Cage for a toroidal roller bearing

1. A cage for separating rollers in a toroidal roller bearing having an outer and an inner ring, the toroidal roller bearing allowing for axial and angular displacement between the outer and inner ring, the cage comprising,a first and second annular ring displaced axially from each other,a plurality of elongated axial members interposed between the first and second annular ring and thereby forming a number of roller pockets, each roller pocket meant to receive at least one roller element,a portion extending radially inwardly on at least one of the first and second annular ring, the portion is at least partly located at a radius being smaller than the radial location of the elongated axial members, the portion further extending in at least a part of the circumference of the at least one first and second annular ring,wherein a radially outer peripheral surface of the at least one of the first and second annular ring presents axial grooves at least at the circumference having the portion, each of the axial grooves is located at the axial end face of each roller pocket in such a way that a roller can be inserted and pulled out via the axial groove into and out of each roller pocket, the axial grooves each having a groove radius equal to a roller element radius, the first and second annular ring being flexible such that the first and second annular ring can be compressed from a first position in which the first and second annular rings are circularly shaped and configured for operation in the toroidal roller bearing and a second position in which at least one of the first and second annular rings attains an oval shape such that the at least one roller element can be removed from the cage while the cage remains positioned between the inner and outer rings of the toroidal roller bearing.