KR20210114712A - Air conditioner unit - Google Patents

Abstract

An air conditioner is disclosed. The air conditioner comprises: a casing; a compressor positioned inside the casing; a partition wall dividing the inside into an outdoor side and an indoor side; an outdoor side heat exchange unit positioned on the outdoor side inside the casing and having an outdoor side heat exchanger and an outdoor side blower fan connected to the compressor; a ventilation module having a static pressure centrifugal fan installed on the partition wall and a damper opening and closing a suction side of the static pressure centrifugal fan; and an indoor side heat exchange unit positioned on the indoor side inside the casing and having an indoor side heat exchanger and an indoor side blower fan connected to the outdoor side heat exchanger and the compressor, respectively, between the outdoor side heat exchanger and the compressor.

Description

Air conditioner {AIR CONDITIONER UNIT}

The present invention relates to an air conditioner, and more particularly, to an air conditioner having a ventilation module for ventilation.

In general, an air conditioner (also called an air conditioner) is provided with a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, a heat exchanger, etc. It is a device that keeps the indoor atmosphere pleasant by sending it out.

The air conditioner can be divided into an integrated air conditioner and a separate air conditioner according to the installation method.

The integrated air conditioner includes a window type air conditioner or a packaged terminal air conditioner unit (PTAC), which is installed on a window by mounting all of the refrigeration cycle devices in one casing.

In contrast to this, the separate type air conditioner is divided into an indoor unit and an outdoor unit, and an indoor heat exchanger is installed in the indoor unit, and an outdoor heat exchanger and a compressor are installed in the outdoor unit, and are installed indoors and outdoors, respectively.

Among them, the integrated air conditioner includes a casing formed to have a predetermined internal space, an outdoor heat exchanger installed on one side of the casing to exchange heat with outdoor air, and an indoor side installed on the other side of the casing to exchange heat with indoor air. It includes a heat exchanger.

An outdoor air inlet and an outdoor air outlet are provided on the outdoor side of the casing, and an indoor air inlet and an indoor air outlet are provided on the indoor side of the casing.

The outdoor-side heat exchanger includes a compressor, an outdoor-side heat exchanger connected to the compressor through a refrigerant pipe, and an outdoor-side blowing fan located inside the outdoor-side heat exchanger to suck in outdoor air and discharge it toward the outdoor-side heat exchanger. do.

The indoor heat exchanger includes an indoor heat exchanger connected to the outdoor heat exchanger, and an indoor air blowing fan positioned inside the indoor heat exchanger to suck indoor air and discharge it toward the indoor heat exchanger.

The air conditioner having such a configuration is operated in an operation mode of a cooling operation or a heating operation. Recently, an air conditioner having a ventilation module for ventilation has been developed.

An air conditioner having a ventilation module is located between an outdoor heat exchanger and an indoor heat exchanger, and is provided with a vent and an axial fan in a bulkhead that divides the inside of the casing into the outdoor and indoor sides. ) and a filter are installed to selectively open and close the vent as needed, so that the air conditioner can be operated in three operation modes: cooling/heating alone operation, ventilation alone operation, and simultaneous operation.

Accordingly, a ventilation module for introducing outdoor air into the room may be installed in the partition wall, and the ventilation module may include a vent.

However, the conventional air conditioner in which the ventilation module has an axial fan has a problem in that static pressure and air volume performance are low.

In fact, the air volume of the ventilation module installed in the currently distributed product is at the level of 35 CFM (1 CMM), which can satisfy the required ventilation standard for a room of 33 m², but it is insufficient for the required ventilation amount felt by the actual user.

In addition, since continuous ventilation during cooling/heating increases the cooling/heating load, it may be advantageous in terms of thermal energy efficiency to perform ventilation intermittently using a large-capacity blower.

Accordingly, there is a demand for an air conditioner having a ventilation module capable of maximizing the amount of ventilation.

An object of the present invention is to provide an air conditioner capable of maximizing the amount of ventilation.

An air conditioner according to an embodiment of the present invention includes: a casing; a compressor located inside the casing; a partition wall dividing the inside of the casing into an outdoor side and an indoor side; an outdoor-side heat exchanger including an outdoor-side heat exchanger and an outdoor-side blowing fan, which are located on the outdoor side of the casing and are connected to the compressor; a ventilation module including a static pressure centrifugal fan installed on the bulkhead and a damper for opening and closing the suction side of the static pressure centrifugal fan; The casing may include an indoor heat exchanger including an indoor heat exchanger and an indoor blowing fan that is located inside the casing and is connected to the outdoor heat exchanger and the compressor between the outdoor heat exchanger and the compressor, respectively.

The air conditioner of this embodiment selectively connects the compressor-side end of the flow path connecting the outdoor-side heat exchanger and the compressor to the inlet or outlet of the compressor according to a mode selected from the cooling mode and the heating mode, and the indoor heat exchanger It may further include a flow path switching valve selectively connecting the compressor side end of the flow path connecting the and the compressor to the outlet or the inlet of the compressor.

The damper may open the suction side of the static pressure centrifugal fan while the static pressure centrifugal fan is running, and may close the suction side of the static pressure centrifugal fan while the static pressure centrifugal fan is stopped.

The air conditioner having such a configuration may be operated in various operating modes such as a cooling mode, a heating mode, a ventilation mode, a cooling and ventilation mode, and a heating and ventilation mode.

For example, when the air conditioner is operated in the cooling mode or the heating mode, the static pressure centrifugal fan is stopped, and the indoor side blowing fan and the outdoor side blowing fan are operated.

As another example, when the air conditioner is simultaneously operated in any one operation mode selected from the cooling mode or the heating mode and the ventilation mode, the outdoor-side blowing fan, the indoor-side blowing fan, and the static pressure centrifugal fan are each operated.

As another example, when the air conditioner is operated in the ventilation mode, the static-pressure centrifugal fan is operated, and the indoor-side blowing fan and the outdoor-side blowing fan are respectively operated or stopped.

The ventilation module may further include a filter unit for purifying the outside air, and the filter unit is located on the suction side located on the outdoor side of the casing among the static pressure centrifugal fans, or located on the discharge side located on the indoor side of the casing among the static pressure type centrifugal fans can do.

In the air conditioner according to the present invention, the ventilation module is installed on a partition wall separating the indoor side and the outdoor side of the casing.

Therefore, the air bypassing the outdoor heat exchanger from the outdoor side flows into the ventilation module, and the air is blown into the room by the static pressure centrifugal fan.

Since the static pressure centrifugal fan has a higher static pressure performance than the axial fan, it is possible to realize a large air volume while overcoming the static pressure loss of the filter.

Accordingly, the ventilation amount can be maximized compared to the conventional air conditioner having an axial fan.

The filter unit provided in the ventilation module may be installed on the suction side or the discharge side of the static pressure centrifugal fan.

When the filter unit is installed on the suction side of the static pressure centrifugal fan, it is possible to prevent the static pressure centrifugal fan from being contaminated because the external pollutants are purified and then supplied to the constant pressure centrifugal fan.

On the other hand, when the filter unit is installed on the discharge side of the static pressure centrifugal fan, the filter unit is located on the indoor side of the casing, so it is easy for the user to replace the filter unit.

In addition, if the suction side of the static pressure centrifugal fan is shielded using a damper when ventilation is not performed, heat energy loss from the outside can be prevented.

In addition _{, if intermittent ventilation is performed using various air quality sensors that detect CO 2} , odor, and fine dust, thermal energy can be efficiently used.

1 is a diagram schematically showing the configuration of an air conditioner according to an embodiment of the present invention.
2 is a view schematically showing the configuration of a ventilation module according to another embodiment of the present invention.
3 is a diagram illustrating a cycle configuration when the air conditioner according to an embodiment of the present invention is simultaneously operated in a cooling mode and a ventilation mode.
4 is a diagram illustrating a cycle configuration when the air conditioner according to an embodiment of the present invention is simultaneously operated in a heating mode and a ventilation mode.
5 is a table showing whether a blower fan operates according to an operation mode of an air conditioner according to an exemplary embodiment of the present invention.

Hereinafter, an embodiment disclosed in the present invention will be described in detail with reference to the accompanying drawings, but the same or similar components are assigned the same reference numerals regardless of reference numerals, and redundant description thereof will be omitted.

In the description of the embodiments disclosed in the present invention, when a component is referred to as “connected” or “connected” to another component, it may be directly connected or connected to the other component, but It should be understood that other components may exist in between.

In addition, in describing the embodiments disclosed in the present invention, if it is determined that detailed descriptions of related known technologies may obscure the gist of the embodiments disclosed in the present invention, the detailed description thereof will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in the present invention, and the technical spirit disclosed in the present invention is not limited by the accompanying drawings, and all changes included in the spirit and scope of the present invention , should be understood to include equivalents or substitutes.

On the other hand, the term "invention" can be replaced with terms such as discloser, document, specification, and description.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a diagram schematically showing the configuration of an air conditioner according to an embodiment of the present invention, and FIG. 2 is a diagram schematically showing the configuration of a ventilation module according to another embodiment of the present invention.

3 is a diagram illustrating a cycle configuration when the air conditioner according to an embodiment of the present invention is simultaneously operated in a cooling mode and a ventilation mode, and FIG. It is a view showing the cycle configuration when the mode and the ventilation mode are simultaneously operated.

As shown in FIG. 1 , the air conditioner according to an embodiment of the present invention includes a casing 10 .

A portion of the casing 10 is located on the outdoor side, and the remaining portion of the casing 10 is located on the indoor side.

And a partition wall 20 dividing the inside of the casing 10 into an indoor side and an outdoor side is installed inside the casing 10 .

In FIG. 1 , the left side of the partition wall 20 is the outdoor side, and the right side of the partition wall 20 is the indoor side.

A compressor 30 (refer to FIGS. 3 and 4 ) is located on the outdoor side of the inside of the casing 10 , and the compressor 30 is connected to the outdoor heat exchanger HE1 through the first flow path OP1.

The outdoor-side heat exchanger HE1 is located on the outdoor side of the inside of the casing 10 , and the outdoor-side blowing fan F1 is located adjacent to the outdoor-side heat exchanger HE1 .

The outdoor-side heat exchanger HE1 and the outdoor-side blowing fan F1 constitute an outdoor-side heat exchanger.

The partition wall 20 is provided with a static pressure centrifugal fan F3 of the ventilation module 40 .

The suction side of the static pressure centrifugal fan F3 is located on the outdoor side inside the casing 10 , and the discharge side of the static pressure type centrifugal fan F3 is located on the indoor side inside the casing 10 .

A filter unit FT is positioned on the suction side of the static pressure centrifugal fan F3 , and a damper DA for controlling supply of external air to the filter unit FT is positioned below the filter unit FT.

Accordingly, the damper DA can open and close the suction side of the static pressure centrifugal fan F3.

The filter unit FT may include an air cleaning filter for removing fine dust or odor-causing substances and a HEPA filter.

Here, the static pressure centrifugal fan F3, the filter unit FT, and the damper DA constitute the ventilation module 40 according to the embodiment of the present invention.

The outdoor heat exchanger HE1 is connected to the indoor heat exchanger HE2 through the second flow path OP2, and the indoor heat exchanger HE2 is connected to the compressor 30 through the third flow path OP3. .

The indoor heat exchanger HE2 is positioned on the indoor side inside the casing 10 , and the indoor-side blowing fan F2 is positioned between the partition wall 20 and the indoor heat exchanger HE2 .

Here, the indoor-side heat exchanger HE2 and the indoor-side blowing fan F2 constitute an indoor-side heat exchanger.

In FIG. 1 , the filter unit FT and the damper DA are illustrated as being positioned on the suction side of the static pressure centrifugal fan F3.

However, as shown in FIG. 2 , the filter unit FT may be located on the discharge side of the static pressure centrifugal fan F3 , and the damper DA may be located on the suction side of the positive pressure type centrifugal fan F3 .

When the filter unit (FT) is installed on the suction side of the static pressure centrifugal fan (F3), external pollutants are purified and then supplied to the static pressure centrifugal fan (F3). Contamination by substances can be prevented.

Contrary to this, when the filter unit FT is installed on the discharge side of the static pressure centrifugal fan F3, the filter unit FT is located on the indoor side inside the casing 10, so the user replaces the filter unit FT. It has the advantage of being easy to do.

In addition, if the suction side of the static pressure type centrifugal fan F3 is shielded using the damper DA when ventilation is not performed, heat energy loss from the outside can be prevented.

An expansion valve EEV is positioned in the second flow path OP2 connecting the outdoor heat exchanger HE1 and the auxiliary heat exchanger HE3 .

In the air conditioner of this embodiment, the compressor side end of the first flow path OP1 connecting the outdoor heat exchanger HE1 and the compressor 30 is connected to the compressor 30 according to a mode selected from the cooling mode and the heating mode. In addition to selectively connecting to an inlet or outlet of It further includes a flow path switching valve (50).

The flow path switching valve 50 may be configured as a 4-way valve.

When the air conditioner includes the flow path switching valve 50 , it is possible to operate in the cooling mode and the heating mode by switching the flow direction of the refrigerant.

Hereinafter, an operation mode of the air conditioner having the above configuration will be described with reference to FIGS. 3 to 5 .

In the table of FIG. 5, "O" stands for run and/or open, and "X" stands for stop and/or closed.

The air conditioner of the present invention may be operated in various modes such as a cooling mode, a heating mode, a ventilation mode, a cooling and ventilation mode, and a heating and ventilation mode.

And the opening and closing of the damper (DA) provided in the ventilation module 40 may be linked with the operation of the static pressure centrifugal fan (F3).

That is, the damper DA opens the suction side of the static pressure centrifugal fan F3 while the static pressure centrifugal fan F3 is operating, and the static pressure centrifugal fan F3 while the static pressure centrifugal fan F3 is stopped The suction side of the air conditioner is closed, and the static pressure centrifugal fan F3 is operated when the air conditioner is operated only in ventilation mode or in cooling/heating mode together with ventilation mode.

3 and 4, the state in which the damper DA closes the suction side of the static pressure centrifugal fan F3 is shown by a dotted line, and the damper DA opens the suction side of the static pressure centrifugal fan F3. The state is shown by a solid line.

For example, when the air conditioner is simultaneously operated in either the cooling mode or the heating mode selected from the cooling mode and the heating mode, the outdoor-side blowing fan (F1), the indoor-side blowing fan (F2), and the static pressure centrifugal fan (F3) are operated, respectively, and the suction side of the static pressure centrifugal fan F3 is opened by the damper DA.

A cycle when the air conditioner is simultaneously operated in the cooling mode and the ventilation mode is shown in FIG. 3 , and a cycle when the air conditioner is simultaneously operated in the heating mode and the ventilation mode is shown in FIG. 4 .

Referring to FIG. 3 , the refrigerant compressed in the compressor 30 passes through the outdoor heat exchanger HE1 and the indoor heat exchanger HE2 in order, and is recovered to the compressor 30 , and the outdoor side blowing fan F1 . , the indoor-side blowing fan F2, and the static-pressure centrifugal fan F3 operate respectively.

Accordingly, the cooling air is blown into the room, and the outside air introduced through the filter unit FT is blown into the room by the static pressure centrifugal fan F3.

Referring to FIG. 4 , the refrigerant compressed in the compressor 30 passes through the indoor heat exchanger HE2 and the outdoor heat exchanger HE1 in order, and is recovered to the compressor 30 , and the outdoor air blowing fan F1 . , the indoor-side blowing fan F2, and the static-pressure centrifugal fan F3 operate respectively.

Accordingly, the heating air is blown into the room, and the outside air introduced through the air filter unit FT is blown into the room by the static pressure centrifugal fan F3.

In addition, the flow path switching valve 50 switches the flow path so that the refrigerant flow described above is achieved in the cooling mode and the heating mode, respectively.

In addition, a case in which the air conditioner is operated only in the cooling mode will be described with reference to FIG. 3 . In this case, the static pressure centrifugal fan F3 is stopped, and as shown by a dotted line in FIG. 3 , the static pressure centrifugal fan F3 is is closed by the damper DA, and the indoor-side blowing fan F2 and the outdoor-side blowing fan F1 are operated.

Therefore, only the cooling air is blown into the room, and the make up air for ventilation is not blown into the room.

In addition, a case in which the air conditioner is operated only in the heating mode will be described with reference to FIG. 4 . In this case, the static pressure centrifugal fan F3 is stopped, and as shown by a dotted line in FIG. 4 , the static pressure centrifugal fan F3 is is closed by the damper DA, and the indoor-side blowing fan F2 and the outdoor-side blowing fan F1 are operated.

Therefore, only heating air is blown into the room, and make up air for ventilation is not blown.

In addition, a case in which the air conditioner is operated in the ventilation mode will be described with reference to FIG. 3 . In this case, the static pressure centrifugal fan F3 is operated, and as shown by a solid line in FIG. 3 , the constant pressure centrifugal fan F3 is operated. The suction side is opened by the damper DA, and the outdoor-side blowing fan F1 and the indoor-side blowing fan F2 are operated or stopped, respectively. At this time, the compressor 30 is not operated.

Therefore, cooling/heating air is not blown into the room, and only make up air for ventilation is blown into the room.

In the above description, a case in which the ventilation mode is set by the user has been described as an example, but the ventilation module may be intermittently driven using various air quality sensors that detect _{CO 2 , odor, fine dust, and the like.}

For example, ventilation only mode does not work while the air conditioner is operating in cooling/heating mode, and intermittently automatically and intermittently based on data detected by the air quality sensor while the air conditioner is not operating in cooling/heating mode can work

The above detailed description should not be construed as restrictive in all respects and should be considered as illustrative. The scope of the present invention should be determined by a reasonable interpretation of the appended claims, and all modifications within the equivalent scope of the present invention are included in the scope of the present invention.

10: casing 20: bulkhead
30: compressor 40: ventilation module
50: flow changeover valves HE1 to HE3: heat exchanger
F1 to F3: Blowing fan OP1 to OP3: Flow path
FT: filter unit DA: damper
EEV: Expansion valve

Claims (9)

casing;
a compressor located inside the casing;
a partition wall dividing the inside of the casing into an outdoor side and an indoor side;
an outdoor heat exchanger located on the outdoor side of the casing and including an outdoor-side heat exchanger and an outdoor-side blowing fan connected to the compressor;
a ventilation module including a static pressure centrifugal fan installed on the bulkhead and a damper for opening and closing a suction side of the static pressure centrifugal fan;
An indoor heat exchanger disposed on the indoor side of the casing and comprising an indoor heat exchanger and an indoor air blowing fan respectively connected to the outdoor heat exchanger and the compressor between the outdoor heat exchanger and the compressor
An air conditioner comprising a. In claim 1,
According to a mode selected from a cooling mode and a heating mode, the compressor side end of the flow path connecting the outdoor heat exchanger and the compressor is selectively connected to an inlet or outlet of the compressor, and the indoor heat exchanger and the compressor and a flow path switching valve selectively connecting an end of the flow path connecting the compressor to an outlet or an inlet of the compressor. In claim 2,
The damper opens the suction side of the static pressure centrifugal fan while the positive pressure centrifugal fan is operating and closes the suction side of the static pressure centrifugal fan while the static pressure centrifugal fan is stopped. In claim 3,
When operating in a cooling mode or a heating mode, the static-pressure centrifugal fan is stopped, and the indoor-side blowing fan and the outdoor-side blowing fan are operated. In claim 3,
An air conditioner in which the outdoor-side blowing fan, the indoor-side blowing fan, and the static-pressure centrifugal fan are each operated when operating in one operation mode selected from the cooling mode or the heating mode and the ventilation mode at the same time. In claim 3,
When operating in the ventilation mode, the static pressure centrifugal fan is operated, and the indoor-side blowing fan and the outdoor-side blowing fan are operated or stopped, respectively. 7. In any one of claims 1 to 6,
The ventilation module further includes a filter for purifying external air. In claim 7,
The filter unit is located on a suction side of the positive pressure centrifugal fan located at an outdoor side of the casing. In claim 7,
The filter unit is located on a discharge side of the casing located on an indoor side of the static pressure centrifugal fan.

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