Dust collector for vacuum cleaner

What is claimed is: 1. A dust collector for a vacuum cleaner, the dust collector comprising: a first case having a first dust storing unit in the first case; a first cyclone provided in the first case, including a mesh filter being configured to separate by filtering dust from air introduced into the first cyclone, and discharge the separated dust into the first dust storing unit; a second case having a second dust storing unit in the second case; a second cyclone provided above the first cyclone, the second cyclone being configured to separate fine dust from the air introduced into the second cyclone from the first cyclone and discharge the separated fine dust into the second dust storing unit; and a lower cover being coupled to the first case so as to open and close the first case, in response to the lower cover being open, dust collected in the first cyclone, the first and second dust storing units being externally dischargeable, wherein the mesh filter becomes narrower from a top of the mesh filter to a bottom of the mesh filter, such that the dust filtered by the mesh filter and stuck on the mesh filter is separated from the mesh filter when the lower cover is open, wherein the second case is located inside of the first cyclone, and wherein the lower cover is below the first cyclone. 2. The dust collector of claim 1 , wherein the second case extends within the mesh filter substantially in a same direction as an extending direction of the first case. 3. The dust collector of claim 2 , the first cyclone comprises: a housing that extends substantially in the same direction as the extending direction of the first case to define an appearance of the first cyclone, and configured to allow for orbiting of the air and dust in the housing, wherein the second case extends substantially in a same direction as an extending direction of the housing. 4. The dust collector of claim 3 , wherein the mesh filter is located in the housing and extends substantially in a same direction as the extending direction of the housing. 5. The dust collector of claim 1 , wherein the mesh filter has a conic shape having an oval cross-section. 6. The dust collector of claim 1 , wherein an upper portion of the mesh filter is connected to an inlet of the second cyclone such that air that has passed through the mesh filter is introduced into the second cyclone. 7. The dust collector of claim 1 , wherein the lower cover defines a bottom surface of the first dust storing unit, the second dust storing unit and the first cyclone when it is closed. 8. The dust collector of claim 7 , wherein an introduction opening formed through the bottom surface of the first cyclone, wherein the air is introduced into the first cyclone from a lower portion of the first cyclone through the introduction opening. 9. The dust collector of claim 1 , wherein the first dust storing unit is a space defined by an inner circumferential surface of the first case, an outer circumferential surface of the first cyclone and an inner surface of the lower cover, such that the dust discharged from the first cyclone is collected therein. 10. The dust collector of claim 1 , wherein the second dust storing unit is a space defined by an inner circumferential surface of the second case and an inner surface of the lower cover, such that the fine dust discharged from the second cyclone is collected therein. 11. The dust collector of claim 1 , wherein the second case comprises a guide surface that is inclined to guide the fine dust separated from the air by the second cyclone to be collected into the second dust storing unit. 12. The dust collector of claim 1 , wherein the second cyclone extends in an intersecting direction with an extending direction of the first cyclone. 13. The dust collector of claim 12 , wherein the second cyclone comprises a plurality of second cyclones extending in parallel with one another, and wherein the plurality of second cyclones are arranged into plural layers. 14. The dust collector of claim 1 , wherein a compression plate which is rotating in one direction and in a reverse direction is provided in the first case, so as to compress the dust collected in the first dust storing unit, and wherein the compression plate rotates centering on a central shaft in the first case. 15. The dust collector of claim 1 , wherein the first dust storing unit is a space defined by an inner circumferential surface of the first case, an outer circumferential surface of the first cyclone and an inner surface of the lower cover, such that the dust discharged from the first cyclone is collected therein, wherein the second dust storing unit is a space defined by an inner circumferential surface of the second case and the inner surface of the lower cover, such that the fine dust discharged from the second cyclone is collected therein, and wherein the second cyclone comprises a plurality of second cyclones extending in parallel with one another. 16. The dust collector of claim 1 , wherein an extending direction of the second cyclone is orthogonal to an extending direction of the first cyclone. 17. A vacuum cleaner, comprising: a main body configured to produce a suction force; a suction part configured to suck air containing dust; and a dust collector configured to separate the dust from the air introduced into the suction part and discharge the separated dust, wherein the dust collector comprises: a first case having a first dust storing unit in the first case; a first cyclone provided in the first case, including a mesh filter being configured to separate by filtering dust from air introduced into the first cyclone, and discharge the separated dust into the first dust storing unit; a second case having a second dust storing unit in the second case; a second cyclone provided above the first cyclone, the second cyclone being configured to separate fine dust from the air introduced into the second cyclone from the first cyclone and discharge the separated fine dust into the second dust storing unit; and a lower cover being coupled to the first case so as to open and close the first case, in response to the lower cover being open, dust collected in the first cyclone, the first and second dust storing units being externally dischargeable, wherein the mesh filter becomes narrower from a top of the mesh filter to a bottom of the mesh filter, such that the dust filtered by the mesh filter and stuck on the mesh filter is separated from the mesh filter when the lower cover is open, wherein the second case is located inside of the first cyclone, and wherein the lower cover is below the first cyclone. 18. The vacuum cleaner of claim 17 , wherein the first dust storing unit is a space defined by an inner circumferential surface of the first case, an outer circumferential surface of the first cyclone and an inner surface of the lower cover, such that the dust discharged from the first cyclone is collected therein, wherein the second dust storing unit is a space defined by an inner circumferential surface of the second case and the inner surface of the lower cover, such that the fine dust discharged from the second cyclone is collected therein, and wherein the second cyclone comprises a plurality of second cyclones extending in parallel with one another. 19. The vacuum cleaner of claim 17 , wherein the first cyclone comprises: a housing that extends substantially in a same direction as an extending direction of the first case to define an appearance of the first cyclone, and configured to allow f