Light bulb apparatus with heat dissipation and isolation

The invention claimed is: 1. A light bulb apparatus comprising: a bulb shell; a plurality of LED modules; a light source plate having a substrate plate, the substrate plate being made of a first heat dissipation material, the substrate plate having a top side for holding the LED modules; an inner tube being made of a second heat dissipation material, wherein there is a pressing portion of a lateral side of the substrate plate pressing against an inner side of the inner tube and there is a spacing portion of the lateral side of the substrate plate not engaging the inner side of the inner tube; and an outer cup being made of an isolation material, the outer cup having a top part and a bottom part, the inner tube being placed inside the top part of the outer cup and pressing against the outer cup, and the bottom part having terminals for connecting to an external power source, wherein there is at least a stopping structures protruding inwardly from the inner side of the inner tube to support the light source plate and increases heat dissipation paths, wherein there are multiple stopping structures forming multiple fins for enhancing heat dissipation performance. 2. The light bulb apparatus of claim 1 , wherein the first heat dissipation material comprises metal material. 3. The light bulb apparatus of claim 2 , wherein the second heat dissipation material comprises metal material. 4. The light bulb apparatus of claim 3 , wherein the first heat dissipation material and the second heat dissipation material are the same. 5. The light bulb apparatus of claim 4 , wherein the first heat dissipation material and the second heat dissipation material comprise aluminum. 6. The light bulb apparatus of claim 1 , wherein the inner tube is a metal piece made by stamping and extending. 7. The light bulb apparatus of claim 1 , wherein a first thickness of the inner tube is thinner than a second thickness of the outer cup. 8. The light bulb apparatus of claim 1 , wherein there are two convex rings disposed inside the inner tube for holding and fixing the lateral side of the inner tube. 9. The light bulb apparatus of claim 1 , wherein the LED modules are placed closer to the inner tube than to a center of the light source plate. 10. The light bulb apparatus of claim 1 , wherein the stopping structures are formed by folding a part of the inner tube. 11. The light bulb apparatus of claim 1 , wherein there is heat dissipation glue placed between the inner tube and the outer cup. 12. The light bulb apparatus of claim 1 , further comprising a driver for controlling and supplying a driving current to the multiple LED modules. 13. The light bulb apparatus of claim 12 , wherein the driver turns off a portion of the LED modules in an alternating order for preventing overheating of the LED modules. 14. The light bulb apparatus of claim 13 , wherein the driver detects a working temperature of the light bulb apparatus for determining when to turn-off the portion of the LED modules in the alternating order if the working temperature is higher than a threshold. 15. The light bulb apparatus of claim 12 , wherein turn-off LED modules of the multiple LED modules and turn-on LED modules of the multiple LED modules are disposed in alternating distribution on the light source plate for evenly distributing working heat of the multiple LED modules. 16. The light bulb apparatus of claim 1 , wherein the light source plate is fixed to the inner tube by punch riveting. 17. The light bulb apparatus of claim 1 , the inner tube having an upward part above the light source plate and a downward part below the light source plate. 18. The light bulb apparatus of claim 1 , wherein there are multiple spacing portions not engaging the inner tube and the spacing portions are arranged in a symmetric manner.