Dryer

What is claimed is: 1. A dryer, comprising: a hollow casing having a front opening and a rear opening; a first fan located within the casing; a second fan located within the casing and positioned downstream of the first fan, the first fan and the second fan being arranged to produce a flow of air through the casing from the rear opening to the front opening, the first fan and the second fan being configured to rotate in opposite directions about a common axis to produce the flow of air; a heater located within the casing to heat the air introduced into the casing; and a discharge tube located within the casing, the discharge tube including an air inlet at a rear side of the discharge tube into which the air is introduced and an air outlet at a front side of the discharge tube through which the air is discharged, wherein the casing comprises a plurality of through holes spaced apart from the rear opening, and wherein the plurality of through holes overlap with the first fan in a radial direction of the first fan, and do not overlap with the second fan in a radial direction of the second fan. 2. The dryer according to claim 1 , wherein the first fan is an axial flow fan and comprises: a first fan motor having a first rotating shaft that extends along the common axis; a first hub connected to the first rotating shaft; and a plurality of first blades coupled to an outer peripheral surface of the first hub, and wherein the second fan is an axial flow fan and comprises: a second fan motor having a second rotating shaft that extends along the common axis; a second hub connected to the second rotating shaft; and a plurality of second blades coupled to an outer peripheral surface of the second hub. 3. The dryer according to claim 2 , wherein the first blades are coupled to the outer peripheral surface of the first hub to form first blade roots, wherein the second blades are coupled to the outer peripheral surface of the second hub to form second blade roots, and wherein the first blades and the second blades are inclined in opposite directions with respect to the common axis. 4. The dryer according to claim 3 , wherein each of the first blade roots is configured such that, when the first fan is rotated in a first direction, an end of the first blade root in the first direction is positioned further upstream than an end of the first blade root in a direction opposite to the first direction, and wherein each of the second blade roots is configured such that, when the second fan is rotated in a second direction opposite to the first direction, an end of the second blade root in the second direction is positioned further upstream than an end of the second blade root in a direction opposite the second direction. 5. The dryer according to claim 3 , wherein a number of the second blades is greater than a number of the first blades. 6. The dryer according to claim 3 , wherein the first fan motor is received within the first hub, wherein the second fan motor is received within the second hub, wherein the first rotating shaft extends from the first fan motor toward an upstream direction, and wherein the second rotating shaft extends from the second fan motor toward a downstream direction. 7. The dryer according to claim 3 , wherein the first hub has a first radius, wherein the second hub has a second radius equal to the first radius, and wherein a distance between a tip of one of the first blades and a center of the first hub is equal to a distance between a tip of one of the second blades and a center of the second hub. 8. The dryer according to claim 1 , wherein the discharge tube is rotatably coupled to the casing about at least one axis. 9. The dryer according to claim 8 , further comprising a cylindrical guide disposed within the casing, the cylindrical guide including a groove provided in an inner surface of the cylindrical guide, wherein the discharge tube includes a protrusion located on an outer surface of the discharge tube, the protrusion being located within the groove and slidably movable along the groove. 10. The dryer according to claim 9 , wherein the groove forms a closed curve in the inner surface of the cylindrical guide so that the protrusion is continuously movable along the groove when the discharge tube is rotated. 11. The dryer according to claim 10 , wherein a shape of the groove is a circular shape that extends in a circumferential direction. 12. The dryer according to claim 10 , wherein a shape of the groove is a wave shape. 13. The dryer according to claim 12 , wherein the protrusion comprises a pair of protrusions that are spaced apart from each other by 180 degrees in a rotation direction of the discharge tube. 14. The dryer according to claim 12 , further comprising: a rotation motor having a rotation shaft rotatable about a first axis; and a connector having a first end connected to the rotation shaft and a second end connected to the discharge tube, the connector being configured to rotate the discharge tube about the first axis, wherein the discharge tube is rotated both about the first axis and about a second axis oriented at a predetermined angle relative to the first axis upon activation of the rotation motor. 15. The dryer according to claim 14 , wherein the discharge tube comprises a pair of recess portions that are spaced apart from each other by 180 degrees in a rotation direction of the discharge tube, and wherein opposing ends of the connector are rotatably fitted into respective ones of the pair of recess portions. 16. The dryer according to claim 8 , wherein a size of the air outlet of the discharge tube is smaller than a size of the air inlet of the discharge tube, wherein the size of the air outlet comprises a length and a width, and wherein the length is greater than the width. 17. A dryer, comprising: a hollow casing having a front opening and a rear opening; a fan located within the casing, the fan being arranged to produce a flow of air through the casing from the rear opening to the front opening, the fan including a plurality of fixing rods projecting outwardly in a radial direction; a heater located within the casing to heat the air introduced into the casing; a discharge tube located within the casing, the discharge tube including an air inlet at a rear side of the discharge tube into which the air is introduced and an air outlet at a front side of the discharge tube through which the air is discharged, the discharge tube rotatably coupled to the casing about at least one axis; an inner sleeve located within the casing and positioned between the fan and the discharge tube; and a rotation motor coupled to an inside of the inner sleeve, the rotation motor configured to rotate the discharge tube, wherein the fixing rods are coupled to the inside of the inner sleeve. 18. The dryer according to claim 17 , wherein the inner sleeve comprises a plurality of grooves, the grooves being circumferentially spaced apart from one another, wherein each of the fixing rods includes a plate portion extending at an angle with respect to the radial direction, and wherein each plate portion is fitted into a corresponding one of the grooves. 19. The dryer according to claim 17 , wherein the inner sleeve extends along an inner side of the casing between the fan and the discharge tube, and wherein the inner sleeve has a shape of a venturi tube.