage openings are arranged for electric connectors connecting a rack to the bars of the vertical busbar, a second part, positioned behind the first part, and a closing member, which is movable relative to the first part between a closed configuration in which the openings are closed off and an open configuration in which the openings are exposed. 5. The rack positioning assembly according to claim 4 , wherein the closing member is a grate, which is horizontally movable relative to the first part, in a direction parallel to the vertical positioning plane of the bars of the vertical busbar and which is positioned in the foreground of the modules, and wherein the grate comprises several openings and several bars, among which an end part is attachable to the first part when the closing member is in the closed configuration. 6. The rack positioning assembly according to claim 5 , wherein the end part is detachable from the first part by applying a transverse force oriented globally perpendicular to the vertical plane in which the bars of the vertical busbar are placed, wherein the end bar comprises a contact surface that is inclined relative to that plane, and wherein the force applied to detach the bar also causes a longitudinal movement of the grate relative to the first part. 7. The rack positioning assembly according to claim 4 , wherein each module comprises a return device configured to return the closing member to the closed configuration. 8. The rack positioning assembly according to claim 7 , wherein the return device comprises a flat spring attached to the first part, which exerts an elastic load force returning the closing member to its closed configuration. 9. An electric panel, comprising a cabinet, in which a horizontal power supply busbar is positioned provided to be connected to a vertical distributor busbar, said panel comprising a rack positioning assembly according to claim 1 . 10. The rack positioning assembly according to claim 1 , wherein at least one of the insulating ribs delimits a housing for receiving a bar of the vertical busbar. 11. The rack positioning assembly according to claim 1 , wherein at least one of the insulating ribs is U-shaped. 12. A method for assembling a rack positioning assembly including a vertical busbar configured to distribute electric current to electric appliances, said busbar comprising several bars, which are positioned in a same vertical plane and on which are provided connections to racks of the electric panel, and several rack positioning modules, which are positioned above one another, which surround the bars of the vertical busbar and which comprise separating flanks for the bars of the vertical busbar between which insulating ribs extend, the separating flanks for the bars of the vertical busbar between which insulating ribs extend increasing an insulation distance between the bars at an interface between two successive modules, the insulation distance corresponding to a length of an electric creep path between the bars, wherein each positioning module includes a first part, in which passage openings are arranged for electric connectors connecting a rack to the bars of the vertical busbar, a second part, positioned behind the first part, and a closing member, which is movable relative to the first part between a closed configuration in which the openings are closed off and an open configuration in which the openings are exposed, the method comprising: a) placing a metal enclosure with a U-shaped cross-section flat, with two side walls of the metal enclosure oriented vertically and an outer surface of a bottom of the metal enclosure in contact with a planar surface; b) fastening a second part of a first module to an inside of the metal enclosure, at a first end of the metal enclosure; c) assembling second parts of other modules one after another going from the first end of the metal enclosure to a second end of the metal enclosure, the first and second ends of the metal enclosure respectively being lower and upper ends of the metal enclosure in an assembled configuration of the assembly in the electric panel; d) positioning bars of the vertical busbar in housings of the second parts of each of the first and other modules; e) fastening the first part of the first module to the a top of the bars of the vertical busbar; and f) assembling first parts of the other modules one after another going from the first end of the metal enclosure to the second end of the metal enclosure.