Profiled clamp

The invention claimed is: 1. A profile clamp for connecting two pipe ends, the profile clamp comprising: a first half shell and a second half shell, each having a tensioning head at a first end and a connecting geometry at a second end for releasably connecting the second ends, the tensioning heads being connectable to one another by a tensioning element, wherein at least one of the first half shell and the second half shell is arranged substantially rigid with respect to the tensioning element and the other half shell being tiltable relative to the tensioning element; and a spring element configured to press the second ends of the half shells apart under pretension, the spring element having two legs, each of which abut against a respective inner side of the half shells, and wherein one of the legs extends from a first end of an inverted V-shaped portion and the other from a second end of the inverted V-shaped portion, the inverted V-shaped portion of the spring element is arranged in the region of the tensioning heads and includes openings through which the tensioning element extends to retain the spring element; wherein, at a distal end of each leg, an end region is formed that extends radially inward away from the respective inner sides of the half shells at an angle relative to the legs, wherein contact regions are formed on a radial inner side of the spring element on each end region such that during the connection of the second ends, the contact regions come to bear against the pipe ends in a friction-locking manner. 2. The profile clamp as claimed in claim 1 , wherein the end regions extend at an angle of 90° to 180° with respect to the legs. 3. The profile clamp as claimed in claim 1 , wherein the contact regions are formed at a bent portion of the end regions. 4. The profile clamp as claimed in claim 3 , wherein the bent portions of the spring element can be inserted into the pipe end. 5. The profile clamp as claimed in claim 1 , wherein at least the contact regions have a coating on the surface with which the friction between the contact regions and the pipe ends can be increased. 6. The profile clamp as claimed in claim 1 , wherein the spring element is produced from a spring steel sheet by means of a punching and bending process. 7. The profile clamp as claimed in claim 6 , wherein the spring element has a sheet thickness of approximately 0.2 mm to 1 mm. 8. The profile clamp as claimed in claim 1 , wherein the contact regions are formed at a bent portion of the end regions, wherein the bent portions of the spring element are inserted into the pipe end in a form-locking manner. 9. A spring element for a profile clamp that connects two pipe ends, the profile clamp having first and second half shells, each of the half shells having a tensioning head at a first end and a connecting geometry at a second end for releasably connecting the second ends, the spring element comprising: two legs, each of which abut against a respective inner side of the half shells, and wherein one of the legs extends from a first end of an inverted V-shaped portion and the other from a second end of the inverted V-shaped portion, the inverted V-shaped portion of the spring element is arranged in the region of the tensioning heads and includes openings through which a tensioning element extends to retain the spring element; an end region formed at a distal end of each leg, the end regions extending radially inward away from the respective inner sides of the half shells at an angle relative to the legs, contact regions formed on a radial inner side of the spring element on each of the end regions such that during the connection of the second ends of the half shells, the contact regions come to bear against the pipe ends in a friction-locking manner during the closing of the half shells. 10. The spring element as claimed in claim 9 , wherein at least the contact regions have a coating on the surface, with which the friction between the contact regions and the pipe ends can be increased. 11. The spring element as claimed in claim 9 , wherein the contact regions are formed at a bent portion of the end regions, wherein the bent portions of the spring element are inserted into the pipe end in a form-locking manner. 12. The spring element as claimed in claim 9 , wherein the contact regions are formed at a bent portion of the end regions. 13. The spring element as claimed in claim 9 , wherein the spring element is produced from a spring steel sheet by means of a punching and bending process. 14. The spring element as claimed in claim 13 , wherein the spring element has a sheet thickness of approximately 0.2 mm to 1 mm. 15. The spring element as claimed in claim 9 , wherein the end regions extend at an angle of 90° to 180° with respect to the legs.