Spinning station of an air jet spinning machine

The invention claimed is: 1. A spinning position on an air-jet spinning machine, which serves to produce a yarn from a fiber strand consisting of fibers, comprising: a turbulence chamber with an inlet port for the fiber strand entering the turbulence chamber in a direction of conveyance during operation of the air-jet spinning machine; a yarn-forming element extending into the turbulence chamber, the yarn-forming element having an intake mouth and a draw-off channel through which yarn is drawn off out of the turbulence chamber; air jets directed into the turbulence chamber, the air jets opening into the turbulence chamber in a wall surrounding the turbulence chamber, such that air can be introduced through these jets into the turbulence chamber in a predefined direction to impart to the fiber strand a twist in the area of an intake mouth of the yarn-forming element; a guide arrangement situated in the area of the inlet port of the turbulence chamber, the guide arrangement further comprising at least two guide sections spaced a distance apart from one another that decreases in at least some sections in the direction of conveyance of the fiber strand; the guide arrangement further comprising at least one central guide element that extends at least partially between the guide sections viewed in a section running perpendicular to a longitudinal axis of the draw-off channel and producing a deflection of the fibers of the fiber strand perpendicular to the longitudinal axis of the draw-off channel; and wherein the guide sections are formed by one of mandrels or guide plates that extend from a wall surrounding the inlet port of the turbulence chamber towards the inlet mouth of the yarn-forming element. 2. The spinning position according to claim 1 , wherein the central guide element runs along one of the longitudinal axis of the draw-off channel or a central longitudinal axis of the inlet port of the turbulence chamber. 3. The spinning position according to claim 2 , wherein the longitudinal axis of the draw-off channel is collinear with the central longitudinal axis of the inlet port of the turbulence chamber. 4. The spinning position according to claim 1 , wherein an end of the central guide element oriented towards the outlet port of the draw-off channel is positioned between the intake mouth of the yarn-forming element and the inlet port of the turbulence chamber. 5. The spinning position according to claim 1 , wherein the central guide element extends further in a direction towards the outlet port of the draw-off channel than the guide sections. 6. The spinning position according to claim 1 , wherein one or both of the guide sections and the central guide element extend into the draw-off channel. 7. The spinning position according to claim 1 , wherein a minimal distance between the guide sections is greater than a minimal distance between the guide sections and the central guide element facing the outlet port of the draw-off channel. 8. The spinning position according to claim 1 , wherein the guide sections each have a first end towards the outlet port of the draw-off channel and an opposite end away from the outlet port of the draw-off channel, the central guide element having a first end towards the outlet port of the draw-off channel with a section running parallel to a longitudinal axis of the draw-off channel between the first ends of the guide sections. 9. The spinning position according to claim 1 , wherein the central guide element has a first end towards the outlet port of the draw-off channel, the guide sections each have a first end towards the outlet port of the draw-off channel, wherein the first ends of the guide sections are arranged concentrically around the first end of the central guide element view in a section that is perpendicular to a longitudinal axis of the draw-off channel. 10. A spinning position on an air-jet spinning machine, which serves to produce a yarn from a fiber strand consisting of fibers, comprising: a turbulence chamber with an inlet port for the fiber strand entering the turbulence chamber in a direction of conveyance during operation of the air-jet spinning machine; a yarn-forming element extending into the turbulence chamber, the yarn-forming element having an intake mouth and a draw-off channel through which yarn is drawn off out of the turbulence chamber; air jets directed into the turbulence chamber, the air jets opening into the turbulence chamber in a wall surrounding the turbulence chamber, such that air can be introduced through these jets into the turbulence chamber in a predefined direction to impart to the fiber strand a twist in the area of an intake mouth of the yarn-forming element; a guide arrangement situated in the area of the inlet port of the turbulence chamber, the guide arrangement further comprising at least two guide sections spaced a distance apart from one another that decreases in at least some sections in the direction of conveyance of the fiber strand; the guide arrangement further comprising at least one central guide element that extends at least partially between the guide sections viewed in a section running perpendicular to a longitudinal axis of the draw-off channel and producing a deflection of the fibers of the fiber strand perpendicular to the longitudinal axis of the draw-off channel; and wherein a minimal distance between the guide sections is less than a diameter of the draw-off channel in an area of the intake mouth of the yarn-forming element. 11. The spinning position according to claim 1 , wherein the guide sections define an angle relative to a longitudinal axis of the draw-off channel between 10 degrees and 50 degrees. 12. A spinning position on an air-jet spinning machine, which serves to produce a yarn from a fiber strand consisting of fibers, comprising: a turbulence chamber with an inlet port for the fiber strand entering the turbulence chamber in a direction of conveyance during operation of the air-jet spinning machine; a yarn-forming element extending into the turbulence chamber, the yarn-forming element having an intake mouth and a draw-off channel through which yarn is drawn off out of the turbulence chamber; air jets directed into the turbulence chamber, the air jets opening into the turbulence chamber in a wall surrounding the turbulence chamber, such that air can be introduced through these jets into the turbulence chamber in a predefined direction to impart to the fiber strand a twist in the area of an intake mouth of the yarn-forming element; a guide arrangement situated in the area of the inlet port of the turbulence chamber, the guide arrangement further comprising at least two guide sections spaced a distance apart from one another that decreases in at least some sections in the direction of conveyance of the fiber strand; the guide arrangement further comprising at least one central guide element that extends at least partially between the guide sections viewed in a section running perpendicular to a longitudinal axis of the draw-off channel and producing a deflection of the fibers of the fiber strand perpendicular to the longitudinal axis of the draw-off channel; and wherein in the absence of a fiber strand, the guide sections touch each other or the central guide element. 13. The spinning position according to claim 1 , wherein the guide sections and the central guide element are formed in an insert that is supported relative to the turbulence chamber.