Concentricity detection system

What is claimed is: 1. A concentricity detection system adapted to detect a concentricity of an annular component, comprising: a support base having a recess on a top surface of the support base; a transparent plate received and positioned in the recess, the annular component is disposed in the recess of the support base and supported on a top surface of the transparent plate; a vision detection device located above the support base and facing the transparent plate, the vision detection device is configured to detect the concentricity of the annular component supported on the transparent plate; and a backlight source located below the support base and facing the transparent plate, a through hole is formed in a bottom portion of the recess and a light from the backlight source passes through the support base via the through hole and the transparent plate to provide backlighting for the annular component. 2. The concentricity detection system of claim 1 , further comprising a housing within which the vision detection device, the support base, and the backlight source are accommodated. 3. The concentricity detection system of claim 2 , further comprising a mounting bracket fixed to an inner wall of the housing. 4. The concentricity detection system of claim 3 , wherein the vision detection device and the support base are attached to and supported by the mounting bracket within the housing. 5. The concentricity detection system of claim 4 , wherein the backlight source is mounted on a bottom wall of the housing. 6. The concentricity detection system of claim 2 , wherein the housing has an opening through which the annular component is placed into or removed from the housing. 7. The concentricity detection system of claim 1 , wherein the annular component comprises a segment of a tube and a concentricity of the tube is determined by detecting a concentricity of the segment. 8. The concentricity detection system of claim 7 , wherein both the recess and the through hole are circular. 9. The concentricity detection system of claim 8 , wherein the through hole has a diameter larger than an outer diameter of the annular component, and the recess has a diameter larger than that of the through hole. 10. The concentricity detection system of claim 1 , wherein the vision detection device is a two-dimensional camera or a three-dimensional camera. 11. The concentricity detection system of claim 1 , further comprising a computer communicating with the vision detection device and having a vision data processing system adapted to calculate the concentricity of the annular component according to data detected by the vision detection device. 12. The concentricity detection system of claim 11 , further comprising a display communicating with the computer to display the data detected by the vision detection device and a calculation result of the vision data processing system. 13. The concentricity detection system of claim 12 , further comprising a keyboard and a mouse communicating with the computer to operate the vision data processing system. 14. The concentricity detection system of claim 1 , wherein the support base, the transparent plate, the vision detection system and the backlight source are each fixedly mounted with respect to one another such that the annular component is not moved relative thereto during a detection process performed by the vision detection device. 15. A concentricity detection system adapted to detect a concentricity of an annular component, comprising: a support base having a circular recess on a top surface of the support base; a transparent plate received and positioned in the recess, the annular component is disposed in the recess of the support base and supported on a top surface of the transparent plate; a vision detection device located above the support base and facing the transparent plate, the vision detection device is configured to detect the concentricity of the annular component supported on the transparent plate; and a backlight source located below the support base and facing the transparent plate, a circular through hole is formed in a bottom portion of the recess and a light from the backlight source passes through the support base via the through hole and the transparent plate to provide backlighting for the annular component, wherein the through hole has a diameter larger than an outer diameter of the annular component, and the recess has a diameter larger than that of the through hole.