Light guide and a light device incorporating the same

What is claimed is: 1. A light guide for guiding a light beam to a suitable angle, comprising: a light input surface having two first edges that are opposite to each other in a first direction; a light output surface being parallel to and larger than said light input surface and being spaced apart from said light input surface in a second direction that is transverse to the first direction; and two connecting surfaces spaced apart from each other in the first direction, each of which interconnects said light output surface and said light input surface and has an inclined segment; wherein a relationship of θ<θ T is satisfied, where θ is an included angle defined between extensions of said inclined segments of said connecting surfaces, and θ T is the critical angle for total internal reflection associated with said light guide; and wherein a relationship of L>(AD)/(tanθ T ) is satisfied, where (L) is a distance between said light input surface and said light output surface, and (AD) is a distance between a location of incidence of the light beam on said light input surface and one of the said first edges of said light input surface. 2. The light guide of claim 1 , wherein each of said connecting surfaces further has a straight segment that is connected between said inclined segment and the respective one of said first edges of said light input surface and that extends in the second direction. 3. The light guide of claim 1 , wherein said light guide is symmetrically formed in the first direction. 4. The light guide of claim 1 , wherein AD=A/2 and (A) is a distance between said two first edges of said light input surface, the light beam entering said light guide at the center of said light input surface. 5. A lighting device comprising: a light source; and a light guide for guiding a light beam that is emitted from said light source to a suitable angle, and including a light input surface that has two first edges opposite to each other in a first direction, a light output surface that is parallel to and larger than said light input surface and that is spaced apart from said light input surface in a second direction transverse to the first direction, and two connecting surfaces that are spaced apart from each other in the first direction, each of which interconnects said light output surface and said light input surface and has an inclined segment; wherein a relationship of θ<θ T is satisfied, where θ is an included angle defined between extensions of said inclined segments of said connecting surfaces, and θ T is the critical angle for total internal reflection associated with said light guide; and wherein a relationship of L>(AD)/(tan θ T ) is satisfied, where (L) is a distance between said light input surface and said light output surface, and (AD) is a distance between a location of incidence of the light beam on said light input surface and one of the said first edges of said light input surface. 6. The lighting device of claim 5 , wherein each of said connecting surfaces further has a straight segment that is connected between said inclined segment and the respective one of said first edges of said light input surface and that extends in the second direction. 7. The lighting device of claim 5 , wherein said light guide is symmetrically formed in the first direction. 8. The lighting device of claim 5 , wherein said light source includes a plurality of LEDs disposed linearly. 9. The lighting device of claim 8 , wherein AD=A/2, (A) is a distance between said two first edges of said light input surface, and said LEDs are disposed to correspond in position to a central axis of said light input surface, such that the location of incidence of the light beam is at the centre of said light input surface of said light guide.