Apparatus for extracting radioactive solid particles and method thereof

What is claimed is: 1. An apparatus for extracting radioactive solid particles, comprising a suction pump with a suction pipe to extract gas; a separator comprising a body and a chamber surrounded by said body; said body has a suction channel and a gas outlet; said suction channel is located in said chamber and connected with said body; said gas outlet is located on top of said body and adjacent to said suction channel and is connected with said suction pipe of said suction pump; said suction channel has a suction inlet located at an upper section of said suction channel to be protruded out from a top of said body; and said suction channel has a falling inlet located at a lower section of said suction channel to be protruded out from a bottom of said body; an extracting nozzle with an extracting pipe connected to said suction inlet of the suction channel to extract radioactive solid particles to said separator; a storage barrel installed with and connected to said extracting nozzle to store said radioactive solid particles; a radiation-protection device installed and connected to said separator; and wherein a confined space is in said radiation-protection device as a shield to block out radiation; a removable storing container located in said confined space of said radiation-protection device; and in communication with said suction channel of said separator; and a program controller is electrically connected with said suction pump and said extracting nozzle to control starting and stopping of said suction pump and said extracting nozzle in accordance with operating signals. 2. The apparatus according to claim 1 , wherein said suction pump provides required vacuum suction and is installed with a high-efficiency particle filter at a rear end to deal with particulate matters in gas. 3. The apparatus according to claim 1 , wherein said separator is a centrifugal filter. 4. The apparatus according to claim 1 , wherein said separator further comprises a gasket circumferentially located on a periphery of said falling inlet. 5. The apparatus according to claim 1 , wherein said falling inlet has a height different from said gas outlet to prevent said radioactive solid particles from discharging to said suction pump by following air flow. 6. The apparatus according to claim 1 , wherein an amount of said radioactive solid particles being extracted is controlled by a height of said falling inlet; and wherein, when a height of said radioactive solid particles stored in said storing container reaches said height of said falling inlet, said suction channel is directly blocked to stop extracting said radioactive solid particles. 7. The apparatus according to claim 1 , wherein said separator uses a method selected from a group consist of gravity and a grille design to store said extracted radioactive solid particles in said storing container while particulate matters in gas are discharged to said suction pump. 8. The apparatus according to claim 1 , wherein, after entering into said suction inlet of said suction channel, said radioactive solid particles enter into said storing container through said falling inlet due to gravity.