Surgical instrument

What is claimed is: 1. A surgical instrument, comprising: a shaft extending between a distal end and a proximal end, wherein a deflectable articulation section is formed at the shaft, a proximal handling portion at the proximal end of the shaft, a distal effector at the distal end of the shaft, and a deflection mechanism for controlling a bending state of the articulation section, the deflection mechanism comprising a first pull element and a second pull element, wherein the first pull element and the second pull element are at least sectionally jointly pretensioned during the movement of the articulation section; wherein the first pull element is formed as a first pull wire and the second pull element is formed as a second pull wire that are arranged on opposite sides of a central axis of the shaft; wherein the pull elements each extend between a proximal coupling point and a distal coupling point in the shaft, and wherein the pull elements are each coupled at their proximal end with a control unit that comprises a pivotable control lever; and wherein the control unit comprises at the control lever a first guideway for the first pull element and a second guideway for the second pull element, wherein at the handling portion a first stationary guideway for the first pull element and a second stationary guideway for the second pull element is provided, wherein the first stationary guideway and the second stationary guideway at the handling portion are each inclined with respect to a longitudinal axis of the shaft, wherein the first pull element is coupled with the first stationary guideway at the handling portion and the first guideway of the control lever, and wherein the second pull element is coupled with the second stationary guideway at the handling portion and the second guideway of the control lever. 2. The instrument as claimed in claim 1 , wherein the first pull element and the second pull element are simultaneously subjected to tensile stress, in the same direction, when the articulation section is swiveled out or swiveled in. 3. The instrument as claimed in claim 1 , wherein the guideways for the first pull element and the second pull element are arranged for compensating a length offset between the first pull element and the second pull element that is caused by different bending radii of the first pull element and the second pull element during the deflection and return of the deflection mechanism. 4. The instrument as claimed in claim 1 , wherein the guideways for the first pull element and the second pull element are arranged such that when alternating between two bending states both pull elements are at least sectionally simultaneously subjected to tension when the control lever is pivoted. 5. The instrument as claimed in claim 1 , wherein the pull elements are made from a superelastic alloy. 6. The instrument as claimed in claim 1 , wherein the articulation section comprises a plurality of articulated links that are articulatedly connected in a series with each other, wherein the articulated links are provided with limit stops for defining at least one bending state without play, and wherein the limit stops of adjacent articulated links contact each other in a first state of the shaft and are spaced away from one another in a second state of the shaft. 7. The instrument as claimed in claim 6 , wherein the first state is a straight, undeflected state in which the shaft is in the central position, and wherein the second state is a deflected state of the shaft. 8. The instrument as claimed in claim 1 , wherein at least one friction increasing elastic clamping body is provided that secures the actual bending state of the shaft. 9. A surgical instrument, comprising: a shaft extending between a distal end and a proximal end, wherein a deflectable articulation section is formed at the shaft, a proximal handling portion at the proximal end of the shaft, a distal effector at the distal end of the shaft, and an interface where the instrument is demountable into a distal shaft assembly and a proximal handle piece, wherein the effector is controlled via an actuation mechanism that comprises a push piece, and that passes through the interface in a mounted state; wherein a locking bracket cooperates with the interface, the locking bracket being arranged to engage a retaining portion to secure an axial relative position between the shaft assembly and the handle piece, wherein the locking bracket is articulatedly arranged at the handle piece, and wherein the retaining portion is formed at the shaft assembly; and wherein the locking bracket is flexible and deformable to engage with and disengage from the retaining portion. 10. The instrument as claimed in claim 9 , wherein the interface comprises mating parts that comprise a male part and a female part that can be coupled with one another. 11. The instrument as claimed in claim 9 , wherein at the locking bracket a retaining arm is formed that at least sectionally encompasses the retaining portion, wherein the retaining arm comprises a position securing section and a widened release section, and wherein the retaining arm is formed on a distal end of the locking bracket. 12. The instrument as claimed in claim 9 , wherein the interface further comprises a rotary position lock arranged as a guide pin that engages an axially extending groove. 13. The instrument as claimed in claim 12 , wherein the actuation mechanism comprises at the interface a releasable coupling between a pressure piece at the proximal end of a push piece on the part of the shaft assembly for controlling the effector, and a slider on the part of the handle piece for applying force to the pressure piece to actuate the effector in a connected state of the interface. 14. A surgical instrument, comprising: a shaft extending between a distal end and a proximal end, wherein a deflectable articulation section is formed at the shaft, a proximal handling portion at the proximal end of the shaft, and a distal effector at the distal end of the shaft, wherein the effector is controlled via an actuation mechanism that comprises a push piece having a distal end that is coupled with the effector and a proximal end that is actuable by a pushing movement; wherein the effector comprises a first jaw part and a second jaw part that are pivotable with respect to one another when the push piece is displaced; and wherein the push piece is connected at a distal end thereof with a coupling piece that comprises a first driver for the first jaw part and a second driver for the second jaw part, wherein the first jaw part comprises a driving recess, wherein the second jaw part comprises a driving recess, wherein the first driver of the coupling piece engages the driving recess of the first jaw part, and wherein the second driver of the coupling piece engages the driving recess of the second jaw part. 15. The instrument as claimed in claim 14 , wherein the push piece is displaced distally to move the first jaw part and the second jaw part towards each other for closing. 16. The instrument as claimed in claim 14 , further comprising a head piece at the distal end of the shaft, wherein the first jaw part is pivotably mounted at the head piece, wherein the second jaw part is pivotably mounted at the head piece, and wherein pivot axes of the first jaw part and the second jaw part are parallel to and spaced away from one another. 17. The instrument as claimed in claim 16 , wherein the first jaw part comprises a first guideway, wherein the second jaw part comprises a second guideway, a