Airflow direction control device of air conditioning indoor unit

What is claimed is: 1. An airflow direction control device of an air conditioning indoor unit comprising: a casing having an air outlet formed therein; a horizontal blade arranged and configured to change a posture thereof by rotating and to change an up and down direction flow of outlet air blown out from the air outlet formed in the casing, the horizontal blade having a first surface which faces inwardly relative to the casing and causes the outlet air to flow in a direction transverse to a lengthwise direction of the air outlet, and the horizontal blade being positioned at a bottom of the air outlet such that airflow only flows on the first surface; a Coanda blade arranged and configured to change a posture thereof by rotating and to cooperate with the first surface of the horizontal blade in order to utilize the Coanda effect to change the outlet air to a Coanda airflow along an outside surface of the Coanda blade, the Coanda blade being disposed above the horizontal blade, the Coanda blade including a first Coanda blade and a second Coanda blade that are disposed in a lengthwise direction of the Coanda blade; a first motor configured to drive the horizontal blade; a second motor configured to independently drive the first Coanda blade and the second Coanda blade; and a control unit configured to control the first motor and the second motor to change postures of the Coanda blade and the horizontal blade to predetermined postures that change some of the outlet air to the Coanda airflow and do not change a remainder of the outlet air to the Coanda airflow by keeping the remainder of the outlet air to an airflow along the first surface of the horizontal blade, the control unit being further configured to control the first motor and the second motor to change the postures of the Coanda blade and the horizontal blade to first postures in which a relative angle between the Coanda blade and the horizontal blade is set to an angle smaller than a predetermined angle and second postures in which the relative angle between the Coanda blade and the horizontal blade is set to an angle greater than the predetermined angle so as to cause the some of the outlet air which is a Coanda airflow and the remainder of the outlet air which is not a Coanda airflow to exist along the lengthwise direction of the air outlet. 2. The airflow direction control device of an air conditioning indoor unit according to claim 1 , wherein combinations of the postures of the Coanda blade and the horizontal blade include a combination in which the Coanda airflow is produced on part of the Coanda blade and the Coanda airflow is not produced on other parts of the Coanda blade. 3. The airflow direction control device of an air conditioning indoor unit according to claim 2 , further comprising vertical blades arranged and configured to change a right and left direction flow of the outlet air and to assume a forward blowing posture in which the outlet air is blown out in a forward direction from the air outlet and a lateral blowing posture in which the outlet air is blown out in rightward and leftward directions from the air outlet, the control unit being further configured to change the posture of the vertical blades to the lateral blowing posture when the postures of the Coanda blade and the horizontal blade are changed to the predetermined postures included in the combination in which the Coanda airflow is produced on part of the Coanda blade and the Coanda airflow is not produced on other parts of the Coanda blade. 4. The airflow direction control device of an air conditioning indoor unit according to claim 3 , wherein the control unit is further configured to, by changing the postures of the Coanda blade and the horizontal blade and the posture of the vertical blades, execute a partial Coanda blowing mode that changes some of the outlet air to the Coanda airflow and does not change the remainder of the outlet air to the Coanda airflow and a normal blowing mode that changes all of the outlet air to the Coanda airflow or does not change any of the outlet air to the Coanda airflow, and a blade angle of the vertical blades assuming the lateral blowing posture with respect to the vertical blades assuming the forward blowing posture is smaller during execution of the partial Coanda blowing mode than during execution of the normal blowing mode. 5. The airflow direction control device of an air conditioning indoor unit according to claim 1 , wherein the horizontal blade includes a first horizontal blade and a second horizontal blade that are disposed in a lengthwise direction of the horizontal blade, and the first motor is further configured to independently drive the first horizontal blade and the second horizontal blade. 6. The airflow direction control device of an air conditioning indoor unit according to claim 1 , wherein a dimension in a lengthwise direction of the Coanda blade is shorter than a dimension in the lengthwise direction of the air outlet. 7. The airflow direction control device of an air conditioning indoor unit according to claim 1 , wherein the casing has an air inlet formed above the air outlet that is configured and arranged to suck in air, and the outlet air that has become the Coanda airflow is guided to the air inlet. 8. An airflow direction control device of an air conditioning indoor unit comprising: a casing having an air outlet formed therein; a horizontal blade arranged and configured to change a posture thereof by rotating and to change an up and down direction flow of outlet air blown out from the air outlet formed in the casing, the horizontal blade having a first surface which faces inwardly relative to the casing and causes the outlet air to flow in a direction transverse to a lengthwise direction of the air outlet, the horizontal blade being positioned at a bottom of the air outlet such that airflow only flows on the first surface, the horizontal blade including a first horizontal blade and a second horizontal blade that are disposed in a lengthwise direction of the horizontal blade; a Coanda blade arranged and configured to change a posture thereof by rotating and to cooperate with the first surface of the horizontal blade in order to utilize the Coanda effect to change the outlet air to a Coanda airflow along an outside surface of the Coanda blade, the Coanda blade being disposed above the horizontal blade; a first motor configured to independently drive the first horizontal blade and the second horizontal blade; a second motor configured to drive the Coanda blade; and a control unit configured to control the first motor and the second motor to change postures of the Coanda blade and the horizontal blade to predetermined postures that change some of the outlet air to the Coanda airflow and do not change a remainder of the outlet air to the Coanda airflow by keeping the remainder of the outlet air to an airflow along the first surface of the horizontal blade, the control unit being further configured to control the first motor and the second motor to change the postures of the Coanda blade and the horizontal blade to first postures in which a relative angle between the Coanda blade and the horizontal blade is set to an angle smaller than a predetermined angle and second postures in which the relative angle between the Coanda blade and the horizontal blade is set to an angle greater than the predetermined angle so as to cause the some of the outlet air which is a Coanda airflow and the remainder of the outlet air which is not a Coanda airflow to exist along the lengthwise direction of the air outlet. 9. The airflow direction control device of an air conditioning indoor unit according to claim 8 , wherein combinations of the postures o