Apparatus and system for classifying particles

The invention claimed is: 1. An apparatus for classifying particles, the apparatus comprising: an internal electrode which has a column shape; an external electrode which is spaced apart from the internal electrode and disposed to surround the internal electrode, and generates an electric field through an interaction with the internal electrode; and an aerosol supply unit which supplies aerosol particles to a separation space between the internal electrode and the external electrode, wherein the separation space, through which the aerosol particles are introduced into the apparatus for classifying particles and flow, is formed to be narrowed toward a lower aerosol flow side from an upper aerosol flow side into which the aerosol particles are introduced, and wherein the external electrode includes a plurality of electrode rings stacked and connected in an up and down direction, and the aerosol particles are discharged to an outside through a portion between two adjacent electrode rings of the plurality of electrode rings. 2. The apparatus of claim 1 , wherein each of the electrode rings includes an electrode ring body which faces an inner surface of the internal electrode and forms the separation space, and a protruding portion which is connected to a lower end of the electrode ring body and protrudes radially outward. 3. The apparatus of claim 2 , wherein a spacing protrusion, which allows the two adjacent electrode rings to be spaced apart from each other, is provided on at least one of the electrode ring body and the protruding portion, and a slit is formed between the two adjacent electrode rings by the spacing protrusion. 4. The apparatus of claim 3 , comprising: an external housing which is provided on an outer circumferential portion of the external electrode and has an accommodating groove that accommodates at least one of the electrode rings. 5. The apparatus of claim 4 , wherein a chamber, which allows the aerosol particles discharged from the separation space to remain in the chamber, is formed between at least one of the electrode rings and the external housing, and the chamber is a space formed between the electrode ring body, the protruding portion, and the accommodating groove. 6. The apparatus of claim 5 , wherein at least one classified particle discharge hole, through which the aerosol particles are classified according to the size and discharged, is formed in the external housing, the separation space and the chamber are in communication with each other through the slit, and the chamber and the outside are in communication with each other through the classified particle discharge hole. 7. The apparatus of claim 1 , wherein the separation space is formed to be narrowed from the upper aerosol flow side into which the aerosol particles are introduced toward the lower aerosol flow side from which the aerosol particles are discharged. 8. The apparatus of claim 1 , wherein an air supply unit for supplying air to the separation space has a cap structure coupled to cover one side of the separation space between the internal electrode and the external electrode, and has one or more air supply holes formed in a sidewall of the air supply unit, the aerosol supply unit is coupled to penetrate the air supply unit, and an aerosol dispersing block for dispersing the aerosol particles is further provided at an aerosol outlet side of the aerosol supply unit. 9. A system for classifying particles, the system comprising: a particle classifying apparatus which has an air supply unit for supplying air, and at least one classified particle discharge hole for classifying aerosol particles according to the size and discharging the aerosol particles; an air saturator which is connected to the particle classifying apparatus and saturates the air to make a saturated vapor; and at least one condenser which is provided separately from the air saturator and connected to the particle classifying apparatus or the air saturator, and condenses the aerosol particles included in the saturated vapor. 10. The system of claim 9 , wherein the number of air saturator is one, and the number of condensers is more than one so as to correspond to the number of classified particle discharge holes. 11. The system of claim 10 , further comprising: detectors which are connected to the condensers, respectively, and detect the aerosol particles; and flow rate adjusters which adjust flow rates of the aerosol particles. 12. The system of claim 11 , further comprising: a heater which is provided to surround the particle classifying apparatus and maintains a temperature of the particle classifying apparatus so that the temperature of the particle classifying apparatus is higher than or equal to a temperature of the air saturator. 13. The system of claim 9 , wherein the particle classifying apparatus includes: an internal electrode which has a column shape; an external electrode which is spaced apart from the internal electrode and disposed to surround the internal electrode, and generates an electric field through an interaction with the internal electrode; and an aerosol supply unit which supplies the aerosol particles, and a separation space, through which the aerosol particles are introduced into the particle classifying apparatus and flow, is formed to be narrowed toward a lower aerosol flow side from an upper aerosol flow side into which the aerosol particles are introduced. 14. The system of claim 13 , wherein the internal electrode is formed such that an outer diameter of the internal electrode is increased stepwise or gradually increased toward the lower aerosol flow side.