KR19990047228A - Airflow Control System of Window Air Conditioner - Google Patents

Abstract

The present invention relates to a window-type air conditioner for both heating and cooling, and in particular, to control the flow of air flowing around an indoor heat exchanger to increase the discharge temperature of the air supplied to the room, thereby preventing freezing of the heat exchanger installed outdoors. The air flow control device of the window air conditioner to increase the heating efficiency by preventing,

Air guides 59 installed on both sides of the indoor heat exchanger 55 and installed so that a predetermined amount of air sucked into the blower 56 is reversed, and both sides of the air guide 59 and the indoor heat exchanger 55. It is installed to be opened and closed between the auxiliary door 60 for controlling the flow of air flowing back by the air guide 59, the indoor heat exchanger 55 is installed on the front side of the indoor side and sucked into the blower 56 It is composed of a temperature sensor 61 for detecting the temperature of the air to be output and output the signal to control the opening and closing of the auxiliary door (60).

Description

Airflow Control System of Window Air Conditioner

The present invention relates to a window air conditioner (air conditioner) for both heating and cooling, and in particular, to control the flow of air sucked from the indoor side during heating operation to control the temperature of the indoor heat exchanger and the air discharged into the room air It relates to a flow control device.

In general, a window-type air conditioner for both air conditioning and heating serves as an evaporator while an outdoor heat exchanger serves as an evaporator during heating operation. Therefore, when the heating operation in winter, the outdoor temperature is very low and the outdoor heat exchanger acts as an evaporator, so the temperature of the outdoor heat exchanger is further lowered, resulting in freezing.

Conventional air-conditioning window type air conditioner, as shown in Figures 1 and 2 is a moving tube (1) which is a moving passage of the refrigerant to move the refrigerant, and the evaporator which is installed in the outdoors and absorbs heat while the refrigerant is vaporized An outdoor heat exchanger (2), an outdoor fan (3) which moves outdoor air to the outdoor heat exchanger (2) while rotating to increase heat exchange of the outdoor heat exchanger (2), and the outdoor heat exchanger (2) Compressor (4) for compressing the vaporized refrigerant in the), and the indoor heat exchanger (5) which is installed on the indoor side and serves as a condenser that discharges heat while condensing the refrigerant compressed in the compressor (4), A blower 6 for moving the indoor air to the indoor heat exchanger 5 to increase the heat exchange of the indoor heat exchanger 5 and to discharge the heat exchanged air into the room, the outdoor fan 3 and Connected to the blower 6 and rotating A motor 7 for supplying power, a discharge part 8 which is provided on the indoor side and a heat passage in which the air heat exchanged in the indoor heat exchange and the temperature rises is moved to the room by the blower 6; It consists of an air guide (9) surrounding both sides of the indoor heat exchanger (5) and guides the air drawn from the room to the blower (6).

Referring to the operation of the conventional air conditioning window type air conditioner configured as described above are as follows.

First, power is supplied to the window air conditioner for both heating and cooling, and heating operation is selected.

When power is supplied, the motor 7 rotates and the outdoor fan 3 and the blower 6 connected to the motor 7 rotate.

At the same time, the compressor 4 compresses the refrigerant and presses it into the indoor heat exchanger 5 through the moving tube 1, and the moved refrigerant is condensed in the indoor heat exchanger 5 and rotates. As the air in the room is sucked by the righter 6, the temperature of the sucked air is increased by exchanging heat with the indoor heat exchanger 5, and the air is blown according to the guide of the air guide 9. 6), and is supplied to the room through the discharge portion (8) in accordance with the rotation of the blower (6).

The refrigerant condensed in the indoor heat exchanger (5) is moved along the moving tube (1) to the outdoor heat exchanger (2) serving as an evaporator, and the refrigerant is expanded in the outdoor heat exchanger (2) while surrounding heat It is taken away and vaporized. At this time, outdoor air increases the heat exchange of the outdoor heat exchanger 2 by the rotation of the outdoor fan 3 connected to the motor 7.

The refrigerant vaporized in the outdoor heat exchanger (2) is moved along the moving tube (1) to the compressor (4) and compression starts again.

However, the conventional air conditioner window type air conditioner has a low ambient temperature during the heating operation and the outdoor heat exchanger acts as an evaporator. have.

The present invention has been made to solve the above problems of the prior art, by controlling the flow of air flowing around the heat exchanger in the room to increase the discharge temperature of the air supplied to the room freeze phenomenon of the heat exchanger installed outdoors The purpose is to increase the heating efficiency by preventing.

1 is a perspective view showing the flow of air of a window-type air conditioner for both heating and cooling.

Figure 2 is a block diagram of a conventional window air conditioner for both heating and cooling.

Figure 3a is a normal operation of the window air conditioner for both heating and cooling according to the present invention.

Figure 3b is an operation when when the freezing phenomenon appears in the heat exchanger on the outdoor side of the combined air-conditioning window type air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: outdoor heat exchanger 54: compressor

55: indoor heat exchanger 56: blower

59: air guide 60: auxiliary door

61: temperature sensing sensor

The present invention relates to an outdoor heat exchanger which serves as an evaporator in which heat is absorbed as a refrigerant is vaporized, an outdoor fan that moves outdoor air to increase efficiency of heat exchange of the outdoor heat exchanger, and vaporized in the outdoor heat exchanger. A compressor for compressing the refrigerant, an indoor heat exchanger installed indoors and dissipating heat while the refrigerant compressed by the compressor is condensed, and installed between the outdoor and the indoor heat exchanger, while sucking the air of the indoor heat exchanger. A cooling and heating device including a blower for increasing heat exchange, wherein the air flow controller is installed over the indoor heat exchanger and the blower and controls the flow of indoor air sucked by the blower. It is done.

In addition, the air flow controller may be opened and closed between both sides of the indoor heat exchanger and an air guide installed to allow a certain amount of air sucked into the blower to flow back, and between the air guide and both sides of the indoor heat exchanger. An auxiliary door which is installed to control the flow of air flowing back by the air guide, and installed at a front side of the indoor side of the indoor heat exchanger, and senses a temperature of the air sucked into the blower to open and close the auxiliary door; It is characterized by consisting of a temperature sensor for outputting the signal.

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

As shown in FIGS. 3A and 3B, the window-type air conditioner of the present invention is a moving tube 51 which is a moving passage of the refrigerant through which the refrigerant is moved, and an evaporator installed outdoors to absorb heat as the refrigerant is vaporized. An outdoor heat exchanger (52), an outdoor fan (53) for increasing the heat exchange of the outdoor heat exchanger (52) by moving outdoor air to the outdoor heat exchanger (52) while rotating, and the outdoor heat exchanger A compressor 54 for compressing the refrigerant vaporized at 52, an indoor heat exchanger 55 installed at the indoor side, and acting as a condenser for dissipating heat while condensing the refrigerant compressed by the compressor 54; While blowing the indoor air to the indoor heat exchanger 55 to increase the heat exchange of the indoor heat exchanger 55 and to blow the heat exchanged air into the room and the outdoor fan 53 ) And the blower ( A motor 57 connected to 56 and supplying rotational power, and an air passage installed at the indoor side and heat-exchanged in the indoor heat exchange, and having a temperature rise, are moving passages which are moved indoors by the blower 56. An air guide 59 that surrounds both sides of the unit 58 and the indoor heat exchanger 55 so that a predetermined amount of air sucked into the blower 56 can flow back; An auxiliary door 60 installed to be opened and closed between both sides of the indoor heat exchanger 55 and controlling a flow of air flowing back by the air guide 59 and an indoor side of the indoor heat exchanger 55; It is installed in the front of the auxiliary door 60 is configured to include a temperature sensor 61 for detecting the temperature of the air sucked into the blower 56 and outputs the signal.

In general, in order to solve the freezing generated in the outdoor heat exchanger 52 when the outdoor temperature is too low during the heating operation of the window type air conditioner, a method of increasing the area of the indoor heat exchanger 55 and the indoor heat exchanger 55 There is a method of increasing the suction temperature of the air sucked into the), the present invention is a device adopting the latter method, to the indoor heat exchanger 55 measured at the temperature at which the freezing occurs in the outdoor heat exchanger (52) When the temperature of the intake air is referred to as the control temperature, the flow of the intake air to the indoor heat exchanger 55 is controlled according to the control temperature to prevent freezing of the outdoor heat exchanger 52.

In other words, when the temperature of a part of the refrigeration cycle increases, the temperature of the entire cycle increases.

First, when power is supplied, the refrigerant is compressed in the compressor 54 and moved to the indoor heat exchanger 55 along the moving tube 51.

The refrigerant moved to the indoor heat exchanger 55 is condensed at the indoor heat exchanger 55, and at the same time, the blower 56 connected to the motor 57 rotates to suck the indoor air, The sucked air receives heat transfer from the indoor heat exchanger, the temperature is raised, and is moved to the discharge unit 58 by the blower 56 and supplied to the room.

Here, if the temperature sensor 61 attached to the front of the indoor heat exchanger 55 measures the suction temperature and the temperature is higher than the control temperature, the air sucked by closing the auxiliary door 60 is the air guide. According to the guidance of 59, the blower 56 is moved to the blower 56 and is supplied to the room through the discharge unit 58. In addition, the refrigerant condensed in the indoor heat exchanger (55) is moved to the outdoor heat exchanger (52) along the moving tube (51), and the transferred refrigerant absorbs ambient heat in the outdoor heat exchanger (52). It is evaporated and moved to the compressor 54 along the moving tube 51.

However, if the suction temperature measured by the temperature sensor 61 is less than or equal to the control temperature, the auxiliary door 60 is opened, and a part of the air to be sucked is flowed back along the side of the air guide 59, It is moved through the auxiliary door 60 to the room and then to the room heat exchanger 55 again by the pressure generated by the blower 56. At this time, since the counter flowed air passes through the indoor heat exchanger 55 several times, the temperature is higher than during normal operation, and thus the temperature of the air supplied to the room through the discharge unit 58 is also increased.

In addition, the refrigerant condensed in the indoor heat exchanger (55) is moved to the outdoor heat exchanger (52) along the moving tube (51), and at this time, the temperature discharged from the discharge unit (58) increases, so that the outdoor heat The temperature of the refrigerant moved to the exchanger 52 is also raised, and freezing of the outdoor heat exchanger 52 is prevented.

In addition, in the outdoor heat exchanger (52), the refrigerant evaporates while absorbing the surrounding heat, and the evaporated refrigerant is moved to the compressor (54) along the moving tube (51).

As described above, the present invention can prevent the freezing of the outdoor heat exchanger 52 by increasing the temperature of the air discharged into the room by installing the auxiliary door 60 and controlling the flow of intake air. Since the freezing phenomenon can be solved without increasing the area of the exchanger 55, the cost can be reduced.

Claims (2)

Compresses the outdoor heat exchanger, which serves as an evaporator in which heat is absorbed as the refrigerant is vaporized, an outdoor fan that moves outdoor air to increase the efficiency of heat exchange of the outdoor heat exchanger, and a refrigerant vaporized in the outdoor heat exchanger. And an indoor heat exchanger installed in the room and dissipating heat while the refrigerant compressed in the compressor is condensed, and a heat exchange between the indoor heat exchanger and the indoor air exchanger, which is installed between the outdoor and the indoor heat exchanger. In the air-conditioning apparatus including a blower to increase, And an air flow control unit installed over the indoor heat exchanger and the blower and controlling the flow of indoor air sucked by the blower. The method of claim 1, The air flow controller surrounds both sides of the indoor heat exchanger and is installed to allow a certain amount of air sucked into the blower to flow back, and to be opened and closed between the air guide and both sides of the indoor heat exchanger. An auxiliary door installed at the front side of the indoor heat exchanger indoor side to sense the temperature of the air sucked into the blower so that the auxiliary door can be opened and closed; Air flow control device for a window type air conditioner, characterized in that consisting of a temperature sensor for outputting the signal.