Air conditioner

What is claimed is: 1. A blower, comprising: a case comprising a first tower and a second tower which is spaced apart from the first tower; a passage provided between the first tower and the second tower; at least one motor provided in the case; a gate configured to reciprocate between inside the passage and inside of the case; and a linear actuator connected to the gate and configured to translate a driving rotational force of the motor to the gate as a linear motion force. 2. The blower of claim 1 , further comprising: a pinion coupled to a shaft of the motor; and a rack connected to the pinion. 3. The blower of claim 2 , wherein the rack is formed on a first surface of the linear actuator opposite to a second surface of the linear actuator facing the gate. 4. The blower of claim 1 , wherein: a first discharge port is formed in the first tower and extends in a first direction; a second discharge port is formed in the second tower and extends in the first direction, and the linear actuator is configured to move along the first direction. 5. The blower of claim 4 , wherein the first direction is a longitudinal direction of the first and second towers. 6. The blower of claim 1 , wherein the linear actuator comprises a first slit that guides a movement of the gate, and the gate includes a first protrusion which slides along the first slit when at least a portion of the first protrusion is inserted into the first slit. 7. The blower of claim 6 , wherein the first slit includes an inclined portion inclined downward in a direction toward the passage. 8. The blower of claim 7 , wherein the first slit further includes a vertical portion which has a lower end connected to an upper end of the inclined portion and extends in a length direction of the linear actuator. 9. The blower of claim 6 , wherein the first slit includes an inclined portion, wherein a portion of the inclined portion closer to the passage has a lower height than a portion of the inclined portion farther from the passage. 10. The blower of claim 9 , wherein: the guide body includes a body protrusion protruding in a direction intersecting a length direction of the guide body, and the linear actuator includes a second slit through which the body protrusion is inserted and guided. 11. The blower of claim 1 , further comprising a guide body to guide a movement of the linear actuator. 12. The blower of claim 1 , further comprising a friction reduction protrusion to prevent a surface contact between the linear actuator and the gate. 13. The blower of claim 12 , wherein the friction reduction protrusion is formed in the linear actuator, protrudes from a surface of the linear actuator facing the gate, and contacts the gate. 14. The blower of claim 13 , wherein the gate moves along a first direction, and the friction reduction protrusion extends in the first direction. 15. The blower of claim 12 , wherein the friction reduction protrusion is formed in the gate, protrudes from a surface of the gate facing the linear actuator, and contacts the linear actuator. 16. The blower of claim 12 , wherein a plurality of friction reduction protrusions are spaced apart from each other in a direction intersecting a direction in which the friction reduction protrusions extend. 17. The blower of claim 1 , further comprising a roller which separates the case and the gate. 18. The blower of claim 17 , wherein the roller is provided in a lower portion of the gate. 19. The blower of claim 1 , wherein the gate has a cross-section having an arc shape. 20. A blower, comprising: a first tower extending in a first direction; a second tower extending in the first direction and spaced apart from the first tower in a second direction; a first discharge port provided in the first tower and extending in the first direction; a second discharge port provided in the second tower and extending in the first direction; a gate configured to reciprocate between an inside and an outside of a first end of at least one of the first or second towers; a motor configured to provide a driving rotational force; and a linear actuator which is connected to the gate and configured to translate the driving rotational force of the motor to the gate as a linear motion force, wherein: the first and second discharge ports are provided between first and second ends of the first and second towers, respectively, a direction between the first ends and the second ends is a third direction, and the first and second discharge ports are configured such that air discharged through the first and second discharge ports is guided in the third direction toward the first ends.