Intersecting Line of Conical Surface and Smoothly Blending of Two Tubes Whose Axes Are Non-Coplanar

We construct two conical surfaces which take non-coplanar lines as generatrix and rational Bezier curve as ridge-line, and prove that the intersecting line of conical surface has similar properties to Bezier curve. Then, the smoothly blending of two cylinders whose axes are non-coplanar is realized by taking intersecting line of conical surface as axes.


Introduction
Blending surface is one of the main research fields of curve and surface modeling technology.In recent years, many scholars have focused on algebraic surface blending [1]- [5], namely of Grobner based method, Wu method, and Resultant method that is to study implicit surface blending.The common feature of these studies is that they are all coplanar algebraic surface smooth blending.Ideal blending surfaces is obtained in theory, but the shape of the transition surface is unknown when the algebraic surface is blended.Moreover, there is a certain difference between the actual surface designing the demand and the blending surface.In addition, some tubes are crossing in the industrial manufacturing process because of the obstacle blocking factors or other reasons.Not only do we need to consider the parameter surface, but also the shape of the smooth surface.Therefore, it is necessary to consider the study of the smoothly blending of two cylinders whose axes are non-coplanar.The main purpose of the method is to manufacture the special process functions in the industry.In the [6] the tubes with a helix as the axis have blended smoothly between circular tubes and elliptical tubes.Furthermore, in the [10] [11], tubes with intersecting line of conical surface as the axis are blended smoothly between special circular tubes.
In this paper, a more general case is discussed.

Structuring Ridge-Line of Conical Surface and Intersecting Line of Conical Surface
In this paper, we construct equation of ridge-line of conical surface, and blend smoothly two elliptical tubes whose axes are non-coplanar with the elliptical tube that takes intersecting line of conical surface as axes.In the case of dihedral angle of axes line is 90 degree, more than 90, and less than 90, the tube that takes intersecting line of conical surface as axes blend smoothly the two tubes whose axes is non-coplanar.Let 1 l and 2 l be non-coplanar straight line, a is the shortest distance between the two lines, select the x axis so that it is parallel to the shortest distance segment between 1 l and the 2 l , the y axis is parallel to 1 l , and intersects the 2 l .Establishing right hand Cartesian coordinate system, so that the intersection point of 1 l and x axis is point 0 ( ,0,0) V a , and the intersection point of y axis and 2 l is point 2 (0, , 0) V a , the point 0 ( ,0,0) V a and 3 (0, , ) V c d on 2 l forms four points, these point are no coplanar.Respectively, with 0 ( ,0,0) V a and 3 (0, , ) V c d as the cone-vertices of the conical surface, and , , m m m and 1 2 3 , , w w w are the corresponding the vertex of weight.The parameter equation for ridge-line of conical surface and equation of conical surface are as follows.
The parameter equation of the intersection line is ( ) ( ( ), ( ), ( )) r s x s y s z s = .
Then the first and end points of the curve have the following properties.
The nature of the tangent vector is further introduced.
Its geometric meaning is that the first and last points of the curve are tangent to the two different lines.
In this way, we can construct a tube with an intersecting line of conical surface as the axis, and smoothly blend the non-coplanar tubes with two non-coplanar lines as axes.
Theorem 2. The parameter equations of non-coplanar lines 1 l and 2 l are as follows, : ( , , 0); : (0, ( ) , ). l a as l c c a s ds + − The curve equation for smoothly blending of two non-coplanar lines is (3), then the parameter equations of two non-coplanar tubes and smoothly blending tube are as follows.
( , , ) , for unit principal vector and unit binormal vector at the intersecting line of conical surface respectively.

Concluding Remarks
In this paper, by constructing the intersecting line of conical surface in Figure 1, the elliptical tube with the intersecting line of conical surface in Figure 2

1 G
as the axis has blended two elliptical tube whose axes are non-coplanar.The blending surfaces of different situations are successfully realized, and the surface meets blending conditions.As can be seen from examples, the manufacture of a specific process function is solved in industry.

Figure 1 .
Figure 1.Circular tube blending and elliptical tube blending in the case of dihedral angle of axes line it is greater than 90 degree.

Figure 2 .
Figure 2. Circular tube blending and elliptical tube blending in the case of dihedral angle of axes line it is less than 90 degree.