Light emitting fan device with a hybrid of light-reflective and light-guiding mechanisms

What is claimed is: 1. A light-emitting cooling fan, comprising: a base; a bracket arranged above the base; an impeller located in between the base and the bracket, rotatably mounted on the base, and having a hub and a plurality of fan blades arranged around the hub; a light source disposed on the bracket and pointing downward to the hub of the impeller; a reflector disposed on the hub of the impeller and underneath the light source, and configured for reflecting light from the light source in a radial direction of the hub; and a light guiding member, disposed on the hub and underneath the light source, and configured for receiving the light from the reflector and leading the light to travel along the radial direction of the hub to outside of the hub and then hit one of the fan blades of the impeller. 2. The light-emitting cooling fan as recited in claim 1 , further comprising a fixing plate mounted on the hub of the impeller, wherein the fixing plate has a recess and a groove being in communication with the recess and extending from the recess in a radial direction of the fixing plate; the reflector is disposed within the recess; the light guiding member is embedded in the groove and has a front end heading to the reflector and a rear end pointing to outside of the fixing plate such that the reflected light from the reflector enters the front end of the light guiding member, and finally exits the rear end of the light guiding member in the radial direction of hub. 3. The light-emitting cooling fan as recited in claim 1 , wherein the reflector is a mirror while the light guiding member is a fiber optic light guide. 4. The light-emitting cooling fan as recited in claim 2 , further comprising at least one electromagnet secured on the fixing plate, and the reflector is displaceably or swingably disposed on the fixing plate. 5. The light-emitting cooling fan as recited in claim 4 , further comprising at least one magnetic block secured on the reflector corresponding to the electromagnet such that when the electromagnet is powered, an attraction or repulsion is created between the electromagnet and the magnetic block to have the reflector displaced or swung with respect to the light guiding member. 6. The light-emitting cooling fan as recited in claim 1 , further comprising a transparent sheet mounted on the hub of the impeller, wherein the reflector is a reflective layer; the light guiding member is a light guiding rod; and wherein the transparent sheet has a recess corresponding to the light source; the recess has its side and bottom wall surfaces coated with a reflective material to form the reflective layer for reflecting the light from the light source; the light guiding rod is shaped and formed a part of the transparent sheet, and extends from the recess in a radial direction of the transparent sheet; the light guiding rod has at its front an incident surface facing the reflective layer, and at its rear an exit surface facing outside of the transparent sheet such that the light reflected by the reflective layer enters the incident surface of the light guiding rod and finally exits the exit surface of the light guiding rod. 7. The light-emitting cooling fan as recited in claim 6 , wherein all surfaces of the transparent sheet are coated with a light blocking material to form a light blocking layer, except the side and bottom wall surfaces of the recess and the incident surface and the exit surfaces of the light guiding rod in the transparent sheet. 8. The light-emitting cooling fan as recited in claim 1 , wherein the reflector is movable with respect to the light guiding member.