LED tube light

What is claimed is: 1. An LED tube light, comprising: a plurality of LED light sources; a light tube including a main region, a plurality of end regions, and a plurality of transition regions; an LED light bar, disposed inside the light tube, the LED light sources being mounted on the LED light bar; a magnetic metal member; and a plurality of end caps, each of the end caps having an electrically-insulating tubular part; wherein each of the end caps is sleeved over a respective end region of the light tube, an outer diameter of each end region is less than the outer diameter of the main region, the outer diameter of the main region is substantially the same as the outer diameter of each end cap, each transition region forms a curved region, the magnetic metal member is fixedly arranged on an inner circumferential surface of the electrically-insulating tubular part, and bonded to an outer peripheral surface of the light tube using a hot melt adhesive formed between the outer peripheral surface of the light tube at one end region and the inner circumferential surface of the electrically-insulating tubular part of one end cap, the hot melt adhesive does not spillover through the gap between the one end cap and one of the transition regions, and outer surfaces of the transition regions are under compression and inner surfaces of the transition regions are under tension. 2. The LED tube light of claim 1 , wherein the hot melt adhesive is coated on an inner circumferential surface of the magnetic metal member facing the light tube. 3. The LED tube light of claim 1 , wherein the LED tube light has a substantially uniform exterior diameter from end to end thereof. 4. An LED tube light, comprising: a plurality of LED light sources; a light tube, including a main region, two end regions and two transition regions, the main region being connected to the two transition regions, the two end regions being respectively connected to the two transition regions; an LED light bar, disposed inside the light tube for allowing the plurality of LED light sources to be mounted thereon; and two end caps, each of the end caps having an electrically-insulating tubular part; wherein the light tube is made of glass, the end caps are respectively sleeved over the end regions of the light tube, and each outer diameter of the two end regions is less than the outer diameter of the main region, the transition region being arc-shaped at both ends, one arc thereof near the main region is curved towards inside of the glass light tube, and the other arc thereof near the end region is curved toward outside of glass light tube, and wherein: a hot melt adhesive, thermal conductive ring or magnetic metal member, and part of the electrically-insulating tubular part are radially stacked on the light tube glass at each end region, so that an outer diameter of the stack is substantially the same as the outer diameter of the main region of the light tube. 5. The LED tube light of claim 4 , wherein each of the outer diameter differences between the end regions and the main region is 1 mm to 10 mm. 6. The LED tube light of claim 4 , wherein the light tube has a diffusion film layer coated to the inner wall thereon, and the material of the diffusion film layer comprises at least one of calcium carbonate and strontium phosphate. 7. The LED tube light of claim 4 , wherein each of the transition regions has a length of 1 mm to 4 mm. 8. The LED tube light of claim 4 , wherein the LED light bar includes one dielectric layer, one electrically-conductive layer, and a circuit protection layer, the LED light source is disposed on a surface of the electrically-conductive layer away from the dielectric layer, an adhesive is disposed on a surface of the dielectric layer away from the electrically-conductive layer to be bonded to the inner circumferential surface of the light tube, and the circuit protection layer is disposed on the same surface of the electrically-conductive layer which has the LED light source disposed thereon. 9. The LED tube light of claim 4 , wherein the outer diameter of the end region is between 20.9 mm to 23 mm. 10. The LED tube light of claim 6 , wherein the diffusion film layer is a diffusion coating with thickness of 20 μm to 30 μm. 11. The LED tube light of claim 4 , wherein each of the end caps comprises a thermal conductive ring sleeved over the electrically-insulating tubular part, one end of the thermal conductive ring extends beyond the electrically-insulating tubular part towards one end of the light tube, and the hot melt adhesive is disposed between each end region and the respective end cap, and is disposed at the transition regions of the light tube, the electrically-insulating tubular parts, and the thermal conductive rings of the end caps. 12. The LED tube light of claim 4 , wherein the LED tube light has a substantially uniform exterior diameter from end to end thereof. 13. The LED tube light of claim 12 , wherein each outer diameter of the end caps and the outer diameter of the main region have a difference therebetween with an average tolerance of up to +/−1 mm. 14. The LED tube light of claim 11 , further comprising a power supply disposed inside the end caps to provide electric coupling to the light bar, wherein the LED light bar is passed through the transition regions to be electrically coupled to the power supply. 15. The LED tube light of claim 4 , wherein the end region is a flat end. 16. The LED tube light of claim 4 , wherein the thermal conductive ring or magnetic metal member is a magnetic metal member, which is disposed between an inner circumferential surface of the end cap and the end region of the light tube. 17. The LED light tube of claim 4 , wherein the transition regions are narrowed down smoothly and continuously from the main region to the end region. 18. The LED tube light of claim 4 , wherein the thermal conductive ring or magnetic metal member is a thermal conductive ring disposed on an outer surface of the electrically-insulating tubular part, such that both part of the electrically-insulating tubular part and the hot melt adhesive are between the thermal conductive ring and the light tube. 19. The LED tube light of claim 18 , wherein both the thermal conductive ring and the electrically-insulating tubular part radially overlap with the end region of the light tube.