Optical Splitting Apparatus

What is claimed is: 1 . An optical splitting apparatus comprising: an enclosure; an uneven optical splitter disposed in the enclosure, wherein the uneven optical splitter is configured to split a received optical signal into optical signals of different optical powers; a light inlet disposed on the enclosure; and a plurality of light outlets disposed on the enclosure, and fiber adapters are disposed on the plurality of light outlets; and wherein the light inlet and the plurality of light outlets are connected through the uneven optical splitter, so that optical paths are formed between the light inlet and the plurality of light outlets; wherein a first set of light output ends of the uneven optical splitter has a higher output optical power than a second set of the light output ends of the uneven optical splitter, wherein the first set is configured to connect to a next node, and the second set is configured to connect to users; wherein an optical fiber connector is disposed on each of the light output ends of the uneven optical splitter and is detachably fastened and connected to the fiber adapters disposed on the plurality of light outlets; and wherein all light output ends of the uneven optical splitter are connected to the plurality of light outlets in a one-to-one correspondence through optical fiber connectors disposed on the light output ends of the uneven optical splitter and the fiber adapters disposed on the plurality of light outlets. 2 . The optical splitting apparatus according to claim 1 , wherein each light output end of the second set has a same output optical power. 3 . The optical splitting apparatus according to claim 1 , further comprising a fiber adapter disposed on the light inlet. 4 . The optical splitting apparatus according to claim 3 , wherein the uneven optical splitter comprises a light input end; and an optical fiber connector is disposed on the light input end and is detachably fastened and connected to the fiber adapter disposed on the light inlet. 5 . The optical splitting apparatus according to claim 1 , wherein a first fiber adapter on a light outlet of the plurality of light outlets comprises an end that is located outside the enclosure and is used to detachably fasten and connect to an external optical fiber connector. 6 . The optical splitting apparatus according to claim 1 , wherein a first fiber adapter on a light outlet of the plurality of light outlets comprises an end that is located inside the enclosure and is used to detachably fasten and connect to an internal optical fiber connector. 7 . A system comprising a first optical splitting apparatus and a second optical splitting apparatus, wherein each of the first optical splitting apparatus and the second optical splitting apparatus comprises: an enclosure; an uneven optical splitter disposed in the enclosure, wherein the uneven optical splitter is configured to split a received optical signal into optical signals of different optical powers; a light inlet disposed on the enclosure; and a plurality of light outlets disposed on the enclosure, and fiber adapters are disposed on the plurality of light outlets; and wherein the light inlet and the plurality of light outlets are connected through the uneven optical splitter, so that optical paths are formed between the light inlet and the plurality of light outlets; wherein a first set of light output ends of the uneven optical splitter has a higher output optical power than a second set of the light output ends of the uneven optical splitter; wherein an optical fiber connector is disposed on each of the light output ends of the uneven optical splitter and is detachably fastened and connected to the fiber adapters disposed on the plurality of light outlets; and wherein all light output ends of the uneven optical splitter are connected to the plurality of light outlets in a one-to-one correspondence through optical fiber connectors disposed on the light output ends of the uneven optical splitter and the fiber adapters disposed on the plurality of light outlets; and wherein the first set of the light output ends of the first optical splitting apparatus has a first light output end, and the first light output end of the first optical splitting apparatus is connected to the light inlet of the second optical splitting apparatus, and the second set of the light output ends of the first optical splitting apparatus is configured to connect to users; and wherein the first set of the light output ends of the second optical splitting apparatus is configured to connect to a next node, and the second set of the light output ends of the second optical splitting apparatus is configured to connect to users.