JP5517633B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner, and more particularly, to an air conditioner in which a heat exchanger is disposed around an air blower inside an indoor unit.

  In air conditioners, wall-mounted indoor units tend to be miniaturized because of the need for reduced installation space, but heat exchange is performed by enclosing the blower so that sufficient heat exchange efficiency can be obtained even if it is miniaturized. There is something which arranged the vessel.

  Conventionally, for example, in an air conditioner described in Patent Document 1, a heat exchanger is arranged in an inverted V shape so as to surround the front side, the top side, and the back side of the blower, and air is blown out from the lower part on the front side. It is composed.

Japanese Patent No. 3233551

  However, since the lower end part of the heat exchanger arrange | positioned at the back side is approaching the drain pan of the downward direction in the conventional air conditioner, the wind speed of the air which passes through this part falls remarkably. For this reason, the function of the heat exchanger on the back side is not used effectively. In addition, since the wind speed of the air passing through the heat exchanger on the back side decreases, the wind speed of the air passing through the entire heat exchanger may vary, leading to an increase in blowing sound. It is possible to increase the angle of the heat exchanger with respect to the vertical (direction perpendicular to the horizontal plane) so that the lower end of the heat exchanger on the back side is away from the drain pan. Water vapor in the air condenses on the plate fin surface of the exchanger to become condensed water, and this condensed water is blown by the air passing between the plate fins on the upper end side of the heat exchanger and may be scattered indoors.

  The present invention solves the above-mentioned problems, and while effectively utilizing the function of the heat exchanger disposed on the back side of the indoor unit, reduces the blowing sound and prevents the condensed water from scattering into the room. It aims at providing the air conditioner which can do.

  In order to achieve the above-described object, the air conditioner of the present invention has a heat exchanger disposed around the front side, the top side, and the back side of the blower, and sucks indoor air from the front side and the top side to generate heat. In the air conditioner having an indoor unit that sends out the exchanged air from the lower surface side, the heat exchanger on the rear side has at least an angle of the lower surface of the blower side with respect to the upper surface of the upper fan side. It is characterized by being formed large.

  According to this air conditioner, the lower blower side surface is separated from the drain pan as compared with a configuration in which the upper and lower portions of the heat exchanger on the back side are formed at the same angle. For this reason, the air which passes the lower part of the heat exchanger of the back side is not inhibited by the drain pan, and the situation where the wind speed of this air falls can be prevented. As a result, the heat exchange function of the heat exchanger on the back side can be used effectively. And since the fall of the wind speed of the air which passes the lower part of the heat exchanger of the back side is prevented, since the dispersion | variation in the wind speed of the air which passes in the whole heat exchanger is lose | eliminated, ventilation sound can be reduced. In addition, since the part where the angle is increased is only the lower part of the heat exchanger on the back side, when the water vapor condenses on the plate fin surface of the heat exchanger on the back side and becomes condensed water during cooling, In the upper part of the heat exchanger on the side, the condensed water is transmitted downward through the plate fins, so that the condensed water is not blown by the air passing between the plate fins and prevents the condensed water from scattering into the room. Can do.

  In the air conditioner of the present invention, the fan side surface of the lower part of the heat exchanger on the back side is curved toward the back side.

  According to this air conditioner, the blower side surface of the lower part of the heat exchanger on the back side can be arranged closer to the back side by forming a larger angle with respect to the vertical than the upper part.

  In the air conditioner of the present invention, the blower side surface of the lower part of the heat exchanger on the back side is bent toward the back side.

  According to this air conditioner, the blower side surface of the lower part of the heat exchanger on the back side can be arranged closer to the back side by forming a larger angle with respect to the vertical than the upper part.

  In the air conditioner of the present invention, the heat exchanger on the back side is divided into a plurality of parts in the vertical direction.

  According to this air conditioner, the blower side surface of the lower part of the heat exchanger on the back side can be arranged closer to the back side by forming a larger angle with respect to the vertical than the upper part.

  Moreover, in the air conditioner of this invention, the drain pan is arrange | positioned in the lower area of the lower part of the said heat exchanger of the back side, It is characterized by the above-mentioned.

  According to this air conditioner, even if the lower part of the heat exchanger on the back side is formed with a large angle with respect to the vertical, the condensed water blown by the air that passes between the plate fins can be received by the drain pan, It is possible to prevent the condensed water from scattering into the room.

  In the air conditioner of the present invention, the lower part of the heat exchanger on the back side has a lower air flow resistance than the upper part.

  According to this air conditioner, the amount of air passing through the lower part of the heat exchanger on the back side increases, so that the heat exchange function of the heat exchanger on the back side can be used more effectively. In addition, the increase in the amount of air passing through the lower part of the heat exchanger on the back side prevents a decrease in the air speed of the air passing through the lower part of the heat exchanger on the back side. Since there is no variation, the blowing sound can be further reduced. In addition, when water vapor condenses on the surface of the plate fins of the heat exchanger on the back side during cooling, the amount of air passing through the lower part of the heat exchanger on the back side increases. The amount of condensed water increases in the lower part of the exchanger, while the amount of condensed water in the upper part of the heat exchanger on the back side decreases, so that the condensed water flows between the plate fins in the upper part of the heat exchanger on the back side. It is not blown away by the passing air, and it is possible to prevent the condensed water from scattering into the room.

  In the air conditioner of the present invention, the heat exchanger on the back side is formed such that the front and rear thicknesses are gradually reduced toward the lower end.

  According to this air conditioner, it is possible to reduce the air resistance in the lower part of the heat exchanger on the back side.

  In the air conditioner of the present invention, the lower part of the heat exchanger on the back side is formed with a heat transfer tube thinner than the upper part.

  According to this air conditioner, it is possible to reduce the air resistance in the lower part of the heat exchanger on the back side.

  In the air conditioner of the present invention, the lower part of the heat exchanger on the back side is formed with fewer plate fins raised than the upper part.

  According to this air conditioner, it is possible to reduce the air resistance in the lower part of the heat exchanger on the back side.

  In the air conditioner of the present invention, the heat exchanger on the back side may be formed such that the lower windward surface has a larger angle with respect to the vertical than the upper windward surface. Can be obtained.

  In the air conditioner of the present invention, the lower part of the heat exchanger on the back side may be arranged on the back side with respect to the upper part, and the above effect can be obtained.

  ADVANTAGE OF THE INVENTION According to this invention, while using the function of the heat exchanger arrange | positioned at the back side of an indoor unit effectively, while blowing sound can be reduced, scattering of the condensed water to the room | chamber interior can be prevented.

1 is a side sectional view of an air conditioner according to Embodiment 1 of the present invention. FIG. 2 is a side sectional view of an air conditioner according to Embodiment 2 of the present invention. FIG. 3 is a side sectional view of an air conditioner according to Embodiment 3 of the present invention. FIG. 4 is a side sectional view of an air conditioner according to Embodiment 4 of the present invention. FIG. 5 is a side sectional view of an air conditioner according to Embodiment 5 of the present invention. FIG. 6 is a side sectional view of an air conditioner according to Embodiment 6 of the present invention.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.

[Embodiment 1]
The air conditioner of the present embodiment includes an indoor unit 1 shown in FIG. The indoor unit 1 is a wall-hanging type, and the back side of the casing 2 is fixed to the wall. The casing 2 is provided with a suction port 3 for sucking indoor air on the front side and the upper side. An air filter 4 is provided at the position of the suction port 3. Further, the casing 2 is provided with a delivery port 5 for sending out air on the lower surface side thereof. At the position of the delivery port 5, a louver 6a and a flap 6b for guiding the delivered air are provided.

  A blower 7 is provided in the center of the casing 2. A heat exchanger 8 is provided inside the casing 2 on the front side, the top side, and the back side of the blower 7. In the heat exchanger 8, a plurality of plate fins 8a are arranged in the side surface direction, and a heat transfer tube 8b is provided through the plate fins 8a. In the present embodiment, the heat exchanger 8 is provided with the front side heat exchangers 8Aa, 8Ab, and 8Ac provided at the lower front side, the front center, and the upper front side, and the rear side upper heat exchanger 8Aa, 8Ab, and 8Ac. It is comprised with the exchanger 8B. The upper end of the front side heat exchanger 8Ac above the front side and the upper end of the back side heat exchanger 8B are arranged facing each other on the upper side. The heat exchanger 8 is composed of two layers on the front side and the back side. Further, drain pans 9a and 9b are respectively provided below the lower end of the front side heat exchanger 8Aa below the front side and below the lower end of the back side heat exchanger 8B.

  In the indoor unit 1 of the air conditioner, indoor air is sucked from the suction ports 3 on the upper surface side and the front side by driving the blower 7 and is cleaned by the air filter 4. The purified air passes through the heat exchanger 8 and is collected in the center of the casing 2 while being heat-exchanged, and is sent into the room from the outlet 5 on the lower surface side.

  In such an air conditioner, the back side heat exchanger 8B has at least an angle with respect to the vertical of the lower fan 7 side (leeward side) than the upper fan side 7 (leeward side) surface. Largely formed.

  Specifically, as shown in FIG. 1, the blower 7 side (leeward side) surface and the windward side surface of the lower side of the rear side heat exchanger 8B are curved toward the rear side, and the rear side heat The angle β with respect to the vertical at the lower part is formed larger than the angle α with respect to the vertical on the blower 7 side (leeward side) surface and the windward surface of the upper part of the exchanger 8B, and the lower part is arranged closer to the rear side. ing. Here, the vertical indicates a direction perpendicular to the horizontal plane in a state where the casing 2 is fixed to the wall, and the angle α is set to 40 [°] or less (preferably 35 [°] or less) with respect to the vertical. Has been. The angle α is such that when water vapor condenses on the surface of the plate fins 8a of the back-side heat exchanger 8B during the cooling to form condensed water, the condensed water travels down the plate fins 8a and reaches the drain pan 9b. Is an angle. Further, the angle β is set to 40 ° or more which is larger than the angle α with respect to the vertical. In addition, not only the said structure, but the surface of the lower fan 7 side (downward side) of the back side heat exchanger 8B is curved toward the back side, and the upper fan 7 of the back side heat exchanger 8B. The angle β with respect to the vertical may be formed larger than the angle α with respect to the vertical on the side (leeward side) surface.

  Thus, in the air conditioner of the first embodiment, the back side heat exchanger 8B has at least the lower fan 7 side (leeward side) surface, the upper fan side 7 side (leeward side) surface. The angle with respect to the vertical is formed larger than that of the rear side.

  According to this air conditioner, the upper fan side 7 side (leeward side) surface of the rear side heat exchanger 8B and the lower fan side 7 side (leeward side) surface are formed at the same angle ( The lower part is separated from the drain pan 9b as compared with a double-dotted line in FIG. For this reason, the air passing through the lower part of the back side heat exchanger 8B is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air is reduced. As a result, the heat exchange function of the back side heat exchanger 8B can be used effectively. And since the fall of the wind speed of the air which passes in the lower part of the back side heat exchanger 8B is prevented, the dispersion | variation in the wind speed of the air which passes in the whole heat exchanger 8 is lose | eliminated, and ventilation sound can be reduced. Furthermore, since the part where the angle is increased is only the lower part of the back side heat exchanger 8B, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, it becomes condensed water. In the upper part of the back side heat exchanger 8B, the condensed water is transmitted downward through the plate fins 8a, so that the condensed water is not blown by the air passing between the plate fins 8a, and the condensed water is scattered in the room. Can be prevented.

  Moreover, in the air conditioner of Embodiment 1, the drain pan 9b is arrange | positioned in the lower area of the lower part of the back side heat exchanger 8B.

  According to this air conditioner, even if the lower part of the back side heat exchanger 8B is formed at a large angle with respect to the vertical, the condensed water blown by the air passing between the plate fins 8a can be received by the drain pan 9b. Therefore, it is possible to prevent the condensed water from scattering into the room.

[Embodiment 2]
The present embodiment will be described with reference to the drawings. FIG. 2 is a side sectional view of an air conditioner according to Embodiment 2 of the present invention. In the second embodiment described below, the same reference numerals are given to the same components as those in the first embodiment described above, and the description thereof is omitted.

  The back side heat exchanger 8B is formed such that at least the surface on the lower side of the fan 7 has a larger angle with respect to the vertical than the surface on the upper side of the fan 7.

  Specifically, as shown in FIG. 2, the blower 7 side (leeward side) surface and the windward side surface below the rear side heat exchanger 8B are bent toward the rear side, and the rear side heat The angle β with respect to the vertical at the lower part is formed larger than the angle α with respect to the vertical on the blower 7 side (leeward side) surface and the windward surface of the upper part of the exchanger 8B, and the lower part is arranged closer to the rear side. ing. Here, the vertical indicates a direction perpendicular to the horizontal plane in a state where the casing 2 is fixed to the wall, and the angle α is set to 40 [°] or less (preferably 35 [°] or less) with respect to the vertical. Has been. The angle α is such that when water vapor condenses on the surface of the plate fins 8a of the back-side heat exchanger 8B during the cooling to form condensed water, the condensed water travels down the plate fins 8a and reaches the drain pan 9b. Is an angle. Further, the angle β is set to 40 ° or more which is larger than the angle α with respect to the vertical. In addition, not only the said structure, but the air blower 7 side (leeward side) surface of the lower part of the back side heat exchanger 8B is bent toward the back side, and the air blower 7 of the upper part of the back side heat exchanger 8B is used. The angle β with respect to the vertical may be formed larger than the angle α with respect to the vertical on the side (leeward side) surface.

  Thus, in the air conditioner of the second embodiment, the back side heat exchanger 8B has at least the lower fan 7 side (leeward side) surface, the upper fan side 7 side (leeward side) surface. The angle with respect to the vertical is formed larger than that of the rear side.

  According to this air conditioner, the upper fan side 7 side (leeward side) surface of the rear side heat exchanger 8B and the lower fan side 7 side (leeward side) surface are formed at the same angle ( The lower part is separated from the drain pan 9b as compared with a double-dotted line in FIG. For this reason, the air passing through the lower part of the back side heat exchanger 8B is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air is reduced. As a result, the heat exchange function of the back side heat exchanger 8B can be used effectively. And since the fall of the wind speed of the air which passes in the lower part of the back side heat exchanger 8B is prevented, the dispersion | variation in the wind speed of the air which passes in the whole heat exchanger 8 is lose | eliminated, and ventilation sound can be reduced. Furthermore, since the part where the angle is increased is only the lower part of the back side heat exchanger 8B, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, it becomes condensed water. In the upper part of the back side heat exchanger 8B, the condensed water is transmitted downward through the plate fins 8a, so that the condensed water is not blown by the air passing between the plate fins 8a, and the condensed water is scattered in the room. Can be prevented.

  Moreover, in the air conditioner of Embodiment 2, the drain pan 9b is arrange | positioned in the lower area of the lower part of the back side heat exchanger 8B.

  According to this air conditioner, even if the lower part of the back side heat exchanger 8B is formed at a large angle with respect to the vertical, the condensed water blown by the air passing between the plate fins 8a can be received by the drain pan 9b. Therefore, it is possible to prevent the condensed water from scattering into the room.

[Embodiment 3]
The present embodiment will be described with reference to the drawings. FIG. 3 is a side sectional view of an air conditioner according to Embodiment 3 of the present invention. In the third embodiment described below, the same reference numerals are given to the same components as those in the first embodiment, and the description thereof is omitted.

  The back side heat exchanger 8B is formed such that at least the lower fan 7 side (leeward side) surface has a larger angle with respect to the vertical than the upper fan side 7 side (leeward side) surface.

  Specifically, as shown in FIG. 3, the back side heat exchanger 8B is divided into an upper back side heat exchanger 8Ba and a lower back side heat exchanger 8Bb. The lower back-side heat exchanger 8Bb is formed such that the angle β with respect to the vertical is larger than the angle α with respect to the vertical of the upper back-side heat exchanger 8Ba, and the lower part is disposed closer to the back side. Here, the vertical indicates a direction perpendicular to the horizontal plane in a state where the casing 2 is fixed to the wall, and the angle α is set to 40 [°] or less (preferably 35 [°] or less) with respect to the vertical. Has been. The angle α is such that when water vapor condenses on the surface of the plate fins 8a of the back-side heat exchanger 8B during the cooling to form condensed water, the condensed water travels down the plate fins 8a and reaches the drain pan 9b. Is an angle. Further, the angle β is set to 40 ° or more which is larger than the angle α with respect to the vertical. In addition, not only the said structure, but the back side heat exchanger 8B is divided | segmented into upper back side heat exchanger 8Ba and lower back side heat exchanger 8Bb, and the fan 7 side (leeward side of lower back side heat exchanger 8Bb) ) Is curved or bent toward the back side, and the angle β with respect to the vertical is larger than the angle α with respect to the vertical on the surface of the fan 7 side (leeward side) of the upper back side heat exchanger 8Ba. It may be formed.

  As described above, in the air conditioner of the third embodiment, the back side heat exchanger 8B is divided into a plurality of parts in the vertical direction, and at least the blower 7 side (leeward side) surface of the lower lower back side heat exchanger 8Bb is the upper part. The upper rear side heat exchanger 8Ba is formed at a larger angle with respect to the vertical than at least the surface on the blower 7 side (leeward side) and is disposed closer to the rear side.

  According to this air conditioner, compared to a configuration in which the upper part and the lower part of the back side heat exchanger 8B are formed at the same angle (indicated by a two-dot chain line in FIG. 3), the lower back side heat exchange divided. The vessel 8Bb is separated from the drain pan 9b. For this reason, the air passing through the lower back side heat exchanger 8Bb is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air decreases. As a result, the heat exchange function of the back side heat exchanger 8B can be used effectively. And since the fall of the wind speed of the air which passes in the lower part of the back side heat exchanger 8B is prevented, the dispersion | variation in the wind speed of the air which passes in the whole heat exchanger 8 is lose | eliminated, and ventilation sound can be reduced. Furthermore, since the portion where the angle is increased is only the lower back side heat exchanger 8Bb, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, In the back side heat exchanger 8Ba, since the condensed water is transmitted downward through the plate fins 8a, the condensed water is not blown by the air passing between the plate fins 8a, thereby preventing the condensed water from scattering into the room. be able to.

  In the third embodiment, the back side heat exchanger 8B is divided into two parts, ie, the upper back side heat exchanger 8Ba and the lower back side heat exchanger 8Bb. However, the back side heat exchanger 8B is divided into two or more parts. Also good.

  Moreover, in the air conditioner of Embodiment 3, the drain pan 9b is arrange | positioned in the lower part of back side heat exchanger 8B, ie, the lower area | region of lower back side heat exchanger 8Bb.

  According to this air conditioner, even if the lower back side heat exchanger 8Bb is formed with a large angle with respect to the vertical, the condensed water blown by the air passing between the plate fins 8a can be received by the drain pan 9b. It is possible to prevent the condensed water from scattering into the room.

[Embodiment 4]
The present embodiment will be described with reference to the drawings. FIG. 4 is a side sectional view of an air conditioner according to Embodiment 4 of the present invention. Note that in the fourth embodiment described below, the same reference numerals are given to the same components as those in the first embodiment described above, and the description thereof is omitted.

  In the air conditioner of the present embodiment, in the above-described first to third embodiments, as shown in FIG. 4, the lower part of the back-side heat exchanger 8B gradually increases the front and rear thickness toward the lower end. Thinly formed. In addition, in FIG. 4, the structure of Embodiment 2 which bent the lower part of the back side heat exchanger 8B is illustrated.

  According to this air conditioner, the lower part is more separated from the drain pan 9b than the configuration in which the upper part and the lower part of the back side heat exchanger 8B are formed at the same angle (indicated by a two-dot chain line in FIG. 4). Will do. For this reason, the air passing through the lower part of the back side heat exchanger 8B is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air is reduced. Furthermore, according to this air conditioner, since the lower part of the back side heat exchanger 8B is formed so that the front and rear thicknesses are gradually made thinner toward the lower end, the lower part of the back side heat exchanger 8B is lower than the upper part. Since the air flow resistance is small and the amount of air passing through the lower part of the back side heat exchanger 8B is increased, the heat exchange function of the back side heat exchanger 8B can be used effectively. Moreover, since the amount of air passing through the lower part of the back side heat exchanger 8B is increased, a decrease in the wind speed of the air passing through the lower part of the back side heat exchanger 8B is prevented. Since there is no variation in the wind speed, the blowing sound can be reduced. Furthermore, since the part where the angle is increased is only the lower part of the back side heat exchanger 8B, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, it becomes condensed water. In the upper part of the back side heat exchanger 8B, the condensed water is transmitted downward through the plate fins 8a, so that the condensed water is not blown by the air passing between the plate fins 8a, and the condensed water is scattered in the room. Can be prevented. Further, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, the amount of air passing through the lower part of the back side heat exchanger 8B increases. The amount of condensed water increases at the lower part of the exchanger 8B, while the amount of condensed water at the upper part of the rear side heat exchanger 8B decreases, so that the condensed water flows into the plate fins 8a at the upper part of the rear side heat exchanger 8B. It is not blown away by the air passing between them, and it is possible to prevent a situation in which condensed water is scattered into the room.

[Embodiment 5]
The present embodiment will be described with reference to the drawings. FIG. 5 is a side sectional view of an air conditioner according to Embodiment 5 of the present invention. Note that in the fifth embodiment described below, the same reference numerals are given to the same components as those in the first embodiment described above, and the description thereof is omitted.

  In the air conditioner of the present embodiment, in the above-described first to fourth embodiments, as shown in FIG. 5, the lower part of the back side heat exchanger 8B is formed with a heat transfer tube 8b thinner than the upper part. ing. In addition, in FIG. 5, the structure of Embodiment 2 which bent the lower part of the back side heat exchanger 8B is illustrated.

  According to this air conditioner, the lower part is further away from the drain pan 9b than the configuration in which the upper part and the lower part of the back side heat exchanger 8B are formed at the same angle (indicated by a two-dot chain line in FIG. 5). Will do. For this reason, the air passing through the lower part of the back side heat exchanger 8B is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air is reduced. Furthermore, according to this air conditioner, since the lower part of the back side heat exchanger 8B is formed to have the heat transfer tube 8b thinner than the upper part, the lower part of the rear side heat exchanger 8B is more air-permeable than the upper part. Since the resistance is small and the amount of air passing through the lower part of the back side heat exchanger 8B is increased, the heat exchange function of the back side heat exchanger 8B can be used effectively. Moreover, since the amount of air passing through the lower part of the back side heat exchanger 8B is increased, a decrease in the wind speed of the air passing through the lower part of the back side heat exchanger 8B is prevented, so that the amount of air passing through the entire heat exchanger 8 is reduced. Since there is no variation in the wind speed, the blowing sound can be reduced. Furthermore, since the part where the angle is increased is only the lower part of the back side heat exchanger 8B, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, it becomes condensed water. In the upper part of the back side heat exchanger 8B, the condensed water is transmitted downward through the plate fins 8a, so that the condensed water is not blown by the air passing between the plate fins 8a, and the condensed water is scattered in the room. Can be prevented. Further, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, the amount of air passing through the lower part of the back side heat exchanger 8B increases. The amount of condensed water increases at the lower part of the exchanger 8B, while the amount of condensed water at the upper part of the rear side heat exchanger 8B decreases, so that the condensed water flows into the plate fins 8a at the upper part of the rear side heat exchanger 8B. It is not blown away by the air passing between them, and it is possible to prevent a situation in which condensed water is scattered into the room.

[Embodiment 6]
The present embodiment will be described with reference to the drawings. FIG. 6 is a side sectional view of an air conditioner according to Embodiment 6 of the present invention. In the sixth embodiment described below, the same components as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted.

  In the air conditioner of the present embodiment, as shown in FIG. 6 in the above-described first to fifth embodiments, the lower part of the back side heat exchanger 8B is cut and raised 8c of the plate fin 8a than the upper part. Is formed with a small number. In addition, in FIG. 6, the structure of Embodiment 2 which bent the lower part of the back side heat exchanger 8B is illustrated.

  According to this air conditioner, the lower part is more separated from the drain pan 9b than the configuration in which the upper part and the lower part of the back side heat exchanger 8B are formed at the same angle (indicated by a two-dot chain line in FIG. 6). Will do. For this reason, the air passing through the lower part of the back side heat exchanger 8B is not obstructed by the drain pan 9b, and it is possible to prevent a situation in which the wind speed of the air is reduced. Furthermore, according to this air conditioner, the lower part of the back side heat exchanger 8B is formed with fewer plate fins 8a than the upper part, so that the lower part of the back side heat exchanger 8B is Since the ventilation resistance of air is smaller than that of the upper part and the amount of air passing through the lower part of the back side heat exchanger 8B is increased, the heat exchange function of the back side heat exchanger 8B can be used effectively. Moreover, since the amount of air passing through the lower part of the back side heat exchanger 8B is increased, a decrease in the wind speed of the air passing through the lower part of the back side heat exchanger 8B is prevented, so that the amount of air passing through the entire heat exchanger 8 is reduced. Since there is no variation in the wind speed, the blowing sound can be reduced. Furthermore, since the part where the angle is increased is only the lower part of the back side heat exchanger 8B, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, it becomes condensed water. In the upper part of the back side heat exchanger 8B, the condensed water is transmitted downward through the plate fins 8a, so that the condensed water is not blown by the air passing between the plate fins 8a, and the condensed water is scattered in the room. Can be prevented. Further, when water vapor condenses on the surface of the plate fins 8a of the back side heat exchanger 8B during cooling, the amount of air passing through the lower part of the back side heat exchanger 8B increases. The amount of condensed water increases at the lower part of the exchanger 8B, while the amount of condensed water at the upper part of the rear side heat exchanger 8B decreases, so that the condensed water flows into the plate fins 8a at the upper part of the rear side heat exchanger 8B. It is not blown away by the air passing between them, and it is possible to prevent a situation in which condensed water is scattered into the room.

  As described above, the air conditioner according to the present invention reduces the blowing sound and effectively prevents the condensed water from scattering into the room while effectively using the function of the heat exchanger disposed on the back side of the indoor unit. Suitable for that.

DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Casing 3 Intake port 4 Air filter 5 Outlet 6a Louver 6b Flap 7 Blower 8 Heat exchanger 8a Plate fin 8b Heat exchanger tube 8c Cutting and raising 8Aa, 8Ab, 8Ac Front side heat exchanger 8B Back side heat exchanger 8Ba Upper back side heat exchanger 8Bb Lower back side heat exchanger 9a, 9b Drain pan

Claims (10)

An indoor unit that surrounds the front side, top side, and back side of the blower, and that sucks indoor air from the suction ports on the front side and top side and sends out heat-exchanged air from the bottom side outlet. In the air conditioner that has
The heat exchanger on the rear side is between the suction port on the upper surface side and the blower, and the surface on the blower side is inclined downward on the opposite side of the delivery port across the blower. The entire surface on the lower side of the blower is opposed to a drain pan disposed between the blower in the lower area of the lower portion, and the lower surface of the upper side of the blower side is constantly inclined. The air conditioner is characterized in that an angle with respect to the vertical is formed larger than that of the upper blower side surface so that the blower side surface reaches the lower end and is separated from the blower and the drain pan .   The air conditioner according to claim 1, wherein a surface on the blower side of the lower part of the heat exchanger on the back side is curved toward the back side.   The air conditioner according to claim 1, wherein a surface on the blower side of the lower part of the heat exchanger on the back side is bent toward the back side.   The air conditioner according to claim 1, wherein the heat exchanger on the back side is divided into a plurality of parts in the vertical direction. The air conditioner according to any one of claims 1 to 4 , wherein the lower part of the heat exchanger on the back side has lower airflow resistance than the upper part. The air conditioner according to any one of claims 1 to 5 , wherein the heat exchanger on the back side is formed so that the front and rear thicknesses are gradually reduced toward the lower end. The air conditioner according to any one of claims 1 to 6 , wherein a lower part of the heat exchanger on the back side is formed with a heat transfer tube thinner than the upper part. The air conditioner according to any one of claims 1 to 7 , wherein the lower part of the heat exchanger on the back side is formed with fewer plate fins raised than the upper part. Said heat exchanger on the rear side, one of them windward side of the lower part, one of the claims 1 to 8, characterized in that than upwind-side surface of the upper is formed larger angle relative to the vertical Air conditioner as described in. The air conditioner according to any one of claims 1 to 9 , wherein the lower part of the heat exchanger on the back side is disposed on the back side with respect to the upper part.

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