Mould aligner for a wind turbine blade shell mould including a freely rotating spinner element

The invention claimed is: 1. A mould aligner for aligning and locking a first mould and a second mould for moulding shell parts of a wind turbine blade, the mould aligner comprising: a first alignment segment extending along a first mould aligner axis from a first primary end to a first secondary end, and being configured to be attached to the first mould, wherein the first alignment segment comprises a locking cavity; and a second alignment segment extending along a second mould aligner axis from a second primary end to a second secondary end, and being configured to be attached to the second mould, wherein the second alignment segment comprises: a hydraulic cylinder, the hydraulic cylinder comprising a barrel and a piston rod, the piston rod being axially displaceable and rotatable with respect to the barrel; a lock part comprising a first rod part and a locking element being provided on the first rod part, the first rod part being configured for being received in and engaged in the locking cavity of the first alignment segment; a cylinder part comprising the barrel and a second rod part comprising a piston; and a guide part comprising a third rod part, a guide pin and a guide slot, the guide pin engaging the guide slot, wherein the piston rod of the hydraulic cylinder of the second alignment segment is adjustable and movable between a retracted state and an extended state and vice versa, and the engagement between the guide pin and the guide slot is configured for providing an angular rotation of the piston rod during a portion of said movement, and wherein the lock part further comprises a spinner element, the spinner element being freely rotatable with respect to the locking element about an axis parallel to the second mould aligner axis for reducing friction between the locking element and the locking cavity. 2. The mould aligner according to claim 1 , wherein the second alignment segment in a retracted state has a retracted length between the second primary end and the second secondary end and in an extended state has an extended length between the second primary end and the second secondary end, the extended length being longer than the retracted length, wherein the hydraulic cylinder is configured to adjust the second alignment segment along the second mould aligner axis between the retracted state and the extended state. 3. The mould aligner according to claim 1 , wherein the guide slot comprises a first slot part and a second slot part, wherein the first slot part extends helically about the second mould alignment axis and the second slot part extends in a direction substantially parallel to the second mould aligner axis. 4. The mould aligner according to claim 1 , wherein the guide slot is located in a guide pipe and the guide pin is attached to the third rod part, and wherein the guide pin is in engagement with the guide slot in the guide pipe, the guide slot defining a path of movement of the third rod part. 5. The mould aligner according to claim 1 , wherein the locking element has an elongated cross sectional shape in a plane perpendicular to the second mould aligner axis, the elongated cross sectional shape having a length and a width, wherein the length is longer than the width. 6. The mould aligner according to claim 1 , wherein the first alignment segment comprises an opening slot at the first secondary end. 7. The mould aligner according to claim 1 , wherein the locking cavity of the first alignment segment is configured to receive the locking element in a first angular position and to lock the locking element in a second angular position, wherein locking the locking element comprises a locking surface being in contact with an inner surface of at least one projection extending across the locking cavity, thereby preventing retraction of the locking element from the locking cavity. 8. The mould aligner according to claim 1 , wherein the locking element has a shape as a cone and the locking cavity has a conical shape. 9. The mould aligner according to claim 1 , wherein the hydraulic cylinder allow turning of the locking element from a first angular position to a second angular position, thereby locking the locking element in the locking cavity, the angular distance between the first angular position and the second angular position being between 10° and 170°. 10. The mould aligner according to claim 9 , wherein the angular distance between the first angular position and the second angular position is 90°. 11. A mould system for moulding a blade shell of a wind turbine blade, the mould system comprising: a first mould for manufacturing a first blade shell part of the wind turbine blade; and a second mould for moulding a second blade shell part of the wind turbine blade, the first mould and second mould extending along a longitudinal axis, wherein the first mould has a first moulding side with a first moulding surface that defines an outer shape of the first blade shell part and a first non-moulding side opposite the first moulding side, wherein the second mould has a second moulding side with a second moulding surface that defines an outer shape of the second blade shell part and having a second non-moulding side opposite the second moulding side, wherein the mould system is configured to position the first mould and the second mould such that the first moulding side is facing the second moulding side and such that the first blade shell part may be adhered to the second blade shell part so as to form the blade shell of the wind turbine blade, and wherein the mould system further comprises a plurality of mould aligners according to claim 1 being distributed along at least a part of a lateral side of at least one of the first and second moulds. 12. The mould system according to claim 11 , wherein the mould system is configured to align and lock the first mould on top of the second mould, such that the first moulding side is facing the second moulding side. 13. The mould system according to claim 11 , wherein the mould aligners are arranged such that a first mould aligner axis of the first alignment segment is perpendicular to the longitudinal axis of the first mould and a second mould aligner axis of the second alignment segment is perpendicular to the longitudinal axis of the second mould. 14. A method for aligning and locking a first mould and a second mould of a mould system for moulding shell parts of a wind turbine blade, the method comprising: providing a first mould; providing a first alignment segment on the first mould, wherein the first alignment segment extends along a first mould aligner axis from a first primary end to a first secondary end, the first alignment segment being configured to be attached to the first mould, wherein the first alignment segment comprises a locking cavity; providing a second mould; providing a second alignment segment on the second mould, wherein the second alignment segment extends along a second mould aligner axis from a second primary end to a second secondary end, wherein the second mould comprises a barrel and a piston rod, and wherein when the second alignment segment is in an extended position, a locking element on the piston rod is in a first angular position, wherein the piston rod is axially displaceable and rotatable with respect to the barrel, the second alignment segment comprising a lock part comprising a first rod part and a locking element provided on the first rod part, the first rod part being configured for being received in and engaged in the locking cavity of the first alignment segment, the second alignment segment further comprising a cylinder part compr