KR20060026755A - Inner machine for heat pump air-conditioner - Google Patents

Abstract

The present invention relates to an indoor unit of a heater pump air conditioner, the main body having a fan therein; A suction port for sucking air into the main body by the operation of the fan; An indoor heat exchanger configured to heat-exchange the air sucked into the suction port with the refrigerant flowing therein, and the inner surface of the main body may be spaced apart from one side to form a bypass flow path; An electric heater for reheating the heat exchanged air through the heat exchanger; A discharge port facing the electric heater such that air reheated by the electric heater by the operation of the fan is discharged to the outside of the main body; And a flap rotatably provided on an inner surface of the main body so as to open and close the bypass flow path, and when switching from a heating mode to a defrost mode, the flap rotates to open the bypass flow path, and the bypass The air sucked into the inlet by the opening of the flow path is a large amount is delivered to the electric heater without heat exchange with the cold refrigerant of the indoor heat exchanger.

Heater pump air conditioner, indoor heat exchanger, flap, motor.

Description

Indoor unit of heater pump air conditioner {Inner machine for heat pump air-conditioner}

1 is a cross-sectional view showing an indoor unit of a heater pump air conditioner according to the prior art,

2 is a cross-sectional view showing the structure of an indoor unit of a heater pump air conditioner according to the present invention;

Figure 3 is a cross-sectional view showing the opening of the bypass flow path by the opening operation of the flap in the indoor unit of the heater pump air conditioner according to the present invention,

Figure 4 is a perspective view of the flap in the indoor unit of the heater pump air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawing

21; Main body 22; Discharge gate

24; Fan 23; Inlet

25; Indoor heat exchanger 26; Fan duct

27; Outlet 28; Suction gate

30; Electric heater 40; Bypass Euro

50; A controller 60; flap                 

70; Step motor 80; shaft

The present invention relates to an indoor unit of a heater pump air conditioner.

In general, a heat pump air conditioner combines cooling and heating by reversibly using a transport mechanism for heat that is transferred to a refrigeration cycle consisting of compression, condensation, depressurization, and evaporation of a refrigerant.

As shown in FIG. 3, the indoor unit of the heater pump air conditioner includes a main body 11, an indoor heat exchanger 15, a fan 14, a fan duct 16, and the like.

When the heater pump air conditioner is in the heating mode, the operation of the indoor unit is performed by the motor (not shown), and the fan 14 in the fan duct 16 is driven. Air is introduced into the body 11 through the inlet 18 of the body 11.

The air drawn into the main body 11 enters the inlet of the fan duct 16 and is discharged through the outlet of the fan duct 16 via the fan 14, and is discharged through the outlet of this fan duct 16. The air is heat exchanged again with the hot refrigerant inside the heat exchanger 15 to generate warmth.

The warmth generated in this way is completely discharged to the outside of the main body 11 through the discharge port 17 of the discharge gate 12 located above the main body 11.

Here, the conventional heater pump air conditioner has a problem that when the outdoor temperature is lowered below -5 ℃ in the heating mode, the outdoor heat exchanger (not shown) is frozen, the indoor heating ability is significantly reduced.

For this reason, the heater pump air conditioner performs a defrost mode in which the cycle is switched to the cooling mode at regular intervals so that the outdoor heat exchanger does not freeze during the heating mode.

However, since the coolant flows to the indoor heat exchanger 15 in the defrost mode of the heater pump air conditioner, the cool air is supplied to the room through the discharge port 17 of the discharge gate 12 when the fan 14 is operated. There was a problem that creates an undesired environment.

For this reason, recently, the fan 14 is stopped during the defrosting time of the heater pump air conditioner, but this also has a problem in that it cannot supply warm air to the room during the defrosting mode.

The present invention has been made to solve the above problems, and an object thereof is to provide an indoor unit of a heater pump air conditioner capable of continuously heating even in a defrost mode.

According to an aspect of the present invention for achieving the above object, a main body having a fan therein; A suction port for sucking air into the main body by the operation of the fan; An indoor heat exchanger configured to heat-exchange the air sucked into the suction port with the refrigerant flowing therein, and the inner surface of the main body may be spaced apart from one side to form a bypass flow path; An electric heater for reheating the heat exchanged air through the heat exchanger; A discharge port facing the electric heater such that air reheated by the electric heater by the operation of the fan is discharged to the outside of the main body; And a flap rotatably provided on an inner surface of the main body so as to open and close the bypass flow path, and when switching from a heating mode to a defrost mode, the flap rotates to open the bypass flow path, and the bypass The indoor unit of the heater pump air conditioner, characterized in that the large amount of air sucked into the inlet by the opening of the flow path is delivered to the electric heater without heat exchange with the cold refrigerant of the indoor heat exchanger.

In addition, the shaft is fixed in the longitudinal direction of the flap, the shaft is provided to be rotatable in the step motor, the step motor is characterized in that the forward and reverse rotation in accordance with the heating mode or defrost mode by the control unit.

Hereinafter, a preferred embodiment of an indoor unit of a heater pump air conditioner according to the present invention will be described with reference to the accompanying drawings.

2 is a cross-sectional view showing the structure of the indoor unit of the heater pump air conditioner according to the present invention, Figure 3 is a process of opening the bypass flow path by the opening operation of the flap in the indoor unit of the heater pump air conditioner according to the present invention. 4 is a perspective view showing a flap in the indoor unit of the heater pump air conditioner according to the present invention.

As shown in FIG. 2, the indoor unit of the heater pump air conditioner according to the present invention includes a main body 21, an intake port 23, an indoor heat exchanger 25, an electric heater 30, an outlet 27, and a flap ( 60).

First, the main body 21 has a fan 24 therein. In the embodiment, the fan 24 is provided in the lower portion of the main body 21 and the type thereof is preferably a Sirocco Fan.

The suction port 23 allows the air to be sucked into the main body 21 by the operation of the fan 24. The suction port 23 is formed in plural in the suction gate 28 provided on the lower side of the main body 21.

Meanwhile, the indoor heat exchanger 25 exchanges air sucked into the intake port 23 with the refrigerant flowing therein, and the inner surface and one side of the main body 21 are spaced apart from each other to form the bypass flow path 40.

In an embodiment, the indoor heat exchanger 25 is inclined from the upper side to the lower side of the main body 21, where the bypass flow passage having a constant width between the upper side of the indoor heat exchanger 25 and the inner surface of the main body 21 ( 40) is formed.

The bypass passage 40 is opened by the flap 60 described below when the heater pump air conditioner switches from the heating mode to the defrost mode, and then returns to the flap 60 when the heater pump air conditioner switches from the defrost mode to the heating mode. Is closed by.

The electric heater 30 reheats the air heat-exchanged through the indoor heat exchanger 25.

This electric heater 30 is a means for further raising the temperature of the air heat-exchanged with the indoor heat exchanger 25, ie, warmth, in a heating mode. The electric heater 30 operates in such a manner that a plurality of heating wires dissipate heat at the same time as power is supplied from a power supply unit (not shown), and is provided to face the discharge port 27 described below. This electric heater 30 is a well-known technique and its detailed description is omitted here.

The discharge port 27 faces the electric heater 30 such that the air reheated by the electric heater 30 is discharged to the outside of the main body 21 by the operation of the fan 24.

In an embodiment, a plurality of discharge ports 27 are formed in the suction gate 28 provided at one upper side of the main body 21. The discharge port 27 is preferably provided with a plurality of blades for adjusting the wind direction.

The flap 60 is rotatably provided on the inner surface of the main body 21 to open and close the bypass passage 40.

The flap 60 rotates to open the bypass passage 40 when the heater pump air conditioner switches from the heating mode to the defrost mode, as shown in FIG. 3, and opens the bypass passage 40. As a result, the air sucked into the suction port 23 is transferred to the electric heater 30 without a large amount of heat exchange with the cold refrigerant of the indoor heat exchanger 25. In this way, the air delivered to the electric heater 30 is heated more easily and quickly, since the air sucked into the suction port 23 does not heat exchange with the cold refrigerant of the indoor heat exchanger 25 in a large amount, and the warmed air is conventionally Unlike in defrost mode, there is an excellent effect that can be continuously supplied to the room.

In FIG. 4, the flap 60 is fixed to the shaft 80 in the longitudinal direction thereof.

Although the shaft 80 is shown as being provided at the edge of the flap 60, the shaft 80 may be provided at the center of the flap 60.

The shaft 80 is rotatably provided at the step motor 70.

The step motor 70 is rotated forward and backward according to the heating mode or the defrost mode of the heater pump air conditioner by the electrically connected control unit 50. That is, when the heater pump air conditioner is in the heating mode, the step motor 70 rotates forward to close the bypass flow path 40. In the defrost mode, the step motor 70 rotates in reverse to open the bypass flow path 40. Open.

Operation of the indoor unit of the heater pump air conditioner according to the present invention is as shown in Figs.

First, FIG. 2 illustrates a case in which the heater pump air conditioner is in a heating mode. In this case, since the step motor 70 controlled by the controller 50 is rotated forward, the flap 60 is bypassed. It will be in the state which closed completely.

In this state, the indoor unit of the heater pump air conditioner provides the indoor heat exchanger 25 with the air sucked into the inlet 23 of the suction gate 28 by the operation of the fan 24, and the indoor heat exchanger 25. ) Heat exchanges the hot refrigerant inside and the air sucked into the suction port 23. Thereafter, the air heat-exchanged with the indoor heat exchanger 25 is provided to the electric heater 30, and the heat emitted from the electric heater 30 heats the air heat-exchanged with the indoor heat exchanger 25 more hot. do. The air warmed by the electric heater 30 is discharged to the discharge port 27 of the discharge gate 22 by the continuous operation of the fan 24.

3 illustrates a case in which the heater pump air conditioner is in the defrost mode. In this case, since the step motor 70 controlled by the controller 50 is rotated in the reverse direction, the flap 60 bypasses the bypass passage 40. Is in a state of opening completely.

In this state, the indoor unit of the heater pump air conditioner directly operates the electric heater 30 through the bypass passage 40 in which a large amount of air sucked into the inlet 28 of the suction gate 23 by the operation of the fan 24. ), And some of the air that has not passed through the bypass passage 40 are heat-exchanged with the cold refrigerant of the indoor heat exchanger 25.

The air passing through the bypass passage 40 and the indoor heat exchanger 25 is heated by the heat dissipated by the electric heater 30. The air warmed from the electric heater 30 is discharged to the discharge port 27 of the discharge gate 22 even in the defrost mode by the continuous operation of the fan 24. As a result, the present invention has the effect of maintaining the heating even in the defrost mode.

The present invention is an indoor unit of a heater pump air conditioner, which forms a bypass flow path between an inner surface of a main body and an indoor heat exchanger, and closes the bypass flow path in heating mode and opens in defrost mode. In the defrost mode, a large amount of air sucked into the main body is supplied to the electric heater without heat exchanger, where the cool refrigerant flows, so that the warmed air can be continuously supplied to the room. It has an excellent effect.

Claims (2)

A main body having a fan therein; A suction port for sucking air into the main body by the operation of the fan; An indoor heat exchanger configured to heat-exchange the air sucked into the suction port with the refrigerant flowing therein, and the inner surface of the main body may be spaced apart from one side to form a bypass flow path; An electric heater for reheating the heat exchanged air through the heat exchanger; A discharge port facing the electric heater such that air reheated by the electric heater by the operation of the fan is discharged to the outside of the main body; And A flap rotatably provided on an inner surface of the main body to open and close the bypass flow path, When switching from the heating mode to the defrost mode, the flap rotates to open the bypass flow path, and a large amount of air sucked into the intake port by the opening of the bypass flow path does not exchange heat with the cold refrigerant of the indoor heat exchanger. The indoor unit of the heater pump air conditioner, characterized in that it is transmitted to the electric heater. The heater of claim 1, wherein the shaft is fixed in the longitudinal direction of the flap, and the shaft is rotatably provided in the step motor, and the step motor is rotated forward and backward according to a heating mode or a defrost mode by a control unit. Indoor unit of pump air conditioner.

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