JP4023271B2 - Structure of air conditioner for windows - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a structure for improving the cooling capacity of a window air conditioner used by being attached to a window.
[0002]
[Prior art]
The window air conditioner has a refrigeration cycle consisting of an evaporator, condenser, compressor, etc. inside the frame, and the frame is partitioned into front and back bordering the inside and outside of the window, with the condenser on the outside and the evaporator on the inside The indoor air sent from the air suction port to the frame body by the blower fan is cooled when passing through the evaporator, and the cooled indoor air is returned to the room from the air outlet to perform indoor air conditioning. ing.
[0003]
And the air blower outlet is equipped with the rotary louver, and it has the structure which can change the blowing direction of a ventilation fan by orient | assigning a louver to arbitrary directions.
[0004]
[Problems to be solved by the invention]
In a conventional general window air conditioner, an air outlet and an air inlet are arranged in parallel on the front surface of a vertically long frame body, sucking indoor air in front of the frame body, and cool air toward the front of the frame body. Because it is a structure that blows out, if cold air blown out from the air outlet is sent to the front of the air inlet, it will be sucked in from the air inlet together with room air, reducing the cooling capacity. The direction of the louver was restricted so that it would not blow toward the front.
[0005]
In addition, since the air outlet is arranged close to one side of the front surface of the frame, when the air outlet is located on the side close to the wall when the air conditioner is attached to the window, Since it can only be changed to the side, the cool air cannot be blown out toward the center of the room, and a uniform cooling effect cannot be obtained.
[0006]
In addition, the evaporator in the frame is arranged to the full width of the air suction port, and the blower fan is arranged close to the air outlet, so that the room air that passes through the evaporator is the fin of the evaporator at the part farthest from the blower fan. In this part, the air flow was hindered to reduce the heat exchange efficiency, and the expected cooling capacity could not be exhibited.
[0007]
Furthermore, since it is difficult to improve the cooling capacity even if the width of the evaporator is widened, in order to obtain the cooling capacity, the evaporator has a large shape in the vertical direction, and the frame shape also becomes large in the vertical direction. There is a need for a frame-shaped air conditioner that can also accommodate windows.
[0008]
[Means for Solving the Problems]
The present invention solves the above-described problem, and includes a capacitor 2 and an evaporator 3 in the frame 1, the capacitor 2 is disposed on the outdoor side of the frame 1, and the evaporator 3 is disposed on the indoor side of the frame 1, An air outlet 4 and an air inlet 5 are arranged in parallel on the front surface 1a of the frame 1 without being spaced apart, and a blower fan is provided in the air flow path 6 from the evaporator 3 to the air outlet 4. In the air conditioner for windows provided with a louver 4a for changing the blowing direction of the blower fan 7, the air inlet 5 provided adjacent to the air outlet 4 is arranged at the air outlet 4. front surface 1a of the frame 1, a shape plate 1b of the frame 1 with respect to the air outlet 4 is inclined or curved towards the rear, the air outlet 4 in the front of the frame 1 It is arranged in the protruding position, the air intake With the front of the 5 configured obliquely forward of the lateral with respect to the front of the frame 1, the louvers 4a is located within the air outlet 4 which is constructed towards the front of the frame 1, the blowing direction of the louver 4a is changed capable disposed toward the air inlet 5 side adjacent to the air outlet 4 as well the front of the frame 1, the louvers 4a is blowing against the front of the frame 1 The angle is variably arranged toward the air suction port 5 up to a predetermined angle at which the air suction port 5 is inclined .
[0009]
Further, the evaporator 3 is inclined and arranged along the air suction port 5, and the entire evaporator 3 faces the air suction port 5, so that the indoor air passing through the evaporator 3 is along the fins of the evaporator 3. The heat exchange efficiency is improved.
[0010]
The air outlet 4 is arranged at the center of the front surface 1a of the frame 1, and the air inlet 5 is provided on one side or both sides of the front surface 1a adjacent to the air outlet 4, and the air inlet 5 is an air outlet. while it arranged inclined at a predetermined angle with respect to 4 and obliquely front of the opposite outlet angle of the louver 4a, the air flow path 6 in the frame 1 opposite to the air inlet 5 the width tanks Since the configured evaporators 3a and 3b are arranged, a structure in which the wind of the blower fan 7 is blown out from the center of the frame body 1 can be realized.
[0011]
Further, the air outlet 4 is arranged in the center of the front surface of the frame 1, and the air inlet 5 is provided on the front face 1 a adjacent to the air outlet 4 and a side plate 1 b continuous from the front face 1 a, the rewritable arranged inclined at a predetermined angle with respect to the blowout angle of the louver 4a toward front surface 1a provided with the mouth 5 and the air outlet 4 obliquely forward on the opposite side, of the front surface 1a of the air flow path 6 In the case where the evaporator 3a is disposed at a position facing the air suction port 5 and the evaporator 3b is disposed at a position facing the air suction port 5 of the side plate 1b , the evaporators 3a and 3b are disposed so as to surround the blower fan 7. The room air can easily pass through the evaporator 3, and the heat exchange efficiency can be further improved.
[0012]
Further, the air inlet 5 which is provided on the side plate 1b of the frame 1, an air inlet gap 8 communicating with the air suction port 5 of the front 1a between the evaporator 3 b that faces the air suction port 5 formed Since a part of the indoor air flowing in from the air suction port 5 of the front surface 1a is sent to the evaporator 3b from the air inflow gap 8, the air can be surely sent to the evaporator 3b located on the side plate 1b side. It can be done.
[0013]
[Action]
The room air sucked from the air suction port 5 on the front surface 1a of the frame 1 by the blower fan 7 is cooled through the evaporator 3 and blown out into the room as cold air from the air outlet 4 on the front surface 1a of the frame body 1. ing.
[0014]
In this invention, the front surface 1a of the frame body 1 is formed in a shape in which the side plate 1b side is inclined or curved rearward, the air outlet 4 is in front of the frame body 1, and the air suction port 5 is in the side plate 1b of the frame body 1. Since the air outlet 4 and the air inlet 5 are inclined at a predetermined angle on the front surface 1a, the outlet angle of the louver 4a is set to the inclination of the air inlet 5. Even if it is widened, the cold air blown out from the air outlet 4 and the indoor air toward the air inlet 5 do not intersect, and air can be blown also to the center side of the frame 1.
[0015]
Further, if the evaporator 3 is disposed so as to be inclined along the air suction port 5, the flow of the indoor air passing through the evaporator 3 becomes smooth, and the heat exchange efficiency can be improved.
[0016]
Further, since the evaporator 3 is composed of the evaporators 3a and 3b having a reduced width, and the evaporators 3a and 3b are arranged close to one side or both sides of the frame 1, a space is created in the center of the frame 1. The air flow path 6 downstream of the blower fan 7 can be directed to the center of the front surface 1a of the frame body 1 and the air outlet 4 can be provided in the center of the front surface 1a. Even when the air conditioner is attached to the wall, cold air can be generated. Since it blows away from the wall, it becomes easier to blow air toward the center of the room and the cooling effect can be enhanced.
[0017]
Further, in the case where the evaporator 3a is disposed between the front surface 1a of the frame 1 and the blower fan 7 and the evaporator 3b is disposed between the side plate 1b and the blower fan 7, the evaporators 3a and 3b are arranged around the blower fan 7. The room air can smoothly pass through the evaporators 3a and 3b, and the heat exchange efficiency can be improved.
[0018]
Further, since the air inflow gap 8 is formed between the evaporator 3b and the side plate 1b so that part of the indoor air that has passed through the air suction port 5 on the front surface 1a side is directed to the air inflow gap 8, the side plate 1b side Even if the air suction port 5 is closed, air can be sent to the evaporator 3b.
[0019]
【Example】
The present invention will be described with reference to the embodiments shown in the drawings. Reference numeral 1 denotes a frame of an air conditioner, 2 denotes a condenser provided in the frame 1, 3 denotes an evaporator, and a compressor, a condenser 2 and an evaporator 3 (not shown) It constitutes the refrigeration cycle.
[0020]
9 is a partition plate that divides the inside of the frame 1 into an outdoor side and an indoor side, and the air conditioner is mounted on the inside / outside of the window as a boundary, and the condenser 2 is disposed on the outdoor side and the evaporator 3 is disposed on the indoor side. Has been.
[0021]
10 is an outdoor air outlet provided on the back surface 1c of the frame 1, 11 is an air inlet provided in parallel with the air outlet 10 on the back 1c of the frame 1, and 12 is an air inlet 11 and an air outlet 10. , 13 is an outdoor fan provided in the air flow path 12, and the air intake 11 is located on the back surface of the capacitor 2, and is sucked from the air intake 11 by the outdoor fan 13. The outdoor air cools the high-temperature and high-pressure refrigerant when passing through the condenser 2 and is discharged from the air outlet 10 at a high temperature.
[0022]
4 is a vertically long air outlet provided on the front surface 1 a of the frame 1, 5 is an air inlet provided in parallel with the air outlet 4 on the front surface 1 a of the frame 1, and 6 is an air inlet 5 and an air outlet 4. , 7 is a blower fan provided in the air flow path 5, the air suction port 5 is located in front of the evaporator 3, and the room air sucked from the air suction port 5 by the blower fan 7 Is cooled by the evaporator 3 and blown into the room as cold air from the air outlet 4.
[0023]
Reference numeral 4a denotes a louver provided at the air outlet 4, and the louver 4a is pivotally supported so that the direction of cool air blown from the air outlet 4 can be changed by changing the angle of the louver 4a. It is like that.
[0024]
In the configuration in which the air outlet 4 and the air inlet 5 are arranged in parallel on the front surface 1a of the frame 1 as described above, the cold air blown from the air outlet 4 is sucked into the air inlet 5 together with the room air. Since it is easy, the blowing direction of the louver 4a is restricted so that the cool air blown from the air blowing port 4 does not go to the center side of the frame body 1 having the air suction port 5, and between the front side of the air blowing port 4 and the side plate 1b side. It was designed to blow air only in a narrow area.
[0025]
For this reason, when the air outlet 4 is located on the wall side, the louver 4a cannot be directed to the center side of the frame body 1, so that the cool air cannot be sent to the center of the room and the room is uniformly cooled. There was a drawback that could not be.
[0026]
The present invention solves the above-mentioned problems, and the front surface 1a of the frame 1 is formed in a shape in which the side plate 1b side is inclined or curved toward the rear, and the air outlet 4 is provided so as to face the front of the frame 1. By providing the air suction port 5 along the front surface 1a so as to face the side plate 1b side of the frame body 1, the air outlet 4 and the air suction port 5 of the front surface 1a of the frame body 1 are inclined at a predetermined angle. It is arranged.
[0027]
In the embodiment shown in the figure, the front surface 1a is formed in an inclined shape, and when the blower fan 7 is operated, indoor air in front of the air intake port 5, that is, diagonally forward on the side plate 1b side of the frame 1 is sucked. Even if the blowing direction of the cold air blown out from the air outlet 4 is increased by the inclination of the air inlet 5, the cold air blown out from the air outlet 4 and the indoor air toward the air inlet 5 no longer intersect. .
[0028]
For this reason, the blowing direction of the louver 4a can be directed to the air suction port 5 side by an angle that the air suction port 5 is inclined, and a structure for blowing cold air to the air suction port 5 side can be realized. And even when the air outlet 4 is located on the wall side, it is possible to blow air toward the center of the room, and the room can be uniformly cooled.
[0029]
Further, in the structure in which the conventional air outlet 4 and the air inlet 5 are arranged in parallel on the front surface 1 a of the frame body 1, the air passing through the portion farthest from the blower fan 7 is relative to the direction of the fins of the evaporator 3. In this invention, the evaporator 3 in the frame 1 is arranged so as to be inclined along the inclined air suction port 5, so that the room passing through the evaporator 3 has been lowered. The air can easily flow along the fins of the evaporator 3, and heat can be exchanged even at a position away from the blower fan 7, thereby improving the heat exchange efficiency.
[0030]
By the way, in order to direct the cold air toward the center of the room, it is necessary to increase the inclination of the front face 1a and widen the blowing angle of the louver 4a as much as possible. However, in the structure in which the air outlet 4 is located on the side plate 1b side of the frame 1, When the inclination of the front surface 1a is increased, the forward projection of the frame body 1 is increased. Further, if the louver 4a is directed too sideways, the flow of the cold air blown out from the air outlet 4 is likely to be hindered, so that the inclination angle of the front surface 1a is limited.
[0031]
In FIG. 1 showing an embodiment of the present invention, reference numerals 3a and 3b denote evaporators whose lateral widths are shortened, and the evaporators 3a and 3b are arranged so as to be stacked on the side plate 1b side in the frame body 1 in the front-rear direction. The front surface 1a of the body 1 is provided in front of the evaporators 3a and 3b, and the air suction port 5 is provided on the inclined front surface 1a.
[0032]
Since the evaporators 3a and 3b are arranged in this manner, an evaporator with a short width can be configured while maintaining the cooling capacity, so that a space is formed in the center of the frame 1 and the air in front of the evaporators 3a and 3b is formed. Since the suction port 5 does not reach the center of the front face 1a, the air flow path 6 on the downstream side of the blower fan 7 is formed in the center of the frame body 1, and the air outlet 4 is provided in the center of the front face 1a. It was possible to realize a structure in which cold air was blown out from the center of the frame 1.
[0033]
For this reason, even when the frame body 1 is mounted on the wall side, the cold air blows off at a position slightly away from the wall, so that it can be blown toward the center of the room without greatly changing the direction of the louver 4a. Therefore, it is not necessary to increase the inclination of the front surface 1a, and the forward protrusion can be suppressed. In addition, since the blowing angle of the louver 4a can be reduced so that air can be blown without interfering with the air flow, even when the blowing direction is directed to the center of the room, the cold air can reach far, making it easy to cool the room uniformly. became.
[0034]
Further, in another embodiment shown in FIG. 2, the evaporators 3a and 3b are arranged on both sides in the frame 1, and the evaporators 3a and 3b are arranged close to the side plate 1b side of the frame 1 respectively. There is a space near the center in the frame body 1, the front surface 1 a of the frame body 1 is provided so that the front of the evaporators 3 a and 3 b is inclined, and the air suction ports 5 are provided on the inclined portions on both sides of the front surface 1 a.
[0035]
Then, the air flow path 6 formed from the air suction ports 5 on both sides of the front face 1 a is merged in the vicinity of the blower fan 7 in the frame body 1, and a space formed downstream of the blower fan 7 at the center in the frame body 1. Since the air outlet 4 can be provided near the center of the front surface 1 a of the frame body 1, a structure for blowing cool air from the center of the frame body 1 can also be realized by this configuration.
[0036]
Further, in another embodiment shown in FIG. 3, the evaporator 3 a is disposed between the front surface 1 a of the frame body 1 and the blower fan 7, and the evaporator 3 b is disposed between the side plate 1 b of the frame body 1 and the blower fan 7. The air inlet 5 is provided in the front surface 1a of the frame 1 in front of the evaporator 3a and the side plate 1b on the side of the evaporator 3b.
[0037]
Since the evaporator 3b is also arranged in the vertical direction along the side plate 1b of the frame body 1 in this way, the evaporator 3a can be shortened and positioned closer to the side plate 1b side than the center in the frame body 1. The air flow path 6 on the downstream side of the fan 7 was formed in the center of the front surface 1 a of the frame body 1, and the air outlet 4 could be provided near the center of the front surface 1 a of the frame body 1.
[0038]
And if it is this structure, since evaporator 3a * 3b will be arrange | positioned so that the circumference | surroundings of the ventilation fan 3 may be enclosed, the indoor air which passes the evaporator 3a * 3b will flow more smoothly by the ventilation fan 7, and heat exchange will be carried out. The efficiency can be further improved.
[0039]
Further, in the structure in which the air suction port 5 is provided in the side plate 1b of the frame body 1, the air suction port 5 is closed when the air suction port 5 is positioned right next to the wall or a curtain attached to the window is involved. Sometimes, the amount of air sent to the evaporator 3b decreases and the expected cooling capacity may not be exhibited.
[0040]
As a countermeasure, 8 is an air inflow gap formed between the evaporator 3b and the side plate 1b of the frame 1, and the front of the air inflow gap 8 communicates with the air suction port 5 near the side plate 1b of the front surface 1a. Since a part of the air flowing in from the air suction port 5 goes to the air inflow gap 8 and is sent to the evaporator 3b, even if the air suction port 5 provided in the side plate 1b is blocked, the evaporator 3b is surely connected. The air could be sent.
[0041]
In the above-described configuration, the evaporators 3a and 3b may be constituted by the continuous evaporator 3 that is curved along the front plate 1a and the side plate 1b of the frame 1, and if such an integrated evaporator 3 is used. The number of parts can be reduced, and the refrigerant pipe can be easily connected and attached to the frame 1.
[0042]
In addition, since the heat exchange efficiency is improved, the evaporator 3 can be reduced in size. If the vertical length of the evaporator 3 is shortened, the vertical direction of the frame body 1 can be shortened. It can also handle short windows in the height direction.
[0043]
【The invention's effect】
As described above, according to the present invention, the front surface 1a of the frame body 1 positioned in front of the evaporator 3 is formed in a shape in which the side plate 1b side is inclined or curved rearward, and the air outlet 4 on the front surface 1a of the frame body 1 The air suction port 5 is arranged so as to be inclined at a predetermined angle, and the indoor air in front of the frame body 1 can be sucked in as much as the air suction port 5 is tilted, and the blowout angle of the louver 4a is taken into the air suction. Even if the air is widened toward the mouth 5, the cold air is no longer directed toward the air inlet 5, so that the cold air blowing range can be expanded without lowering the cooling capacity, and the usability can be improved.
[0044]
And even if the air blower outlet 4 becomes the wall side when the air conditioner is attached, the louver 4a can be directed to the center side of the frame body 1, and the cool air can be blown out toward the center of the room. Since it became possible, it became possible to obtain a uniform cooling effect regardless of the mounting position of the air conditioner.
[0045]
Further, by arranging the evaporator 3 in the frame 1 so as to be inclined along the air suction port 5, the indoor air passing through the evaporator 3 can easily flow along the fins of the evaporator 3. This makes it easier to exchange heat and improves heat exchange efficiency.
[0046]
Further, the evaporator 3 is composed of a plurality of evaporators 3a and 3b, and is arranged close to the side plate 1b on one side or both sides in the frame 1, so that the lateral width of the evaporator 3 is shortened and the center in the frame 1 is reduced. Since a space was created and the air outlet 4 could be provided in the center of the front surface 1a of the frame body 1, a structure for blowing out cool air from the center of the frame body 1 could be realized.
[0047]
For this reason, the air outlet 4 is always located away from the wall regardless of the mounting position of the air conditioner, and the cold air can be blown away from the wall, so that the blowing direction of the louver 4a does not change greatly. In addition, the air can be blown toward the center of the room and can reach far without interfering with the flow of the cold air, so that a more uniform cooling effect can be obtained.
[0048]
Further, even if the blowing angle of the louver 4a is small, it is possible to blow air toward the center of the room, so that it is not necessary to largely incline the front surface 1a, so that the frame body 1 can be prevented from projecting forward.
[0049]
Further, the evaporator 3 is composed of an evaporator 3a arranged between the front surface 1a of the frame body 1 and the blower fan 7, and an evaporator 3b arranged between the side plate 1b of the frame body 1 and the blower fan 7, The air outlet 4 can be provided in the center of the front surface 1a of the frame body 1 and the evaporators 3a and 3b are arranged so as to surround the blower fan 7, so that heat can be exchanged using the entire evaporator 3. As a result, the heat exchange efficiency can be further improved.
[0050]
Further, an air inflow gap 8 communicating with the air suction port 5 of the front surface 1a of the frame 1 is formed between the side plate 1b of the frame 1 and the evaporator 3b, and one of the indoor air sucked from the air suction port 5 is formed. Since the portion is sent from the air inflow gap 8 to the evaporator 3b, air can be reliably sent to the evaporator 3b even when the air suction port 5 is located near the wall or closed by a curtain or the like. It can be used without reducing the exchange efficiency.
[0051]
Furthermore, by improving the heat exchange efficiency, the evaporator 3 can be downsized in the vertical direction, and by shortening the vertical length of the frame body 1, it is possible to cope with a window having a height that could not be mounted conventionally. As a result, the usable range has expanded, making it easier to install the air conditioner where you want it.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a window air conditioner showing an embodiment of the present invention.
FIG. 2 is a cross-sectional view of a window air conditioner showing another embodiment of the present invention.
FIG. 3 is a cross-sectional view of a window air conditioner showing another embodiment of the present invention.
4 is a cross-sectional view of a window air conditioner showing another embodiment of the embodiment shown in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Frame 1a Front 1b Side plate 2 Capacitor 3 Evaporator 3a Evaporator 3b Evaporator 4 Air outlet 4a Louver 5 Air inlet 6 Air flow path 7 Blower fan 8 Air inflow gap

Claims (5)

The frame 1 includes a capacitor 2 and an evaporator 3,
The capacitor 2 is disposed outside the frame 1 and the evaporator 3 is disposed inside the frame 1.
While arranging the air outlet 4 and the air inlet 5 on the front surface 1a of the frame 1 directly adjacent to each other without providing a space ,
In the air conditioner for windows provided with a blower fan 7 in the air flow path 6 from the evaporator 3 to the air outlet 4, and provided with a louver 4a for changing the blowing direction of the blower fan 7 in the air outlet 4.
The air outlet 4 and the front surface 1a of the adjacent said frame 1 in which the air inlet 5 is arranged which is provided, the side plate 1b side of the frame 1 with respect to the air outlet 4 is inclined or rearwardly a curved shape, the air outlet 4 is arranged at a position protruding forwardly of the frame 1, the front of the air inlet 5 is oblique front side direction with respect to the front of the frame 1 Configured for
The louver 4a is disposed in an air outlet 4 configured toward the front of the frame 1, and the direction of the louver 4a is not only the front of the frame 1, but also the air suction adjacent to the air outlet 4. and changeable in provided toward the mouth 5 side, the louver 4a, until the predetermined angle at which the blowing angle inclined in the air inlet 5 with respect to the front of the frame 1, variably toward the air inlet 5 side The structure of the air conditioner for windows characterized by having been arranged in.   The structure of an air conditioner for a window according to claim 1, wherein the evaporator (3) is disposed so as to be inclined along the air inlet (5), and the entire evaporator (3) faces the air inlet (5). The air outlet 4 is arranged at the center of the front face 1a of the frame body 1, the air inlet 5 is provided on one side or both sides of the front face 1a adjacent to the air outlet 4, and the air inlet 5 Inclining a predetermined angle with respect to the blowing angle of the louver 4a toward the diagonally forward side on the opposite side,
3. The air conditioner for windows according to claim 1, wherein evaporators 3 a and 3 b having a short width are arranged in the air flow path 6 in the frame body 1 facing the air suction port 5. The structure of the machine. The air outlet 4 is arranged at the center of the front surface of the frame 1,
The air inlet 5 is provided on the front face 1a adjacent to the air outlet 4 and the side plate 1b continuous from the front face 1a.
The front surface 1a provided with the air suction port 5 is disposed at a predetermined angle with respect to the blowing angle of the louver 4a toward the diagonally forward side opposite to the air blowing port 4,
The evaporator 3a is disposed at a position facing the air suction port 5 of the front face 1a in the air flow path 6 and the evaporator 3b is disposed at a position facing the air suction port 5 of the side plate 1b. Item 3. The structure of the air conditioner for windows according to Item 2.   An air inflow gap 8 communicating with the air suction port 5 of the front surface 1a is formed between the air suction port 5 provided in the side plate 1b of the frame body 1 and the evaporator 3b facing the air suction port 5, 5. The structure of the window air conditioner according to claim 4, wherein a part of the indoor air flowing in from the air inlet 5 of 1 a is sent to the evaporator 3 b from the air inflow gap 8.

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