Rolling bearing cage or cage element

The invention claimed is: 1. A rolling-element bearing-cage or -cage-element, comprising at least one bridge region extending in an axial direction (a), wherein the bridge region includes two guide surfaces for rolling elements on two sides facing away from each other, wherein at least one receiving space configured to receive lubricant is disposed in the rolling-element bearing-cage or -cage-element, wherein a single fluid channel extending in the interior of the rolling-element bearing-cage or -cage-element leads from the at least one receiving space to each guide surface, wherein the at least one receiving space is disposed in the radially outer bridge region and, seen in the axial direction (a), has a V-shaped cross-sectional shape, wherein the fluid channel opens in a region of the guide surface that is recessed with respect to the guide surface, wherein the fluid channel has a rectangular cross-section and extends over a width of the recessed region of the guide surface, wherein the fluid channel fall off from the receiving space at an acute angle to the radial direction and wherein an axial extension of the at least one receiving space corresponds to the axial extension of the recessed regions. 2. The rolling-element bearing-cage or -cage-element according to claim 1 , wherein an offset amount (s) of the recessed region with respect to each guide surface, measured normal to the guide surface, is between 0.4% and 2.5% of a diameter (D) of the rolling elements. 3. The rolling-element bearing-cage or -cage-element according to claim 1 , wherein single recessed region is disposed centrally between two axial end regions of the guide surfaces. 4. The rolling-element bearing-cage or -cage-element according to claim 1 , wherein each recessed region ends before reaching a radially outer and/or a radially inner edge of the rolling-element bearing-cage or -cage-element. 5. The rolling-element bearing cage according to claim 1 , further including two side rings, between which the at least one bridge region extends in order to form a number of receiving pockets, wherein the number corresponds to the number of rolling elements. 6. The rolling-element bearing cage-element according to claim 1 configured as a cage segment configured to be placed between two adjacent rolling elements with no connection to a side ring. 7. The rolling-element bearing-cage or -cage-element according to claim 1 , wherein an offset amount of the recessed region with respect to each guide surface, measured normal to the guide surface, is between 0.4% and 2.5% of a diameter (D) of the rolling elements, wherein recessed region is disposed centrally between two axial end regions of the guide surfaces, wherein each recessed region ends before reaching a radially outer and/or a radially inner edge of the rolling-element bearing-cage or -cage-element, and further including two side rings, between which the at least one bridge region extends in order to form a number of receiving pockets. 8. A rolling-element bearing cage or cage element, comprising: at least one axial bridge region having a first guide surface and a second guide surface facing away from the first guide surface, the first guide surface and the second guide surface being configured to guide rolling elements, the first guide surface and the second guide surface each including a recessed region located axially between first and second non-recessed regions, at least one receiving space in a radial outer surface of the rolling-element bearing cage or cage element configured to receive lubricant, the at least one receiving space having a substantially V-shaped cross section, and a single first fluid channel having a first longitudinal axis extending from the at least one receiving space to the recessed region of the first guide surface and a single second fluid channel having a second longitudinal axis extending from the at least one receiving space to the recessed region of the second guide surface, wherein the first fluid channel and the second fluid channel each have a rectangular cross section, wherein the first fluid channel has an axial width substantially equal to an axial width of the recessed region of the first guide surface and the second fluid channel has an axial width substantially equal to an axial width of the recessed region of the second guide surface, wherein the first longitudinal axis makes a first acute angle with a radial direction and the second longitudinal axis makes a second acute angle with the radial direction, and wherein an axial width of the receiving space is substantially equal to an axial width of the recessed region of the first guide surface. 9. The rolling-element bearing cage or cage element according to claim 8 , wherein the recessed portion of the first guide surface is recessed relative to the first and second non-recessed regions by 0.4% to 2.5% of a diameter of the rolling elements. 10. The rolling-element bearing cage or cage element according to claim 8 , wherein the recessed region of the first guide surface is the only recessed region on the first guide surface and wherein the recessed region of the second guide surface is the only recessed region on the second guide surface.