CROSS-REFERENCE TO RELATED APPLICATION
BACKGROUND OF THE INVENTION
1. Field of the Invention
[0002] The present invention relates to an air conditioner, and more particularly, to an
air conditioner capable of dehumidifying a space where an indoor unit is installed
and even a space where an outdoor unit is installed.
2. Description of the Related Art
[0003] A conventional air conditioner capable of dehumidifying basically includes a compressor
101, an outdoor heat-exchanger 102, and a first expansion device 103, which are installed
in an outdoor unit 100a, and an indoor heat-exchanger 104 installed in an indoor unit
100b. Here, the outdoor unit 100a includes a four-way valve 105 for changing a flow
direction of refrigerant stream for the switch between the refrigerating mode and
the heating mode and a first two-way valve 106 for allowing the high-pressure refrigerant
to bypass the first expansion device 103 in a dehumidifying mode, and the indoor unit
100a includes a heater 107 for heating cool air discharged from the indoor heat-exchanger
104 in the dehumidifying mode.
[0004] Moreover, the indoor heat-exchanger 104 includes a first heat-exchanger 104a for
radiating heat by suctioning refrigerant mixed with high-pressure liquid gas and for
discharging high-pressure liquid refrigerant, a second expansion device 108 for decompressing
the high-pressure liquid refrigerant to be transformed into low-pressure liquid refrigerant,
a second two-way valve 109 for allowing the high-pressure liquid refrigerant to bypass
the second expansion device 108, and a second heat-exchanger 104b for discharging
low-temperature-and-low-pressure refrigerant.
[0005] In the conventional air conditioner, the refrigerant compressed by the compressor
101 in the dehumidifying mode passes through the four-way valve 105 and enters the
outdoor heat-exchanger 102. At that time, since an outdoor fan 110 rotates at a low
rotation speed, the high-temperature-and-high-pressure liquid refrigerant is hardly
compressed and enters the indoor heat-exchanger 104 through the first two-way valve
106 as it is.
[0006] When the second two-way valve 109 of the indoor heat-exchanger 104 is closed, the
first heat-exchanger 104a discharges heat by suctioning the refrigerant mixed with
the high-pressure liquid gas and discharges the high-pressure liquid refrigerant,
and the second heat-exchanger 104b suctions the low-pressure liquid refrigerant through
the second expansion device 108 and discharges the low-pressure-and-low-temperature
refrigerant. Indoor air suctioned by an indoor fan 111 is dehumidified by heat-exchange
while passing through the second heat-exchanger 104b and the dehumidified and cool
dry air is heated by the first heat-exchanger 104a and the heater 107 and is discharged
into the indoor.
[0007] Since the conventional air conditioner can dehumidify air introduced into the indoor
heat-exchanger 104, dehumidification occurs only in the first indoor space where the
indoor unit 100b is installed. However, in many households , laundry is usually dried
in the balcony, which is usually an additional indoor space but separated from the
first indoor space. The outdoor unit 100a is usually installed in the balcony. Accordingly,
even though there is a need to dehumidify the balcony, it is not possible for the
conventional air conditioner to dehumidify the balcony without causing inconvenience
to the user as described below. Furthermore, the need to dehumidify the balcony is
increased in the rainy season.
[0008] Although the conventional air conditioner can be used for dehumidifying of the balcony,
i.e. the four-way valve can be used to change the direction of the refrigerant stream
(air conditioner acts as a heat pump), this would mean that the indoor unit 100b discharges
hot air so that the user becomes uncomfortable.
SUMMARY OF THE INVENTION
[0009] The present invention has been made in view of the above-mentioned problems, and
an aspect of the invention is to provide an air conditioner capable of dehumidifying
an indoor room where an indoor unit is installed as well as a space such as a balcony
where an outdoor unit is installed.
[0010] In accordance with one aspect, the present invention provides an air conditioner
including a compressor for compressing refrigerant, an outdoor heat-exchanger including
a first and a second heat-exchangers for performing heat-exchange of the refrigerant
discharged from the compressor, a first decompression device installed at a pipe through
which the refrigerant discharged from the outdoor heat-exchanger passes, an indoor
heat-exchanger for performing heat-exchange of the refrigerant discharged from the
outdoor heat-exchanger, a second decompression device installed at a pipe connected
to the first and the second heat-exchangers, and a first two-way valve installed at
a pipe for refrigerant to bypass the second decompression device.
[0011] The air conditioner further includes a first bypass pipe for allowing the refrigerant
to bypass the first decompression device and the indoor heat-exchanger, and a second
two-way valve installed in the first bypass pipe.
[0012] The air conditioner further includes a second bypass pipe for connecting a discharge
side of the compressor to an inlet side of the compressor, and a third two-way valve
installed in the second bypass pipe.
[0013] The air conditioner further includes a controller for controlling the first and the
second decompression devices and the first, the second, and the third two-way valves.
[0014] The controller, in order to dehumidify only a first indoor space where the indoor
heat-exchanger is installed in a first operation mode, opens the first decompression
device at a predetermined degree, opens the second decompression device fully, opens
the first two-way valve, and closes the second and the third two-way valves.
[0015] Moreover, the controller, in order to dehumidify a first indoor space where the indoor
heat-exchanger is installed and a second indoor space where the outdoor heat-exchanger
is installed in a second operation mode, opens the first and the second decompression
devices and closes the first, the second, and the third two-way valves.
[0016] The controller, in order to dehumidify only a second indoor space where the outdoor
heat-exchanger is installed in a third operation mode, closes the first decompression
device, opens the second decompression device at a predetermined degree, closes the
first two-way valve, and opens the second and the third two-way valves.
[0017] The air conditioner includes a first and a second heat-exchangers installed in an
outdoor unit in a direction which an air stream flows, a decompression device installed
a refrigerant path through which refrigerant flows from the first heat-exchanger to
the second heat-exchanger, a bypass path for allowing the refrigerant the decompression
device, and a two-way valve installed in the bypass path.
[0018] The outdoor unit includes a blower fan for forming an air stream to the first and
the second heat-exchangers, and the blower fan, the second heat-exchanger, and the
first heat-exchanger are sequentially installed.
[0019] Additional aspects and/or advantages of the invention will be set forth in part in
the description which follows and, in part, will be obvious from the description,
or may be learned by practice of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS
[0020] These and/or other aspects and advantages of the invention will become apparent and
more readily appreciated from the following description of the embodiments, taken
in conjunction with the accompanying drawings in which:
FIG. 1 is a schematic view illustrating a conventional air conditioner;
FIG. 2 is a view illustrating an air conditioner according to a preferred embodiment
of the present invention installed in a first room and a second room;
FIG. 3 is a schematic view illustrating the air conditioner in FIG. 2;
FIG. 4 is a view illustrating the circulation of refrigerant in a first operation
mode of the air conditioner in FIG. 3;
FIG. 5 is a view illustrating the circulation of refrigerant in a second operation
mode of the air conditioner in FIG. 3; and
FIG. 6 is a view illustrating the circulation of refrigerant in a third operation
mode of the air conditioner in FIG. 3.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0021] Reference will now be made in detail to the embodiments of the present invention,
examples of which are illustrated in the accompanying drawings. The embodiments are
described below to explain the present invention by referring to the figures.
[0022] As shown in FIG. 2, an air conditioner 1 according to a preferred embodiment of the
present invention includes an indoor unit 2 installed in a first indoor space A such
as a room and an outdoor unit 3 installed in a second indoor space B such as a balcony.
The indoor unit 2 is connected to the outdoor unit 3 via pipes 4 and 5 such that refrigerant
circulates through them.
[0023] The indoor unit 2 suctions air in the first indoor space A and performs heat-exchange
to discharge the suctioned air into the first indoor space A. The outdoor unit 3 suctions
air in the second indoor space B and performs heat-exchange to discharge the suctioned
air to outdoor C.
[0024] As shown in FIG. 3, in the outdoor unit 3, a discharge pipe 11 connected to a discharge
port 10a of a compressor 10 is connected to an inlet port of an outdoor heat-exchanger
12. A discharge port of the outdoor heat-exchanger 12 is connected to the pipe 4 to
which a first decompression device 13 is installed. The pipe 4 is connected to an
indoor heat-exchanger 14 of the indoor unit 2, and the pipe 5 connected to the discharge
port of the indoor heat-exchanger 14 is connected to an inlet port 10b of the compressor
10 to form a refrigerant circuit.
[0025] The outdoor heat-exchanger 12 includes a first heat-exchanger 21 and a second heat-exchanger
22, which are arranged in a path of an air stream 23a formed by a blower fan 23 in
the order of the second heat-exchanger 22 and the first heat-exchanger 21. The first
heat-exchanger 21 is formed with a refrigerant inlet port 21 a connected to the discharge
pipe 11.
[0026] A discharge port 21 b of the first heat-exchanger 21 is connected to a pipe 24 which
is branched into two branch pipes 25 and 26 halfway. The first branch pipe 25 is provided
with a first two-way valve 27, and the second branch pipe 26 is provided with a second
decompression device 28. The branch pipes 25 and 26 are combined into the pipe 24
again, and the pipe 24 is connected to an inlet port 22a of the second heat-exchanger
22.
[0027] The pipe 4 connected to the discharge port 22b of the second heat-exchanger 22b is
provided with the first decompression device 13 and is connected to the indoor unit
2. The indoor unit 2 includes the indoor heat-exchanger 14 and a blower fan 15 such
that air in the indoor space A is suctioned and undergoes the heat-exchange, then
the heat-exchanged air is discharged.
[0028] Meanwhile, in order for the refrigerant to bypass the first decompression device
13 and the indoor unit 14, there is provided a first bypass pipe 31 branched from
the pipe 4 for connecting the second heat-exchanger 22 to the first decompression
device 13 and connected to the pipe 5 connected to the inlet port 10b of the compressor
10. The first bypass 31 is provided with a second two-way valve 32 to interrupt the
refrigerant passing through the first bypass pipe 31.
[0029] There is provided a second bypass pipe 33 branched from the discharge pipe 11 connected
to the discharge port 10a of the compressor 10 and connected to the pipe 5 connected
to the inlet port 10b of the compressor 10. The second bypass pipe 33 is provided
with a third two-way valve 34 to interrupt the refrigerant passing through the second
bypass pipe 33.
[0030] The first decompression device 13, the second decompression device 28, the first,
the second, and the third two-way valves 27, 32, and 34 are controlled by a single
controller 40.
[0031] Hereinafter, operation of the air conditioner according to the preferred embodiment
of the present invention will be described.
[0032] In a first operation mode where only the first indoor space A is refrigerated or
dehumidified, the controller 40 opens the first two-way valve 27 and closes the second
and the third two-way valves 32 and 34. Moreover, the controller 40 opens the first
decompression device 13 at a predetermined degree and closes the second decompression
device 28 to circulate the refrigerant as shown in FIG. 4.
[0033] When the compressor 10 is driven, high-pressure refrigerant gas discharged from the
compressor 10 enters the outdoor heat-exchanger 12. Since the first two-way valve
27 installed between the first heat-exchanger 21 and the second heat-exchanger 22
forming the outdoor heat-exchanger 12 is opened and the second decompression device
28 is closed, the high-pressure refrigerant gas is not expanded but is condensed into
the refrigerant liquid after passing through the first and the second heat-exchangers
21 and 22.
[0034] The refrigerant liquid is transformed into decompressed two-phased refrigerant while
passing through the first decompression device 13 and enters the indoor unit 2. The
two-phased refrigerant entering the indoor unit 2 is evaporated in the indoor heat-exchanger
14 by heat-exchange with an air stream blown by the blower fan 15 and enters the compressor
10 again. In other words, in the first operation mode, a refrigerant circuit as that
of the conventional air conditioner is formed.
[0035] In a second operation mode where the first indoor space A is refrigerated or dehumidified
and the second indoor space B is dehumidified, the controller 40 closes the first,
the second, and the third two-way valves 27, 32, and 34, and opens the first and the
second decompression devices 13 and 28 at a predetermined degree to circulate the
refrigerant as shown in FIG. 5.
[0036] When the compressor 10 is driven, the high-pressure refrigerant gas discharged from
the compressor 10 enters the outdoor heat-exchanger 12. Since the first two-way valve
27 installed between the first and the second heat-exchangers 21 and 22 of the outdoor
heat-exchanger 12 is closed and the second decompression device 28 is opened, the
high-pressure refrigerant gas is condensed while passing through the first heat-exchanger
21 and undergoes phase-transform into the decompressed two-phased refrigerant while
passing through the second decompression device 28.
[0037] The two-phased refrigerant discharged from the second decompression device 28 is
evaporated in the second heat-exchanger 22 by heat-exchange with an air stream introduced
by the blower fan 23 while the air stream introduced by the blower fan 23 is dehumidified
and refrigerated due to heat absorption.
[0038] The air dehumidified and refrigerated by the second heat-exchanger 22 is sent to
the surroundings of the first heat-exchanger 21 and is discharged into the second
indoor space B as dehumidified air reheated by heat radiation of the first heat-exchanger
21.
[0039] Meanwhile, some of the two-phased refrigerant which is not evaporated in the second
heat-exchanger 22 enters the indoor unit 22 and is evaporated in the indoor heat-exchanger
14 once again, and the air stream introduced by the blower fan 15 is dehumidified
and refrigerated due to the heat absorption.
[0040] In other words, since, in the second operation mode, the heat-exchanger 21 serves
as a condenser and the second heat-exchanger 22 and the indoor heat-exchanger 14 serve
as evaporators, the first and the second indoor space A and B can be simultaneously
dehumidified.
[0041] In a third operation mode where the second indoor space B is strongly dehumidified
such as in a case in rainy seasons, the controller 40 closes the first two-way valve
27 and opens the second and the third two-way valves 32 and 34. Moreover, the controller
40 closes the first decompression device 13 and opens the second decompression device
28 at a predetermined degree to circulate the refrigerant as shown in FIG. 6.
[0042] When the compressor 10 is driven, the high-pressure refrigerant gas discharged from
the compressor 10 enters the outdoor heat-exchanger 12. Since the first two-way valve
27 installed between the first and the second heat-exchangers 21 and 22 of the outdoor
heat-exchanger 12 is closed and the second decompression device 28 is opened, the
high-pressure refrigerant gas is condensed while passing through the first heat-exchanger
21 and undergoes phase-transform into the decompressed two-phased refrigerant while
passing through the second decompression device 28.
[0043] The two-phased refrigerant discharged from the second decompression device 28 is
evaporated in the second heat-exchanger 22 by heat-exchange with an air stream introduced
by the blower fan 23 while the air stream introduced by the blower fan 23 is dehumidified
and refrigerated due to heat absorption.
[0044] Meanwhile, the refrigerant discharged from the second heat-exchanger 22 does not
enter the indoor unit 22 because the first decompression device 13 is closed but enters
the inlet port 10b of the compressor 10 through the first bypass pipe 31.
[0045] In the third operation mode, since the refrigerant does not enter the indoor unit
2, a length of a path through which the refrigerant circulates is substantially shortened
and quantity of refrigerant in the length of the refrigerant path is less than the
total quantity of the refrigerant. In order to solve the problem, some of the refrigerant
discharged from the compressor 10 is bypassed through the second bypass pipe 23 to
secure a sufficient length of the refrigerant path, so that the problem that the total
quantity of the refrigerant is much more in comparison to quantity of refrigerant
in the length of the refrigerant path can be solved.
[0046] Particularly, in the third operation mode, since only the second heat-exchanger 22
serves as an evaporator and time of the refrigerant circulating is shortened, the
second heat-exchanger 22 strongly dehumidifies air in the second indoor space B.
[0047] Although according to the air conditioner of the present invention a single indoor
heat-exchanger 14 is provided in the indoor unit 2 to refrigerate and/or dehumidify
the first indoor space A, the air conditioner of the present invention may be implemented
with multiple heat -exchangers with out departing from the spirit of the invention.
[0048] More specifically, the air conditioner of the present invention may be provided with
two heat-exchangers in the indoor heat-exchanger 14, branched refrigerant paths are
formed between the two heat-exchangers, and two-way valves and decompression devices
are respectively installed in the refrigerant paths such that the dehumidified air
is reheated and discharged.
[0049] Furthermore, the outdoor unit 3 may be implemented with a different number of heat
exchangers than the preferably disclosed two heat exchangers. It is further noted
that various different elements may also be implemented in a different way by one
of ordinarily skilled in the art without departing from the spirit of the invention.
[0050] As described above, according to the air conditioner of the present invention, the
first indoor space where the indoor unit is installed and the second indoor space
where the outdoor unit is installed are dehumidified simultaneously or selectively.
[0051] Particularly, even when the second indoor space where the outdoor unit is installed
is dehumidified, the user does not feel uncomfortable.
[0052] Although a few embodiments of the present invention have been shown and described,
it would be appreciated by those skilled in the art that changes may be made in this
embodiment without departing from the principles and spirit of the invention, the
scope of which is defined in the claims and their equivalents.
1. An air conditioner comprising:
a compressor for compressing refrigerant;
an outdoor heat-exchanger including a first and a second heat-exchangers for performing
heat-exchange of the refrigerant discharged from the compressor;
a first decompression device installed at a pipe through which the refrigerant discharged
from the outdoor heat-exchanger passes;
an indoor heat-exchanger for performing heat-exchange of the refrigerant discharged
from the outdoor heat-exchanger;
a second decompression device installed at a pipe connected to the first and the second
heat-exchangers; and
a first two-way valve installed at a pipe for refrigerant to bypass the second decompression
device.
2. The air conditioner according to claim 1, further comprising:
a first bypass pipe for allowing the refrigerant to bypass the first decompression
device and the indoor heat-exchanger; and
a second two-way valve installed in the first bypass pipe.
3. The air conditioner according to claim 2, further comprising:
a second bypass pipe for connecting a discharge side of the compressor to an inlet
side of the compressor; and
a third two-way valve installed in the second bypass pipe.
4. The air conditioner according to claim 3, further comprising a controller for controlling
the first and the second decompression devices and the first, the second, and the
third two-way valves.
5. The air conditioner according to claim 4, wherein the controller, in order to dehumidify
only a first indoor space where the indoor heat-exchanger is installed in a first
operation mode, opens the first decompression device at a predetermined degree, closes
the second decompression device fully, opens the first two-way valve, and closes the
second and the third two-way valves.
6. The air conditioner according to claim 4, wherein the controller, in order to dehumidify
a first indoor space where the indoor heat-exchanger is installed and a second indoor
space where the outdoor heat-exchanger is installed in a second operation mode, opens
the first and the second decompression devices at a predetermined degree and closes
the first, the second, and the third two-way valves.
7. The air conditioner according to claim 4, wherein the controller, in order to dehumidify
only a second indoor space where the outdoor heat-exchanger is installed in a third
operation mode, closes the first decompression device, opens the second decompression
device at a predetermined degree, closes the first two-way valve, and opens the second
and the third two-way valves.
8. An air conditioner comprising:
a first and a second heat-exchangers installed in an outdoor unit in a direction which
an air stream flows;
a decompression device installed in a refrigerant path through which refrigerant flows
from the first heat-exchanger to the second heat-exchanger;
a bypass path for allowing the refrigerant to bypass the decompression device; and
a two-way valve installed in the bypass path.
9. The air conditioner according to claim 8, wherein the outdoor unit comprises a blower
fan for forming an air stream to the first and the second heat-exchangers, and the
blower fan, the second heat-exchanger, and the first heat-exchanger are sequentially
installed.
10. An air conditioner comprising:
a compressor for compressing refrigerant;
an outdoor heat-exchanger including at a plurality of heat-exchangers for performing
heat-exchange of the refrigerant discharged from the compressor;
a first decompression device installed at a pipe through which the refrigerant discharged
from the outdoor heat-exchanger passes;
an indoor heat-exchanger for performing heat-exchange of the refrigerant discharged
from the outdoor heat-exchanger;
a second decompression device installed at a pipe connected between the plurality
of heat-exchangers; and
a first two-way valve installed at a pipe for refrigerant to bypass the second decompression
device.
11. The air conditioner according to claim 10, further comprising:
a first bypass pipe for allowing the refrigerant to bypass the first decompression
device and the indoor heat-exchanger; and
a second two-way valve installed in the first bypass pipe.
12. The air conditioner according to claim 11, further comprising:
a second bypass pipe for connecting a discharge side of the compressor to an inlet
side of the compressor; and
a third two-way valve installed in the second bypass pipe.
13. The air conditioner according to claim 12, wherein said indoor heat exchanger and
said outdoor heat exchanger are located in first and second space respectively, said
first and said second space capable of being separated.
14. The air conditioner according to claim 13, further comprising:
a controller for controlling said first and said second decompression device as well
as said first, second and third two-way valve to selectively dehumidify said first
and/or second space.