Multistage fiber filtering apparatus capable of selectively filtering

What is claimed is: 1. A multistage fiber filtering apparatus comprising: an enclosure configured to include an upper box and a lower box communicating with the upper box a strainer configured to be installed in the upper box along a longitudinal direction; a plurality of fiber yarn media configured to surround an outer circumferential surface of the strainer to form a first filtering layer; a plurality of fiber ball media configured to be built in the lower box to form a second filtering layer; a first pipe configured to be formed on one side wall of a lower portion of the upper box and to introduce the raw water; a second pipe configured to be formed on one side wall of a lower portion of the lower box and to discharge filtered water; a third pipe configured to be formed on one side wall of an upper portion of the lower box and to introduce the raw water or discharge the filtered water; and a controller configured to selectively introduce the raw water into the first pipe or the third pipe depending on a turbidity of the raw water in a filtering mode, and selectively introduce a washing water into the second pipe or the third pipe depending on the turbidity in a backwashing mode. 2. The multistage fiber filtering apparatus of claim 1 , wherein the controller is configured to selectively discharge the raw water through the second pipe or the third pipe depending on the turbidity in the filtering mode. 3. The multistage fiber filtering apparatus of claim 1 , wherein the controller is configured to selectively operate a first backwashing mode in which the backwashing water washes both of the fiber yarn medium and the fiber ball medium, or a second backwashing mode in which the backwashing water washes the fiber yarn medium depending on the turbidity in the backwashing mode. 4. The multistage fiber filtering apparatus of claim 3 , wherein the controller is configured to introduce the backwashing water through the second pipe to wash both of the fiber yarn medium and the fiber ball medium and discharge the backwashing water through the first pipe in the first backwashing mode. 5. The multistage fiber filtering apparatus of claim 4 , wherein the controller is configured to introduce the backwashing water through the third pipe to wash the fiber yarn medium and discharge the backwashing water through the first pipe in the second backwashing mode. 6. The multistage fiber filtering apparatus of claim 2 , wherein the controller is configured to selectively operate a first filtration mode in which the raw water passes through the fiber ball medium, a second filtration mode in which the raw water passes through the fiber yarn medium, or a third filtration mode in which the raw water passes through both of the fiber yarn medium and the fiber ball medium depending on the turbidity in the filtering mode. 7. The multistage fiber filtering apparatus of claim 6 , further comprising: a turbidity meter configured to measure the turbidity of the raw water. 8. The multistage fiber filtering apparatus of claim 7 , wherein the controller is configured to operate the first filtration mode in response to measuring of low-turbidity that is measured by the turbidity meter, operate the second filtration mode in response to measuring of medium-turbidity that is measured by the turbidity meter, and operate the third filtration mode in response to measuring of high-turbidity that is measured by the turbidity meter. 9. The multistage fiber filtering apparatus of claim 6 , wherein the controller is configured to introduce the raw water through the third pipe to pass through the fiber ball medium and discharge the raw water through the second pipe in the first filtration mode. 10. The multistage fiber filtering apparatus of claim 9 , wherein the controller is configured to introduce the raw water through the first pipe to pass through the fiber yarn medium and discharge the raw water through the third pipe in the second filtration mode. 11. The multistage fiber filtering apparatus of claim 10 , wherein the controller is configured to introduce the raw water through the first pipe to pass through both of the fiber yarn medium and the fiber ball medium and discharge the raw water through the third pipe in the second filtration mode. 12. The multistage fiber filtering apparatus of claim 11 , wherein the first pipe comprises: a raw water inlet pipe including a raw water inlet control valve to control an introduced amount of raw water; and a backwashing water discharge pipe including a backwashing water discharge control valve to regulate a discharged amount of backwashing water. 13. The multistage fiber filtering apparatus of claim 12 , wherein the second pipe comprises: a backwashing water inlet pipe including a backwashing water inlet control valve to control an introduced amount of backwashing water; a filtered water discharge pipe including a filtered water discharge control valve to regulate a discharged amount of filtered water; and a first air inlet pipe to introduce air in the backwashing mode. 14. The multistage fiber filtering apparatus of claim 13 , wherein the third pipe comprises: a raw water inlet pipe including a raw water inlet control valve to control an introduced amount of raw water; a filtered water discharge pipe including a filtered water discharge control valve to regulate a discharged amount of filtered water; a backwashing water inlet pipe including a backwashing water inlet control valve to control an introduced amount of backwashing water; and a second air inlet pipe to introduce air in the backwashing mode. 15. The multistage fiber filtering apparatus of claim 14 , further comprising: an air discharge pipe located on an upper surface of the upper box to discharge air in the backwashing mode. 16. The multistage fiber filtering apparatus of claim 14 , further comprising: a backwashing nozzle located under the strainer to inject air which is introduced into an upper portion of the lower box through the second air inlet pipe upward.