JP4017491B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner that harmonizes captured air and sends it out indoors, and more particularly to an air conditioner that can send air upward.
[0002]
[Prior art]
Since the conventional air conditioner sends out air substantially horizontally or downward, if the air is continuously blown in a state in which the room temperature reaches the vicinity of the set temperature, a cold wind or a warm wind always hits the user. Therefore, there is a problem that the user is uncomfortable and the body temperature of the user is locally lowered during dehumidifying operation or cooling operation, which is harmful to health.
[0003]
For this reason, Japanese Patent Application No. 2002-029824 discloses an air conditioner capable of sending conditioned air horizontally or downward and sending air upward when the room temperature reaches around the set temperature. FIG. 7 is a side sectional view showing an example of an indoor unit of an air conditioner that sends air upward.
[0004]
Here, the definition of the direction used in the following description is demonstrated. The back surface of the indoor unit 1 refers to the surface where the indoor unit 1 is in contact with the wall surface when the indoor unit 1 is installed on the wall surface, and the front surface of the indoor unit 1 refers to the surface opposite the back surface. It shall be said. And the direction which goes to the front from the back of the indoor unit 1 is called the front, and the direction which goes from the front to the back is called back.
[0005]
The upper surface of the indoor unit 1 refers to the surface on the ceiling side of the room where the indoor unit 1 is installed, and the lower surface of the indoor unit 1 refers to the surface opposite to the upper surface of the indoor unit 1. And And the direction which goes to the upper surface from the lower surface of the indoor unit 1 is called upper direction, and the direction which goes to the lower surface from the upper surface of the indoor unit 1 is called downward.
[0006]
Moreover, regarding the blowing direction of the air flow, the case where the air is sent out from the outlet 5 in parallel to the horizontal plane is blown out in the horizontal direction, and the case where the air is sent out at a positive angle with respect to the horizontal direction is blown out upward, A case where a positive angle is sent downward with respect to the direction blowing is referred to as a downward blowing.
[0007]
Similarly, regarding the postures of the wind direction plates 11a and 11b and the wind guide plate 14, the horizontal direction is when parallel to the horizontal plane, and the ends in front of the wind direction plates 11a and 11b and the wind guide plate 14 with respect to the horizontal direction. Is upward (or obliquely upward), and the case where the front ends of the wind direction plates 11a and 11b and the wind guide plate 14 with respect to the horizontal direction are downward is referred to as downward (or obliquely downward). These directions are not limited to the indoor unit 1 and may be used.
[0008]
An indoor unit 1 of an air conditioner has a main body held by a cabinet 2 attached to a wall surface of the room, and a front panel 3 provided with suction ports 4a and 4c on the front side and the upper side is attached to and detached from the cabinet 2. It is attached freely.
[0009]
A substantially rectangular air outlet 5 extending in the width direction of the indoor unit 1 is formed in the gap between the lower end of the front panel 3 and the lower end of the cabinet 2. Inside the indoor unit 1, a ventilation path 6 that communicates from the inlets 4 a and 4 c to the outlet 5 is formed. A blower fan 7 that sends out air is disposed in the blower path 6.
[0010]
The blower outlet 5 has the 1st opening part 5a and the 2nd opening part 5b. The first and second openings 5a and 5b are not provided with a clear boundary, but for the sake of convenience, the lower part of the outlet 5 is the first opening 5a and the upper part is the second opening 5b. The first opening 5 a is arranged facing the lower end of the air blowing path 6. The second opening 5 b is provided at the end of the branch passage 13 that branches upward from the blower path 6. The upper wall of the branch passage 13 is composed of a guide surface 13a that is inclined upward as it goes forward.
[0011]
An air filter 8 that collects and removes dust contained in the air sucked from the suction ports 4 a and 4 c is provided at a position facing the front panel 3. An indoor heat exchanger 9 is disposed between the blower fan 7 and the air filter 8 in the blower path 6.
[0012]
The indoor heat exchanger 9 is connected to a compressor (not shown) arranged outdoors, and the refrigeration cycle is operated by driving the compressor. The indoor heat exchanger 9 is cooled to a temperature lower than the ambient temperature during cooling by operating the refrigeration cycle. During heating, the indoor heat exchanger 9 is heated to a temperature higher than the ambient temperature. A drain pan 10 that collects condensation that has fallen from the indoor heat exchanger 9 during cooling or dehumidification is provided in the lower part before and after the indoor heat exchanger 9.
[0013]
The blower outlet 5 is provided with lateral louvers 11a and 11b and an air guide plate 14 that face the outside and can change the blowout angle in the vertical direction. The horizontal louvers 11a and 11b can open and close the first opening 5a at the lower part of the outlet 5 to change the air delivery direction from downward to upward. The air guide plate 14 can open and close the second opening 5b at the top of the air outlet 5 to change the air sending direction from substantially horizontal to upward. Further, a vertical louver 12 capable of changing the blowing angle in the left-right direction is provided on the back side of the horizontal louvers 11a and 11b.
[0014]
In the air conditioner having the above configuration, when the operation of the air conditioner is started, the blower fan 7 is rotationally driven, the refrigerant from the outdoor unit (not shown) flows to the indoor heat exchanger 9, and the refrigeration cycle is operated. As a result, air is sucked into the indoor unit 1 from the suction ports 4 a and 4 c, and dust contained in the air is removed by the air filter 8.
[0015]
The air taken into the indoor unit 1 exchanges heat with the indoor heat exchanger 9, and is cooled or heated. Then, the conditioned air is regulated in the left-right direction by the vertical louver 12 through the ventilation path 6 and is also regulated in the vertical direction by the air guide plate 14 and the horizontal louvers 11a, 11b, and is sent out from the outlet 5 to the room. Is done. Thereby, indoor air conditioning is performed.
[0016]
Further, in a stable state where the room temperature is stable, as shown in the figure, the air guide plate 14 and the lateral louvers 11a and 11b are arranged upward, and conditioned air is sent upward. Thereby, a cold wind and a warm wind do not always hit a user, and while discomfort can be reduced, the fall of local body temperature can be prevented.
[0017]
[Problems to be solved by the invention]
However, according to the conventional air conditioner described above, there is a problem that condensation occurs near the air outlet 5 when the cool air is sent out substantially horizontally or downward from the air outlet 5 during the cooling operation. That is, as shown in FIG. 8, when the conditioned air is sent downward from the air outlet 5 with the air guide plate 14 directed substantially in the horizontal direction and the lateral louvers 11a, 11b directed downward, the surrounding air is sucked by the blown airflow. A suction force is generated. For this reason, as shown by broken line arrows in the figure, the air above the outlet 5 descends along the front panel 3, and is then guided indoors along with the blown airflow.
[0018]
At this time, the air descending the surface of the front panel 3 enters the second opening 5b along the guide surface 13a, and the air descending slightly away from the front panel 3 blows away from the second opening 5b. Along the airflow. For this reason, separation of the flow occurs in the second opening 5b as shown in D section, and air at room temperature stays. Since the staying air comes into contact with the conditioned air and is cooled below the dew point temperature, dew condensation occurs on the surface of the guide surface 13a.
[0019]
Further, as shown in FIG. 9, when the air guide plate 14 is closed and the conditioned air is sent downward from the outlet 5 with the lateral louvers 11a and 11b facing downward, the air above the outlet 5 becomes the same as above. Descent along the front panel 3. The lowered air contacts the surface of the air guide plate 14 and is guided into the room together with the blown airflow.
[0020]
At this time, since the inner surface side of the air guide plate 14 is in contact with the conditioned air and the outer surface side is in contact with air at room temperature, a temperature difference occurs between both surfaces. For this reason, the air on the outer surface of the air guide plate 14 is cooled below the dew point temperature, and condensation occurs on the surface of the air guide plate 14.
[0021]
The present invention has been made in view of the above problems, and an object thereof is to provide an air conditioner that can send conditioned air upward and prevent condensation.
[0022]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is an air conditioner that is attached to an indoor wall surface and harmonizes air taken from a suction port, and sends air downward and upward from a blowout port.
A guide surface that is inclined so as to be upward as it goes forward through the upper wall of the air flow path facing the air outlet ;
A first opening for guiding the air before SL is disposed below the outlet substantially horizontally to the downward direction,
A second opening for guiding the air upward disposed on the upper portion of the air outlet,
A wind direction plate provided in the first opening and capable of changing the air delivery direction from downward to upward;
An air guide plate provided in the second opening and capable of changing the air sending direction to a substantially horizontal upward direction ;
With
When sending air horizontally or downward ,
The air guide plate, the gap between the tip of the air flow downstream the guide surface narrower than the gap between the guide surface and the tip portion of the airflow upstream side, is sent to the horizontal or downward A part of the air is guided upward and sent out from the second opening, and the air sent out from the second opening is sucked into the air sent out from the first opening and descends along the air guide plate. It is characterized by being arranged in .
[0023]
According to this structure, the air taken in from the suction inlet is harmonized and sent upward or horizontally or downward from the outlet. At this time, a part of the conditioned air that is sent out horizontally or downward is sent out by being shunted upward by the air guide plate . The air sent upward is sucked into the air sent horizontally or downward, and is guided horizontally or downward together with the air. In addition, the conditioned air guided upward by the air guide plate is sent out along the guide surface forming the upper wall of the air circulation passage. Furthermore, conditioned air can be reliably sent along the upper wall.
[0024]
Further, the present invention is an air conditioner that is attached to a wall surface of a room and harmonizes air taken from a suction port, and sends out air downward and upward from a blower outlet.
A front panel covering the front of the air conditioner before Symbol outlet to have a guide surface which is inclined so that the upper toward forward,
A first opening for guiding the air before SL is disposed below the outlet substantially horizontally to the downward direction,
A second opening for guiding the air upward disposed on the upper portion of the air outlet,
A wind direction plate provided in the first opening and capable of changing the air delivery direction from downward to upward;
An air guide plate provided in the second opening and capable of changing the air sending direction to a substantially horizontal upward direction ;
With
When sending air horizontally or downward ,
The air guide plate, the gap between the tip of the air flow downstream the guide surface narrower than the gap between the guide surface and the tip portion of the airflow upstream side, is sent to the horizontal or downward A part of the air is guided upward and sent out from the second opening, and the air sent out from the second opening is sucked into the air sent out from the first opening and descends along the air guide plate. It is characterized by being arranged in .
[0025]
Further, when the angle between the wind direction plate adjacent to the wind guide plate and the wind guide plate is set to 40 ° to 90 °, the conditioned air is made to follow the upper wall and the backflow is prevented.
Further, when the air guide plate is opened 5 ° to 30 ° from the shielding position, a sufficient amount of conditioned air can be guided upward along the outer surface of the air guide plate.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. For convenience of explanation, the same parts as those in FIGS. FIG. 1 is a side sectional view showing the air conditioner of the present embodiment. The configuration of this embodiment is the same as that of the conventional example shown in FIG.
[0027]
An indoor unit 1 of an air conditioner has a main body held by a cabinet 2 attached to a wall surface of the room, and a front panel 3 provided with suction ports 4a and 4c on the front side and the upper side is attached to and detached from the cabinet 2. It is attached freely.
[0028]
A substantially rectangular air outlet 5 extending in the width direction of the indoor unit 1 is formed in the gap between the lower end of the front panel 3 and the lower end of the cabinet 2. Inside the indoor unit 1, a ventilation path 6 that communicates from the inlets 4 a and 4 c to the outlet 5 is formed. A blower fan 7 that sends out air is disposed in the blower path 6.
[0029]
The blower outlet 5 has the 1st opening part 5a and the 2nd opening part 5b. The first and second openings 5a and 5b are not provided with a clear boundary, but for the sake of convenience, the lower part of the outlet 5 is the first opening 5a and the upper part is the second opening 5b. The first opening 5 a is arranged facing the lower end of the air blowing path 6. The second opening 5 b is provided at the end of the branch passage 13 that branches upward from the blower path 6. The upper wall of the branch passage 13 is composed of a guide surface 13a that is inclined upward as it goes forward.
[0030]
An air filter 8 that collects and removes dust contained in the air sucked from the suction ports 4 a and 4 c is provided at a position facing the front panel 3. An indoor heat exchanger 9 is disposed between the blower fan 7 and the air filter 8 in the blower path 6.
[0031]
The indoor heat exchanger 9 is connected to a compressor (not shown) arranged outdoors, and the refrigeration cycle is operated by driving the compressor. The indoor heat exchanger 9 is cooled to a temperature lower than the ambient temperature during cooling by operating the refrigeration cycle. During heating, the indoor heat exchanger 9 is heated to a temperature higher than the ambient temperature. A drain pan 10 that collects condensation that has fallen from the indoor heat exchanger 9 during cooling or dehumidification is provided in the lower part before and after the indoor heat exchanger 9.
[0032]
The blower outlet 5 is provided with lateral louvers 11a and 11b and an air guide plate 14 that face the outside and can change the blowout angle in the vertical direction. The horizontal louvers 11a and 11b can open and close the first opening 5a at the lower part of the outlet 5 to change the air delivery direction from downward to upward. The air guide plate 14 can open and close the second opening 5b at the top of the air outlet 5 to change the air sending direction from substantially horizontal to upward. Further, a vertical louver 12 capable of changing the blowing angle in the left-right direction is provided on the back side of the horizontal louvers 11a and 11b.
[0033]
In the air conditioner having the above configuration, when the operation of the air conditioner is started, the blower fan 7 is rotationally driven, the refrigerant from the outdoor unit (not shown) flows to the indoor heat exchanger 9, and the refrigeration cycle is operated. As a result, air is sucked into the indoor unit 1 from the suction ports 4 a and 4 c, and dust contained in the air is removed by the air filter 8.
[0034]
The air taken into the indoor unit 1 exchanges heat with the indoor heat exchanger 9, and is cooled or heated. Then, the conditioned air is regulated in the left-right direction by the vertical louver 12 through the ventilation path 6 and is also regulated in the vertical direction by the air guide plate 14 and the horizontal louvers 11a, 11b, and is sent out from the outlet 5 to the room. Is done. Thereby, indoor air conditioning is performed.
[0035]
In the stable state in which the room temperature is stable, the air guide plate 14 and the lateral louvers 11a and 11b are arranged upward and the conditioned air is sent upward as in FIG. Thereby, a cold wind and a warm wind do not always hit a user, and while discomfort can be reduced, the fall of local body temperature can be prevented.
[0036]
When the conditioned air is sent downward from the outlet 5 immediately after the air conditioner is started, the lateral louvers 11a and 11b and the air guide plate 14 are arranged as shown in FIG. The horizontal louver 11a is disposed 20 ° downward from the horizontal direction, and the horizontal louver 11b is disposed 40 ° downward from the horizontal direction. Further, the air guide plate 14 is disposed in a 45 ° direction upward from the horizontal direction.
[0037]
FIG. 3 shows the air flow at the outlet 5 at this time. The direction of the horizontal louvers 11a and 11b is adapted to follow the flow from the blower path 6. Thereby, ventilation resistance is made small and conditioned air is sent out diagonally downward most efficiently from the 1st opening part 5a.
[0038]
Further, the air guide plate 14 is directed upward by 65 ° with respect to the lateral louver 11a, and part of the airflow passing through the upper surface of the lateral louver 11a is guided upward along the air guide plate 14. Thereby, a part of the conditioned air is diverted and flows into the branch path 13, flows along the guide surface 13 a of the branch path 13 by the Coanda effect, and is sent upward from the second opening 5 b.
[0039]
At this time, the air descending on the surface of the front panel 3 as shown by the broken line arrow in the figure is blocked by the air flowing along the guide surface 13a and enters the second opening 5b as shown in FIG. Does not invade. Accordingly, air at room temperature does not cause separation of the flow at the second opening 5b, and condensation on the surface of the guide surface 13a can be prevented.
[0040]
The conditioned air sent upward from the second opening 5 b is sucked into the air sent downward from the first opening 5 a and descends along the air guide plate 14. For this reason, conditioned air contacts the outer surface of the air guide plate 14. Therefore, the dew condensation generated on the air guide plate 14 can be prevented as shown in FIG.
[0041]
FIG. 4 shows a case where the angle formed between the horizontal louver 11a and the air guide plate 14 is less than about 40 °. According to the figure, the air sent upward by the air guide plate 14 is strongly attracted to the air flow from the first opening 5 a on the outer surface side of the air guide plate 14. Thereby, the effect which makes conditioned air follow the guide surface 13a becomes weak.
[0042]
For this reason, room temperature air descending along the front panel 3 enters from the second opening 5b, and flow separation occurs as in FIG. The same applies to the case where the air guide plate 14 faces downward in the horizontal direction. Therefore, it is desirable to arrange the air guide plate 14 at an angle of 40 ° or more from the horizontal louver 11a and upward from the horizontal direction.
[0043]
Further, when the air guide plate 14 faces 90 ° or more above the lateral louver 11a, the conditioned air may flow backward without reaching the tip of the air guide plate 14 as shown in FIG. For this reason, the air of room temperature contacts the outer surface of the baffle plate 14, and a possibility that condensation will generate | occur | produce will arise. Therefore, it is more desirable to arrange the air guide plate 14 upward from the horizontal direction and at an angle of 40 ° to 90 ° from the lateral louver 11a.
[0044]
Moreover, the direction of the air guide plate 14 in FIG. 2 and FIG. 3 is directed 10 ° above the direction of the air guide plate 14 during upward air blowing (see FIG. 7). Thereby, conditioned air can be made to follow the guide surface 13a more reliably. That is, the amount of air flowing through the branch passage 13 is smaller during horizontal or lower air blowing than during upper air blowing shown in FIG. Since the effect of flowing along the guide plate 13a is reduced when the amount of air is reduced, the conditioned air can be surely brought along the guide plate 13a by increasing the angle of the air guide plate 14.
[0045]
Furthermore, the direction of the air guide plate 14 in FIGS. 2 and 3 is in a state of being opened 20 ° from the shielding position of the air guide plate 14. Thereby, conditioned air can be made to follow the guide surface 13a more reliably. That is, when the air guide plate 14 is opened at less than 5 ° from the closed position, the opening area of the second opening 5b is narrowed and the flow rate is reduced as shown in FIG. For this reason, the air flow from the second opening 5b is reattached while being mixed with air at room temperature on the outer surface of the air guide plate 14, and condensation tends to occur.
[0046]
When the air guide plate 14 is opened wider than 30 ° from the shielding position, the opening area becomes larger than the amount of air sent out from the second opening 5b, as in FIG. Thereby, since it becomes difficult for the air flow to follow along the guide surface 13a of the branch passage 13, air at room temperature easily flows into the second opening 5a. Therefore, when the air guide plate 14 is opened 5 ° to 30 ° from the shielding position, dew condensation can be more suitably prevented.
[0047]
As described above, in the present embodiment, in the state where the horizontal louver 11a is disposed 20 ° below the horizontal direction, the air guide plate 14 may have an angle of 20 ° to 70 ° upward from the horizontal direction. When the air guide plate 14 is set to 35 ° to 60 ° upward from the horizontal direction, the conditioned air can be more surely guided along the guide surface 13a, and a sufficient amount of conditioned air sent upward can be secured. it can.
[0048]
In the present embodiment, the guide surface 13a is provided on the inner side of the second opening 5b, but the guide surface is provided as a part of the front panel 3 on the outer side of the second opening 5b with the air guide plate 14 disposed rearward. Even when 13a is provided, the same effect can be obtained.
[0049]
It is more desirable to provide a mechanism for suppressing a short circuit, such as a groove or protrusion extending in the width direction of the indoor unit 1 or a second air guide plate above the second opening 5b. In this case, since it is possible to suppress the airflow along the upper wall surface 13a of the branch passage 13 from flowing upward along the front panel 3 as it is, dew condensation occurring on the surface of the front panel 3 can be prevented.
[0050]
In this embodiment, two horizontal louvers are provided, but the same effect can be obtained by providing one or three or more. In addition, the guide surface 13a of the branch passage 13 may have any shape as long as the upward air can be suitably blown during the upward air blowing. For example, the guide surface 13a can be formed by a plane, a curved surface, a plurality of planes, and the like.
[0051]
The cross-sectional shape of the air guide plate 14 may be any shape as long as the upward air flow can be suitably performed during the upward air flow. For example, the shape may be linear, curved, or bent, and may be convex downward, convex upward, wing shape, elliptical shape, or rectangular shape. The direction of rotation of the air guide plate 14 is not particularly limited, and the same effect can be obtained in any way. In the present embodiment, the air guide plate 14 is rotated counterclockwise when opened in FIG. 1 and clockwise when closed. Thereby, the baffle plate 14 can be arranged in a desired direction with a smaller rotation angle.
[0052]
The air guide plate 14 does not always have to face in a certain direction, and reciprocates at a predetermined angle (for example, between 40 ° and 50 ° upward from the horizontal) at a certain cycle (for example, 1 second cycle). And more desirable. This makes it difficult for the flow to stay on the guide surface 13a of the branch passage 13 and the outer surface side of the air guide plate 14, and further prevents condensation.
[0053]
The features of the present embodiment described above can also be summarized as follows.
[0054]
(1) In an air conditioner that harmonizes air taken in from an intake port and switches the open state of a baffle plate provided at the air outlet to send the conditioned air blowing direction horizontally or downward and upward. The flow dividing means for guiding the conditioned air so that a part of the conditioned air flows upward when it is sent out horizontally or downward is disposed in the outlet or the air passage so as to intersect with the horizontal or downward direction of the conditioned air. It is characterized by that.
[0055]
(2) The intersecting angle between the flow dividing means and the air blowing direction is determined so that the conditioned air divided by the flow dividing means merges with the conditioned air sent through the flow dividing means again horizontally or downward. To do.
[0056]
(3) The crossing angle between the flow dividing means and the air blowing direction is changed corresponding to the air blowing direction of the conditioned air.
[0057]
(4) In an air conditioner that harmonizes air taken in from an inlet and sends conditioned air horizontally or downward and upward from the outlet, an outlet that is disposed above the outlet and is located above the conditioned air ( A wind guide plate that opens and closes the second opening) and a wind direction plate that is arranged below the wind guide plate and that changes the blowing direction of the conditioned air blown from the lower part of the blowout port from horizontal to below, When the conditioned air is sent horizontally or downward, the air guide plate in the air outlet or the air passage so that a part of the conditioned air crosses the horizontal or downward blowing direction of the conditioned air and flows upward. Is provided.
[0058]
(5) The crossing angle between the air guide plate and the sending direction is set so that the conditioned air that has flowed upward by the air guide plate merges with the conditioned air that has been sent horizontally or downward after passing through the air guide plate. It is characterized by determining.
[0059]
(6) It has a guide surface that is inclined so as to become upward as it goes forward through the upper wall of the air flow path that faces the blower outlet, and the conditioned air that has diverted upward is at least on the downstream end of the guide surface The air guide plate is disposed so as to flow to the portion.
[0060]
(7) The air guide plate is disposed such that a downstream end face of a ventilation path (branch passage) including the guide surface and the air guide plate is narrower than an upstream end face.
[0061]
【The invention's effect】
According to the present invention, the upper blower can air conditioner, when sending the air to the horizontal or downward, the air at room temperature descending along the front panel from entering the air outlet along the upper wall of the air flow route Can be prevented. Therefore, air at room temperature does not cause flow separation in the vicinity of the air outlet, and dew condensation occurring on the upper wall of the air flow path can be prevented.
[0062]
Further, since conditioned air guided upward by air guide plate is to join descends along the outer surface of the baffle plate, preventing condensation both sides of the air guide plate is caused to the air guide plate in contact with the conditioned air it is Ru can be.
[0063]
In addition, according to the present invention, when the upper surface of the air flow path or the front panel has a guide surface that is inclined so as to go upward, air at room temperature flows into the air outlet along the guide surface. As a result, separation of the flow is likely to occur, and the effect of preventing condensation is particularly increased.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing an air conditioner according to an embodiment of the present invention.
FIG. 2 is a side sectional view showing the arrangement of the air guide plate and the horizontal louver of the air conditioner according to the embodiment of the present invention.
FIG. 3 is a side sectional view showing an air flow of the air conditioner according to the embodiment of the present invention.
FIG. 4 is a side sectional view for explaining the effect of the air conditioner according to the embodiment of the present invention.
FIG. 5 is a side sectional view for explaining the effect of the air conditioner according to the embodiment of the present invention.
FIG. 6 is a side sectional view for explaining the effect of the air conditioner according to the embodiment of the present invention.
FIG. 7 is a side sectional view showing a conventional air conditioner.
FIG. 8 is a side sectional view showing the air flow of the conventional air conditioner.
FIG. 9 is a side sectional view showing the air flow of a conventional air conditioner.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Cabinet 3 Front panel 4a, 4c Suction inlet 5 Outlet 5a 1st opening part 5b 2nd opening part 6 Blower path 7 Blower fan 8 Air filter 9 Indoor heat exchanger 10 Drain pan 11a, 11b Horizontal louver (wind direction board) )
12 Longitudinal louver 13 Branch passage 13a Guide surface 14 Wind guide plate

Claims (4)

In the air conditioner that attaches to the wall surface of the room and harmonizes the air taken in from the suction port, and sends the air downward and upward from the air outlet,
A guide surface that is inclined so as to be upward as it goes forward through the upper wall of the air flow path facing the air outlet ;
A first opening for guiding the air before SL is disposed below the outlet substantially horizontally to the downward direction,
A second opening for guiding the air upward disposed on the upper portion of the air outlet,
A wind direction plate provided in the first opening and capable of changing the air delivery direction from downward to upward;
An air guide plate provided in the second opening and capable of changing the air sending direction to a substantially horizontal upward direction ;
With
When sending air horizontally or downward ,
The air guide plate, the gap between the tip of the air flow downstream the guide surface narrower than the gap between the guide surface and the tip portion of the airflow upstream side, is sent to the horizontal or downward A part of the air is guided upward and sent out from the second opening, and the air sent out from the second opening is sucked into the air sent out from the first opening and descends along the air guide plate. An air conditioner that is arranged in In the air conditioner that attaches to the wall surface of the room and harmonizes the air taken in from the suction port, and sends the air downward and upward from the air outlet,
A front panel covering the front of the air conditioner before Symbol outlet to have a guide surface which is inclined so that the upper toward forward,
A first opening for guiding the air before SL is disposed below the outlet substantially horizontally to the downward direction,
A second opening for guiding the air upward disposed on the upper portion of the air outlet,
A wind direction plate provided in the first opening and capable of changing the air delivery direction from downward to upward;
An air guide plate provided in the second opening and capable of changing the air sending direction to a substantially horizontal upward direction ;
With
When sending air horizontally or downward ,
The air guide plate, the gap between the tip of the air flow downstream the guide surface narrower than the gap between the guide surface and the tip portion of the airflow upstream side, is sent to the horizontal or downward A part of the air is guided upward and sent out from the second opening, and the air sent out from the second opening is sucked into the air sent out from the first opening and descends along the air guide plate. An air conditioner that is arranged in   The air conditioner according to claim 1 or 2, wherein an angle between the wind direction plate adjacent to the wind guide plate and the wind guide plate is set to 40 ° to 90 °. The air guide plate opens and closes the upper part of the air outlet, and when the air is sent horizontally or downward from the air outlet, the air guide plate is opened 5 ° to 30 ° from the shielding position of the air outlet. the air conditioner according to any one of claims 1 to 3, characterized in that the placed.

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