Dosing pump

The invention claimed is: 1. A dosing pump, comprising a pump chamber into which a fluid inlet opens at a first valve seat and from which a fluid outlet leads out at a second valve seat, a control element, and an actuator coupled to the control element to move the control element, the pump chamber being varied in terms of volume by moving the control element, and the second valve seat being alternatingly closed and opened to pump fluid from the pump chamber into the fluid outlet, and wherein the control element is movably mounted by at least a first flexure hinge, the first flexure hinge being positioned between a first plate-shaped part and an arm, the first flexure hinge being a thin portion having a reduced cross-section with respect to the first plate-shaped part for permitting pivoting of the arm with respect to the first plate-shaped part, the arm having an upwardly angled arm portion relative to the first flexure hinge, wherein the first plate-shaped part is integrally formed, via the first flexure hinge, with the upwardly angled arm portion. 2. The dosing pump according to claim 1 , wherein the control element includes a freely projecting arm hinged directly to the first flexure hinge and an actuating element extending from the arm and acted upon by the actuator. 3. A dosing pump, comprising a pump chamber into which a fluid inlet opens at a first valve seat and from which a fluid outlet leads out at a second valve seat, a control element, and an actuator coupled to the control element to move the control element, the pump chamber being varied in terms of volume by moving the control element, and the second valve seat being alternatingly closed and opened to pump fluid from the pump chamber into the fluid outlet, and wherein the control element is movably mounted by at least a first flexure hinge, the first flexure hinge being a portion of a component that has a deliberate reduction in cross-section that connects a rigid portion and an arm, wherein the control element includes the arm hinged directly to the first flexure hinge and an actuating element extending from the arm and acted upon by the actuator, the arm includes an upwardly angled arm portion relative to the first flexure hinge, wherein the arm and the actuating element transition into each other in one piece, and wherein the first flexure hinge permits pivoting the arm with respect to the rigid portion. 4. The dosing pump according to claim 1 , wherein the holding section is fastened to the control element so as to be non-destructively detachable. 5. The dosing pump according to claim 1 , wherein a lever arm between the first flexure hinge and an effective center of the actuator corresponds to at least 3 times a lever arm between the first flexure hinge and a second flexure hinge. 6. A dosing pump, comprising a pump chamber into which a fluid inlet opens at a first valve seat and from which a fluid outlet leads out at a second valve seat, a control element, and an actuator coupled to the control element to move the control element, the pump chamber being varied in terms of volume by moving the control element, and the second valve seat being alternatingly closed and opened to pump fluid from the pump chamber into the fluid outlet, and wherein the control element is movably mounted by at least a first flexure hinge, the first flexure hinge being a portion of a component that has a deliberate reduction in cross-section that connects a rigid portion and an arm, wherein the control element includes the arm hinged directly to the first flexure hinge and an actuating element extending from the arm and acted upon by the actuator, the arm includes an upwardly angled arm portion relative to the first flexure hinge, wherein the flexure hinge permits pivoting of the arm with respect to the rigid portion, wherein the dosing pump is a diaphragm pump, and a diaphragm delimits and varies the pump chamber, the control element being mechanically coupled to the diaphragm, the diaphragm being lifted and downed by one single part only which is a tappet attached to the control element, the control element being connected to the membrane by the tappet, only. 7. The dosing pump according to claim 6 , wherein the control element is mechanically coupled to the diaphragm by a tappet. 8. The dosing pump according to claim 1 , wherein the dosing pump is a diaphragm pump, and a diaphragm delimits and varies the pump chamber, the control element being mechanically coupled to the diaphragm and wherein the diaphragm is clamped between inner and outer parts, of which the outer part includes the fluid inlet and the fluid outlet and the inner part has a retainer for the tappet. 9. The dosing pump according to claim 8 , further comprising a second flexure hinge, wherein the second flexure hinge is located in a gap between the control element and the inner part. 10. The dosing pump according to claim 8 , wherein the control element extends as an angled arm from the first flexure hinge around the inner part to extend between the actuator and the diaphragm. 11. The dosing pump according to claim 1 , wherein the first flexure hinge is intersected by a plane that is defined by a neutral position of the diaphragm or at least one valve seat. 12. The dosing pump according to claim 1 , wherein the actuator is a Lorentz force actuator, and an air-core coil or permanent magnets are provided at the control element. 13. The dosing pump according to claim 1 , wherein a respective non-return valve is positioned at each of the fluid inlet and the fluid outlet. 14. The dosing pump according to claim 1 , wherein the first flexure hinge has an oblong shape in cross-section and, in its longitudinal direction, extends perpendicularly, parallel or obliquely to a plane that is defined by a neutral position of the diaphragm or at least one valve seat. 15. The dosing pump according to claim 1 , wherein the control element is coupled to a tappet which is adjacent to the pump chamber and connected to the control element via a second flexure hinge, wherein the tappet integrally transitions, via the second flexure hinge, into a holding section which in turn is fastened to the control element.