Gap filler roller assembly

What is claimed: 1. A roller assembly for forming adjacent curved surfaces in a composite gap filler member, comprising: a first roller is supported by a first support member wherein the first roller rotates relative to the first support member about a first axis of rotation; a second roller is supported by a second support member wherein the second roller rotates relative to the second support member about a second axis of rotation, wherein: the first support member is rotatable about a third axis of rotation, which provides for rotation of the first axis of rotation about the third axis of rotation; and the second support member is rotatable about a fourth axis of rotation, which provides for rotation of the second axis of rotation about the fourth axis of rotation; and a support comprising a surface, wherein: with the first roller and the second roller in contact with one another and in contact with the surface and with rotation of the first roller about the third axis of rotation and with at least one of the first roller or second roller is moved relative to other, such that the first roller maintains contact with the second roller and the first roller and the second roller maintain contact with the surface, the first roller, second roller and the surface form an aperture; and the aperture includes the first roller defining a first curved side of the aperture having a first radius and the second roller defines a second curved side of the aperture, adjacent to the first curved side, having a second radius such that the first radius and the second radius are unequal. 2. The roller assembly of claim 1 , wherein with the first roller and the second roller in contact with one another and in contact with the surface a second aperture is formed with the first roller defining a first curved side of the second aperture having a first radius and the second roller defines a second curved side of the second aperture adjacent to the first curved side having a second radius with the first radius equal to the second radius. 3. The roller assembly of claim 2 , wherein the second aperture includes a plane of symmetry wherein with the at least one of the first roller or the second roller is moved relative to other, the at least one of the first roller or the second roller is moved in a direction transverse with respect to the plane of symmetry. 4. The roller assembly of claim 3 , wherein: the third axis of rotation extends in a first direction and the fourth axis of rotation extends in a second direction; and with respect to the second aperture, the third and fourth axis of rotation intersect at a first location along the plane of symmetry of the second aperture. 5. The roller assembly of claim 4 , wherein with respect to the aperture, the third and fourth axes of rotation intersect at a second location spaced apart from the plane of symmetry. 6. The roller assembly of claim 3 , further includes: a drive mechanism which imparts linear movement to a shaft; and the shaft is secured to a first support structure, which provides support to the first support member and the first roller. 7. The roller assembly of claim 6 , wherein the drive mechanism comprises one of a pneumatic cylinder, hydraulic cylinder or a servo motor associated with the shaft. 8. The roller assembly of claim 6 , further includes a bracket which secures the shaft to the first support structure. 9. The roller assembly of claim 6 , wherein the first support structure includes a rail guide which engages a rail. 10. The roller assembly of claim 9 , wherein the rail extends in the direction transverse to the plane of symmetry. 11. The roller assembly of claim 9 , further includes a platform supporting the rail and the support. 12. The roller assembly of claim 1 , wherein: the first support member comprises a first portion and second portion wherein the first portion of the first support member extends along a first side of the first roller and the second portion of the first support member extends along a second side of the first roller; and a first axle member extends along a first axis of rotation of the first roller and is supported by the first portion of the first support member, extends through the first roller and extends to and is supported by the second portion of the first support member. 13. The roller assembly of claim 1 , wherein: the second support member comprises a first portion and second portion wherein the first portion of the second support member extends along a first side of the second roller and the second portion of the second support member extends along a second side of the second roller; and a second axle member extends along a second axis of rotation of the second roller and is supported by the first portion of the second support member, extends through the second roller and extends to and is supported by the second portion of the second support member. 14. The roller assembly of claim 1 , further includes roller bearings positioned between a first frame member and the first support member wherein: the first support member rotates relative to the first frame member; and the first support member is connected to a first rotatable drive shaft for rotating the first support member about the third axis of rotation. 15. The roller assembly of claim 14 , further includes a first motor connected to the first rotatable drive shaft such that rotating the first support member rotates a first axis of rotation of the first roller about the third axis of rotation. 16. The roller assembly of claim 1 , further includes roller bearings positioned between a second frame member and the second support member, wherein: the second support member rotates relative to the second frame member; and the second support member is connected to a second rotatable drive shaft for rotating the second support member about the fourth axis of rotation. 17. The roller assembly of claim 16 , further includes a second motor connected to the second rotatable drive shaft such that rotating the second support member rotates a second axis of rotation of the second roller about the fourth axis of rotation. 18. The roller assembly of claim 1 , further includes the first support member is movable along the third axis of rotation and the second support member is movable along the fourth axis of rotation. 19. A method of forming adjacent curved surfaces in a composite gap filler member, comprising the steps of: positioning a first roller, which is supported by a first support member, in contact with a surface of a support, wherein: the first roller rotates relative to the first support member about a first axis of rotation; and the first support member is rotatable about a third axis of rotation, which provides for rotation of the first axis of rotation about the third axis of rotation; positioning a second roller, which is supported by a second support member, in contact with the surface of the support and in contact with the first roller, wherein: the second roller rotates relative to the second support member about a second axis of rotation; and the second support member is rotatable about a fourth axis of rotation, which provides for rotation of the second axis of rotation about the fourth axis of rotation; and pulling a composite material in contact with and past the first and second rollers wherein the first roller rotates and the second roller rotates; and rotating the first support member and the first roller about the third axis of rotation and moving at least one of