Component platform lock with collets and method for holding a wind turbine blade component

The invention claimed is: 1. A component platform lock ( 42 ) for holding a wind turbine blade component ( 44 ) during attachment of the wind turbine blade component to a wind turbine blade shell part, the component platform lock comprising: a housing ( 46 ), a first moving pin ( 48 ) comprising: a first inner cone stud ( 52 ) having a first diameter at a first section ( 80 ) and a second diameter at a second section ( 82 ), the first diameter being larger than the second diameter, a first collet ( 56 ) having an expanding section ( 84 ) surrounding the first inner cone stud ( 52 ) and configured to move along the first inner cone stud ( 52 ) between the second section and the first section, wherein the expanding section ( 84 ) of the first collet ( 56 ) will contract and expand based on the diameter of the cone stud, a first actuator ( 60 ) configured to move the first moving pin ( 48 ) to obtain: a contracted state wherein the first collet is located within the housing, and an extended state wherein the first collet extends out of the housing, a second actuator ( 62 ) configured to move the first inner cone stud ( 52 ) relative to the first collet ( 56 ) to obtain: a relaxed state wherein the expanding section of the first collet is retracted and surrounds the second section of the first inner cone stud having the second diameter, and an expanded state wherein the expanding section of the first collet is expanded and surrounds the first section of the first inner cone stud having the first diameter and configured to engage and hold the wind turbine blade component. 2. A component platform lock according to claim 1 , further comprising a second moving pin ( 50 ) comprising a second inner cone stud ( 54 ), the second inner cone stud ( 54 ) having a first diameter at a first section and a second diameter at a second section, the first diameter being larger than the second diameter, a second collet ( 58 ) having an expanding section ( 84 ) surrounding the second inner stud ( 54 ) and configured to move along the second inner cone stud ( 54 ). 3. A component platform lock according to claim 2 , wherein the first actuator ( 60 ) or a third actuator configured to move the second moving pin ( 50 ) to obtain: a contracted state wherein the second collet is located within the housing, and an extended state wherein the second collet extends out of the housing, the second actuator ( 62 ) or a fourth actuator configured to move the second inner cone stud ( 52 ) relative to the second collet ( 56 ) to obtain: a relaxed state wherein the expanding section of the second collet is retracted and surrounds the second section of the second inner cone stud having the second diameter, and an expanded state wherein the expanding section of the second collet is expanded and surrounds the first section of the second inner cone stud having the first diameter and configured to engage and hold the wind turbine blade component. 4. A component platform lock according to claim 2 , wherein the first and second moving pin ( 48 , 50 ) extend in opposite directions. 5. A component platform lock according to claim 2 , further comprising an alignment sensor ( 64 ) for aligning the first and second moving pin with bushings ( 68 ) of the wind turbine blade component. 6. A component platform lock according to claim 2 , further comprising a force sensor ( 66 ) measuring the force exerted by the second and/or fourth actuator ( 62 ). 7. A component platform lock according to claim 2 , further comprising an extension sensor for monitoring the extension of the first or second moving pin. 8. A component platform lock according to claim 2 , wherein the first, second, third and/or fourth actuator are hydraulic, pneumatics, electrical or mechanical. 9. A component platform lock according to claim 2 , wherein the first and/or second inner cone stud are conical in shape, decreasing linearly in diameter from the first section to the second section. 10. A system for attaching a wind turbine blade component to a surface of a wind turbine blade shell part at a component attachment position, the system comprising: a blade shell part support for supporting the blade shell part, a jig, comprising: i. a jig base, ii. a component platform comprising a component platform lock according to claim 1 for receiving and holding the wind turbine blade component in a first position above at least a part of the blade shell part, the component platform being arranged on the jig base and being at least vertically displaceable relative to the jig base by displacement means to allow the wind turbine blade component to be lowered from the first position to a component attachment position. 11. A method for holding a wind turbine blade component during attachment of the wind turbine blade component to a wind turbine blade shell part, wherein the wind turbine blade component comprises a cavity containing one or more bushings at the cavity's sidewalls, the method comprising: providing a jig comprising a component platform lock according to claim 1 , moving the component platform lock into the cavity of the wind turbine blade component, extending the first moving pin from the contracted state to the extended state to place the first moving pin into a busing of the one or more bushings of the wind turbine blade component, expanding the first collet from its relaxed state into their expanded state by moving the first inner cone stud to expand the first collet in the bushing to engage and hold the wind turbine blade component, and positioning the wind turbine blade component by use of the jig to a component attachment position relative to the wind turbine blade shell part. 12. A method according to claim 11 , the method further comprising: retracting the first collet into their relaxed state to disengage the bushings after attachment of the wind turbine blade component, retracting the first moving pin, and moving the component platform lock out of the cavity of the wind turbine blade component. 13. A method according to claim 11 , wherein the jig with the component platform further comprises a second moving pin ( 50 ) comprising a second inner cone stud ( 54 ), the second inner cone stud ( 54 ) having a first diameter at a first section and a second diameter at a second section, the first diameter being larger than the second diameter, a second collet ( 58 ) having an expanding section ( 84 ) surrounding the second inner stud ( 54 ) and configured to move along the second inner cone stud ( 54 ), the method further comprising: extending the second moving pin from the contracted state to the extended state to place the second moving pin into a second bushing of the one or more bushings of the wind turbine blade component, expanding the second collet from its relaxed state into its expanded state by moving the second inner cone stud to expand the second collet in the second bushing to engage and hold the wind turbine blade component. 14. A method according to claim 13 , the method further comprising: retracting the second collet into its relaxed state to disengage the second bushing after attachment of the wind turbine blade component, retracting the second moving pin. 15. A method according to claim 11 , the method further comprising monitoring the expansions of the first and second collets by measuring the force exerted by the second and/or fourth actuator and stopping the expansion when the force exerted reaches a threshold.