Milling tool and coolant sleeve therefor

1 . A milling tool comprising: a shank portion; and a head portion extending from the shank portion; a rotation axis extends along the shank portion and defining: a forward direction from the shank portion towards the head portion; a rearward direction opposite to the forward direction; a radially-outward direction perpendicular to the forward and rearward directions and directed outwardly from the rotation axis; a radially-inward direction opposite to the radially outward-direction; a rotation direction; and a counter-rotation direction opposite to the rotation direction; the shank portion comprising: a shank rear end; a shank forward end located closer than the shank rear end to the head portion; and a shank external surface; the head portion comprising: a head external surface; a head internal surface located closer than the head external surface to the shank portion; and a head coolant inlet opening out to the head internal surface; a head coolant outlet opening out to the head external surface; a head coolant passageway extending from the head coolant inlet to the head coolant outlet; the head external surface comprising: a plurality of alternating flutes and cutting portions; each cutting portion comprises a cutting element recess; wherein: the head internal surface is formed with a peripherally extending head coolant obstruction arrangement comprising a head ridge which extends rearward of an adjacent head portion of the head internal surface, the adjacent head portion being located radially inward of the head ridge. 2 . The milling tool according to claim 1 , wherein the head ridge is shaped as an annular lip. 3 . The milling tool according to claim 1 , wherein the head coolant obstruction arrangement comprises an additional head ridge which extends rearward of the adjacent head portion and is located radially inward of the adjacent head portion. 4 . The milling tool according to claim 3 , wherein the additional head ridge is shaped as an annular lip. 5 . The milling tool according to claim 1 , wherein at the shank rear end, the shank external surface is formed with a peripherally extending shank coolant obstruction arrangement comprising a shank ridge which extends radially outward of an adjacent shank portion of the shank external surface, the adjacent shank portion located forward of the shank ridge. 6 . The milling tool according to claim 5 , wherein the shank ridge is shaped as an annular lip. 7 . The milling tool according to claim 5 , wherein the shank coolant obstruction arrangement comprises an additional shank ridge which extends radially outward of the adjacent shank portion and is located forward of the adjacent shank portion. 8 . The milling tool according to claim 1 , wherein the cutting element recess has a centerpoint and a central plane containing the centerpoint; and the head coolant passageway comprises a linear portion extending to the head coolant outlet, the linear portion defining a passageway plane extending parallel adjacent to the head coolant outlet; wherein the passageway plane is directed more in the forward direction than towards the central plane such that it forms an off-center angle β therewith. 9 . The milling tool according to claim 8 , wherein the off-center angle β fulfills the condition: 5°<β<40°. 10 . The milling tool according to claim 1 , wherein the head coolant outlet is elongated. 11 . The milling tool according to claim 10 , wherein the head coolant outlet is elongated in an elongation direction, a head coolant outlet height HO is measured parallel to an elongation direction, and the milling tool further comprises a cutting element directly adjacent to the head coolant outlet, the cutting element having a cutting element height HC, measured parallel to an elongation direction, fulfilling the condition: 0.1 HC<HO<HC. 12 . The milling tool according to claim 1 , wherein the head coolant outlet is closer to the cutting element recess than any other adjacent surface of the cutting portion. 13 . The milling tool according to claim 12 , wherein in a side view of a cutting element, the head coolant outlet is directly adjacent to the cutting element. 14 . The milling tool according to claim 1 , wherein there are at least eight cutting portions. 15 . The milling tool according to claim 1 , wherein the milling tool comprises one or more cutting elements which are made of a superhard material. 16 . A coolant sleeve having a basic cylindrical shape and comprising: a machine end comprising a connection arrangement; a lower end opposite to the machine end; a sleeve external surface connecting the machine end and the lower end; a sleeve internal surface connecting the machine end and the lower end, and located closer than the sleeve external surface to the shank portion; a sleeve coolant inlet opening out to the sleeve external surface; a sleeve coolant outlet opening out to the sleeve internal surface; a sleeve coolant passageway extending from the sleeve coolant inlet to the sleeve coolant outlet; a sleeve axis defining: a forward direction from the machine end towards the lower end; a rearward direction opposite to the forward direction; a radially-outward direction perpendicular to the forward and rearward directions and directed outwardly from the sleeve axis; and a radially-inward direction opposite to the radially outward-direction; wherein: the lower end is formed with a peripherally extending sleeve coolant obstruction arrangement comprising a sleeve ridge which extends forward of an adjacent sleeve portion of the lower end, the adjacent sleeve portion located radially inward of the sleeve ridge. 17 . The coolant sleeve according to claim 16 , wherein the sleeve coolant obstruction arrangement comprises an additional sleeve ridge which extends forward of the adjacent sleeve portion, the additional sleeve ridge being located radially inward of the adjacent sleeve portion. 18 . A tool assembly comprising: a milling tool according to claim 1 ; a coolant sleeve having a basic cylindrical shape secured to the milling tool; and at least one cutting element mounted to the milling tool. 19 . A tool assembly according to claim 18 , wherein the coolant sleeve comprises: a machine end having a connection arrangement; a lower end opposite to the machine end; a sleeve external surface connecting the machine end and the lower end; a sleeve internal surface connecting the machine end and the lower end, and located closer than the sleeve external surface to the shank portion; a sleeve coolant inlet opening out to the sleeve external surface; a sleeve coolant outlet opening out to the sleeve internal surface; a sleeve coolant passageway extending from the sleeve coolant inlet to the sleeve coolant outlet; a sleeve axis defining: a forward direction from the machine end towards the lower end; a rearward direction opposite to the forward direction; a radially-outward direction perpendicular to the forward and rearward directions and directed outwardly from the sleeve axis; and a radially-inward direction opposite to the radially outward-direction; wherein: the lower end is formed with a peripherally extending sleeve coolant obstruction arrangement comprising a sleeve ridge which extends forward of an adjacent sleeve portion of the lower end, the adjacent sleeve portion located radially inward of the sleeve ridge. 20 . A tool assembly according to claim 19 , wherein the sleeve encir