Linear drive and piston pump arrangement

What is claimed is: 1. A linear drive, comprising: a first electromagnetic drive device; a second electromagnetic drive device; and a drive piston including an armature carrier formed of a non-magnetic or magnetically passive material, the armature carrier having armature elements fastened thereto, the armature elements being spaced apart from each other along the armature carrier, the armature elements along with the drive piston and the armature carrier being configured to be moved in a first axial direction by the first drive device and a second axial direction by the second drive device, wherein the first drive device and the second drive device are each in the form of a reluctance drive device, and wherein each of the reluctance drive devices has (i) a stator with a coil winding, the coil winding engaging around the armature carrier of the drive piston in a circumferential direction, and (ii) a coil core which has a coil receptacle, open in a radial direction toward the armature carrier of the drive piston, for the coil winding, wherein the coil core of each of the reluctance drive devices is assigned a respective one of the armature elements arranged on the armature carrier of the drive piston, wherein each of the coil cores has two free ends, and wherein each of the armature elements has two armature arms which, in the radial direction, face the two free ends of the respective coil core to which the armature element is assigned. 2. The linear drive according to claim 1 , wherein the coil receptacle of the coil core of each of the reluctance drive devices is delimited in the axial direction by the two free ends of the respective coil core of the reluctance drive devices, which point in the radial direction toward the drive piston, of the coil core. 3. The linear drive according to claim 1 , wherein the coil core of each of the reluctance drive devices has the same axial extent as the armature element assigned thereto. 4. The linear drive according to claim 1 , wherein the two armature arms have the same dimensions in the axial direction as the two free ends of the coil core to which the armature element is assigned. 5. The linear drive according to claim 1 , wherein the armature elements have a greater spacing from one another in the axial direction than the coil cores. 6. The linear drive according to claim 1 , wherein the armature elements are arranged relative to one another such that, when one of the armature elements is in a position of congruence with respect to the corresponding coil core, the respective other armature element is displaced out of its position of congruence, the position of congruence being a position of minimum reluctance with respect to the corresponding coil core. 7. The linear drive according to claim 1 , further comprising a restoring spring element operatively connected to the drive piston. 8. The linear drive according to claim 1 , further comprising: a piston pump that is actuated by the drive piston. 9. A piston pump arrangement, comprising: a piston pump including a pump piston; and a linear drive configured to actuate the pump piston, the linear drive including: a first electromagnetic drive device; a second electromagnetic drive device; and a drive piston including an armature carrier formed of a non-magnetic or magnetically passive material, the armature carrier having armature elements fastened thereto, the armature elements being spaced apart from each other along the armature carrier, the armature elements along with the drive piston and the armature carrier being configured to be moved in a first axial direction by the first drive device and a second axial direction by the second drive device, wherein the first drive device and the second drive device are each in the form of a reluctance drive device, and wherein each of the reluctance drive devices has (i) a stator with a coil winding, the coil winding engaging around the armature carrier of the drive piston in a circumferential direction, and (ii) a coil core which has a coil receptacle, open in a radial direction toward the armature carrier of the drive piston, for the coil winding, wherein the coil core of each of the reluctance drive devices is assigned a respective one of the armature elements arranged on the armature carrier of the drive piston, wherein each of the coil cores has two free ends, and wherein each of the armature elements has two armature arms which, in the radial direction, face the two free ends of the respective coil core to which the armature element is assigned. 10. A linear drive, comprising: a first electromagnetic drive device; a second electromagnetic drive device; and a drive piston configured to be moved in a first axial direction by the first drive device and a second axial direction by the second drive device, wherein the first drive device and the second drive device are each in the form of a reluctance drive device, and wherein each of the reluctance drive devices has (i) a stator with a coil winding, the coil winding engaging around the drive piston in a circumferential direction, and (ii) a coil core which has a coil receptacle, open in a radial direction toward the drive piston, for the coil winding, wherein the coil core of each of the reluctance drive devices is assigned an armature element arranged on the drive piston, wherein each of the coil cores has two free ends, wherein each of the armature elements has two armature arms which, in the radial direction, face the two free ends of the respective coil core to which the armature element is assigned, and wherein the coil core of each of the reluctance drive devices is formed of a plurality of core segments which are distributed uniformly about a circumference of the drive piston. 11. A linear drive, comprising: a first electromagnetic drive device; a second electromagnetic drive device; and a drive piston configured to be moved in a first axial direction by the first drive device and a second axial direction by the second drive device, wherein the first drive device and the second drive device are each in the form of a reluctance drive device, and wherein each of the reluctance drive devices has (i) a stator with a coil winding, the coil winding engaging around the drive piston in a circumferential direction, and (ii) a coil core which has a coil receptacle, open in a radial direction toward the drive piston, for the coil winding, wherein the coil core of each of the reluctance drive devices is assigned an armature element arranged on the drive piston, wherein each of the coil cores has two free ends, wherein each of the armature elements has two armature arms which, in the radial direction, face the two free ends of the respective coil core to which the armature element is assigned, and wherein a total axial extent of the armature elements along the drive piston is greater than a total axial extent of the coil cores of the reluctance drive devices.