Unshrouded turbomachine impeller with improved rigidity

The invention claimed is: 1. An unshrouded turbomachine impeller comprising: a rotation axis; a hub; a plurality of sequentially arranged blades, each blade extending from a blade root at the hub to a blade tip and comprising a first blade edge, a second blade edge, a first side surface defining a pressure side of the respective blade and a second side surface opposite the first side surface defining a suction side of the respective blade, the first blade edge and the second blade edge extending from the hub to the blade tip, and the pressure side and the suction side extending from the first blade edge to the second blade edge and from the blade root to the blade tip; a flow vane arranged between each pair of neighboring blades; and a plurality of connection members, each connection member spanning across and extending through a flow vane formed between a respective pair of neighboring blades and connecting a first modal displacement region at a certain frequency of a first blade of said pair of neighboring blades to a second modal displacement region at said frequency of a second blade of said pair of neighboring blades, wherein each connection member extends from the first side surface of the first blade of said pair of neighboring blades to the second side surface of the second blade of said pair of neighboring blades, or vice versa, and does not perforate either of the first and second side surfaces. 2. The turbomachine impeller of claim 1 , wherein the first blade edge is located at a first radial distance from the rotation axis and the second blade edge is located at a second radial distance from the rotation axis the first radial distance being smaller than the second radial distance. 3. The turbomachine impeller of claim 1 , wherein the first modal displacement region is located proximate the blade tip and proximate the first blade edge, and the second modal displacement region is located in an intermediate position between the first blade edge and the second blade edge. 4. The turbomachine impeller of claim 1 , wherein each connection member is rigidly or monolithically connected to the first modal displacement region of a first one of said pair of neighboring blades at a first distance from the respective blade tip, and to the second modal displacement region of the second one of said pair of neighboring blades at a second distance from the respective blade tip, the first distance being smaller than the second distance. 5. The turbomachine impeller of claim 1 , wherein each connection member is constrained to the first modal displacement region of a first one of said pair of neighboring blades at a first distance from the respective first blade edge thereof, and to the second modal displacement region of the second one of said pair of neighboring blades at a second distance from the respective first blade edge thereof, the first distance being smaller than the second distance. 6. The turbomachine impeller of claim 3 , wherein the first ends of the connection members are positioned along a first circumference centered on the rotation axis and second ends of connection members are positioned along a second circumference centered on the rotation axis. 7. The turbomachine impeller of claim 1 , wherein the connection members have an aerodynamic profile. 8. The turbomachine impeller of claim 1 , wherein each connection member extends approximately orthogonal to lines of flow in the respective flow vane. 9. A turbomachine comprising a casing and at least one turbomachine impeller according to claim 1 , mounted for rotation in the casing. 10. A method for producing a turbomachine impeller according to claim 1 , the method comprising the steps of: manufacturing an impeller body comprised of a hub and a plurality of sequentially arranged blades, extending from a front surface of the hub to respective blade tips, and defining a plurality of flow vanes between pairs of neighboring blades; and arranging in each flow vane a connection member having a first end and a second end, the first end rigidly or monolithically connected to a first side surface of one of a pair of neighboring blades, and the second end rigidly or monolithically connected to a second side surface one of said pair of neighboring blades, the first and second side surfaces forming the pressure and suction sides of respective blades, wherein the connection member does not perforate either of the first and second side surfaces of the respective blades it is connected to. 11. A method for manufacturing a turbomachine impeller of claim 1 , comprising the step of machining the hub, the blades and the connection members by full milling from a single piece.