Clamping device for tool holder

The invention claimed is: 1. A clamping device arranged for releasably holding a tool holder shank, the clamping device comprising: a housing; a spindle rotatably mounted inside the housing and having a front end, a rear end and a bore which intersects the front end and extends rearwardly therefrom, wherein a mounting portion for receiving the tool holder shank is provided at a front end of the bore; a drawbar slidably mounted inside the bore so as to be reciprocally moveable in the bore along a longitudinal axis thereof between an advanced releasing position and a retracted locking position; a plurality of engagement members arranged around the drawbar at a front end thereof, wherein the engagement members, under the effect of a movement of the drawbar from the advanced releasing position to the retracted locking position, are moveable from a first position, in which the engagement members allow the tool holder shank to move into and out of said mounting portion of the bore, to a second position, in which the engagement members are in locking engagement with the tool holder shank and keep the tool holder shank secured to the spindle; an actuating member arranged inside the housing, wherein the actuating member is slidably mounted to the spindle so as to be moveable in relation to the spindle in the axial direction thereof, a motion transferring mechanism arranged inside the housing, wherein the motion transferring mechanism is mounted to the spindle and configured to transfer a movement of the actuating member in a first axial direction in relation to the spindle into a movement of the drawbar from the advanced releasing position to the retracted locking position; two or more hydraulic actuators arranged in or mounted on the housing on different sides of the spindle and configured to move the actuating member axially in relation to the spindle, wherein each hydraulic actuator includes one or more piston members, each of the piston members being slidably received in a space of the hydraulic actuator at the side of and at a distance from the spindle so as to be hydraulically moveable axially in this space in parallel with the longitudinal axis; and a connecting element at least partly arranged inside the housing and configured to form a connection in radial direction between the actuating member and the piston members of the hydraulic actuators, wherein the connecting element is configured to transfer an axial movement of the piston members in relation to the housing into a corresponding axial movement of the actuating member in relation to the spindle, wherein the connecting element includes a central part through which the connecting element is connected to the actuating member, and several arms, one for each hydraulic actuator, through which the connecting element is connected to the piston members of the hydraulic actuators, wherein each arm is fixed to the central part and projects from the central part in radial direction, and wherein each hydraulic actuator includes two piston members the two piston members being first and second piston members, the first and second piston members being arranged opposite each other and in alignment with each other, wherein each one of said first and second piston members has a first side facing the other piston member and an opposite second side facing away from the other piston member, wherein a first hydraulic chamber is formed in said space of the hydraulic actuator on the second side of the first piston member and a second hydraulic chamber is formed in this space on the second side of the second piston member, wherein each one of said arms of the connecting element has a part received in an interspace between the first and second piston members of the associated hydraulic actuator, and wherein the connecting element is moveable in said first axial direction by feeding of hydraulic fluid into the first hydraulic chamber of each hydraulic actuator and in an opposite second axial direction by feeding of hydraulic fluid into the second hydraulic chamber of each hydraulic actuator. 2. The clamping device according to claim 1 , wherein the actuating member is configured to assume a self-locking axial position in or on the spindle when the drawbar has been forced into the retracted locking position under the effect of the actuating member and the motion transferring mechanism, so as to thereby keep the drawbar in the retracted locking position. 3. The clamping device according to claim 1 , wherein said hydraulic actuators are two in number and arranged opposite each other on opposite sides of the spindle. 4. The clamping device according to claim 1 , wherein the first and second piston members of each hydraulic actuator are fixedly connected to each other in order to be axially moveable together with each other. 5. The clamping device according to claim 4 , wherein the first and second piston members of each hydraulic actuator are connected to each other via a shaft, which extends across the interspace between the first and second piston members and through a recess in the part of the arm received in this interspace. 6. The clamping device according to claim 5 , wherein the connecting element is suspended on the shafts arranged between the first and second piston members of the hydraulic actuators. 7. The clamping device according to claim 6 , wherein each of the shafts is received with play in the recess of the associated arm, wherein one or more elastic elements, are arranged around the shaft and fitted between the shaft and the arm inside the recess in order to provide an elastic connection between the connecting element and the shaft. 8. The clamping device according to claim 1 , wherein each arm is configured to contact the contact surfaces on the opposed first sides of the first and second piston members of respective hydraulic actuator via contact surfaces on opposite sides of the part of the arm received in the interspace between the piston members, wherein said contact surfaces on the arm or said contact surfaces on the first and second piston members are convexly curved in order to provide linear contact between the arm and the piston members. 9. The clamping device according to claim 1 , wherein the actuating member has a form of a sleeve, wherein the actuating member is arranged around a peripheral wall of the spindle and slidably mounted to this peripheral wall so as to be axially moveable in relation to the spindle, and wherein the actuating member is rotatable in relation to the connecting element together with the spindle. 10. The clamping device according to claim 9 , wherein the actuating member extends through a recess with circular cross-sectional shape in a central part of the connecting element. 11. The clamping device according to claim 9 , wherein the motion transferring mechanism includes two or more wedges spaced apart in the circumferential direction of the spindle, each wedge being received in a respective aperture that extends radially through said peripheral wall of the spindle, wherein the wedges are configured to press the drawbar towards the retracted locking position when they are pressed radially inwards in the associated apertures, wherein each wedge includes a first pressure receiving surface which faces outwards from the spindle, wherein the actuating member on its inner side is provided with a first pressure applying surface which faces inwards for contacting the first pressure receiving surface on each wedge, the first pressure applying surface having a radial distance to the longitudinal axis that increases as seen in said first axial direction, and wherein the first pressure applying surface is configured to press each wedge radially