KR20020009718A - shutting system for intake of air conditioner - Google Patents

Abstract

PURPOSE: An opening and closing apparatus of an intake port in an air conditioner is provided to keep indoor temperature high and indoors comfortably by discharging hot air with operating a heater individually in defrosting and by supplying air to the heater with closing a first intake port and opening a second intake port. CONSTITUTION: An air conditioner is composed of a cabinet(6) having intake ports(16,18) formed in the lower part of the body to suck indoor air and a discharge port(4) in the upper part to discharge air; an evaporator(8) inclined in the lower part of the cabinet to generate heat source to cool or heat; a blower fan(10) installed in the upper part of the evaporator to blow hot or cool blast; a heater(12) installed in the upper part of the blower fan to heat air to the discharge port; and an intake port opening apparatus installed in the front of the cabinet to slide vertically. The intake port opening apparatus supplies air from the intake port to the evaporator in heating normally, and supplies air from the heater without passing through the evaporator in defrosting. The first intake port supplies air to the evaporator in the lower part of the cabinet, and the second intake port moves air into the blower fan without passing through the evaporator. Indoor temperature is kept properly with operating the heater individually in defrosting.

Description

Inlet opening and closing device of air conditioner {shutting system for intake of air conditioner}

The present invention relates to an intake opening and closing device for an air conditioner, and more particularly, to an intake opening and closing device for an air conditioner capable of heating a room even when a defrosting operation is performed by driving a heater alone during defrosting of an air conditioner.

In general, an air conditioner is a device for creating a more comfortable indoor environment for a human being by installing a heater, an air conditioner, an air purifier, or the like for cooling or cooling an air.

The air conditioner performs a cooling function of lowering the indoor temperature by supplying cold air indoors in the summer, and a heating function of raising the indoor temperature by supplying heat to the room during the winter season. In these air conditioners, a heater is installed for heating.

1 is a cross-sectional view of an air conditioner equipped with a heater according to the prior art.

The air conditioner is provided with a suction port 104 for suctioning indoor air at the lower side of the cabinet 102, a discharge port 106 for discharging warm air or cold air into the room at the upper side thereof, and a cooling / heating source of heat inside the cabinet 102. Evaporator 108 is installed, and a blowing fan 110 for blowing cold or warm air generated by the heat exchanger 108 into the room is installed above the evaporator, and an air blowing inside the discharge port 106 is provided. The heater 112 for heating the air discharged to the discharge port 106 by the fan 110 is mounted.

When the air conditioner is sucked indoor air through the inlet 104 during the heating operation, the heat exchange is made while passing through the evaporator 108, and is heated again while passing through the heater 112, so that the hot air is discharged through the outlet 106. Is discharged.

At this time, the condenser of the outdoor unit falls to a low temperature, and when the temperature of the outdoor air falls below freezing, the condenser of the outdoor unit freezes and heating operation becomes impossible. In this case, the defrosting operation is performed to release the freezing of the outdoor unit condenser. Is carried out.

This defrosting operation is to switch the refrigeration cycle from heating to cooling to melt the condenser of the outdoor unit.

However, in the air conditioner according to the prior art as described above, the operation of the blower fan and the heater is stopped because cold air is discharged into the room when the blower fan is driven by the state of the evaporator inside the indoor unit during the defrosting operation, and the blower fan is driven. As a result, the heating operation is stopped.

In addition, as the outdoor temperature is lowered, the freezing state of the condenser becomes deeper, and the defrosting operation time becomes longer, and the indoor temperature is lowered to a low temperature state because the heating operation of the indoor is not performed for a long time.

The present invention has been made to solve the above problems, an object of the present invention is to operate the heater alone during the defrosting operation to release the freezing state of the outdoor condenser to discharge the hot air into the room during the defrosting operation Edo is to provide a high intake opening and closing device for the air conditioner can maintain a high indoor temperature to maintain a more comfortable state.

1 is a cross-sectional view of an air conditioner according to the prior art,

2 is a cross-sectional view of an air conditioner according to the present invention,

3 is a partial perspective view showing the inlet opening and closing device for an air conditioner according to the present invention;

4 and 5 is a state diagram using the inlet opening and closing device of the air conditioner according to the present invention.

<Explanation of symbols for the main parts of the drawings>

2: suction port 4: discharge port

6: cabinet 8: evaporator

10: blower fan 12: heater

16: first inlet 18: second inlet

20: blocking panel 28: rack gear

30: pinion gear 32: drive motor

Inlet opening and closing device of the air conditioner according to the present invention for realizing the above object is a cabinet having a suction inlet for indoor air is sucked in the front lower side and a discharge port for discharging hot or cold air into the room on the upper side, and the cabinet An evaporator installed at a lower side of the evaporator to generate a heat source for cooling and heating, a blower fan installed at an upper side of the evaporator to blow cold or hot air generated while passing through the evaporator, and installed inside the discharge port and discharged to a discharge port. A heater for heating air, wherein the suction port is formed at a front lower side of the cabinet to suck air supplied to the evaporator, and a suction port formed at an upper side of the first suction port to suck air supplied to the heater. It consists of two inlets, and closes the first inlet to supply air to the heater during the defrosting operation and the second intake The inlet opening and closing device for opening the features a slidably doeeojim mounted on the front side of the cabinet.

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

2 is a cross-sectional view of an air conditioner according to the present invention.

Such an air conditioner includes a cabinet (6) having suction inlets (16, 18) in which indoor air is sucked in the front lower side, and an outlet (4) for discharging warm air or cold air in the upper side, and the cabinet (6). An evaporator 8 installed at an inclined angle at a lower side to generate a cooling / heating heat source, and a blowing fan installed at an upper side of the evaporator 8 to blow cold or hot air generated while passing through the evaporator 8 to the room ( 10 and a heater 12 installed inside the discharge port 4, that is, above the blower fan 10, for heating the air discharged to the discharge port 4, and the cabinets 16 and 18. It is mounted on the front side of the front side so as to be slidable vertically so that the air sucked into the inlets 16 and 18 passes through the evaporator 8 during normal heating operation, and is sucked into the inlets 16 and 18 during defrosting operation. Air can be supplied directly to the heater 12 without passing through the evaporator 8. It consists of an inlet opening and closing device.

The inlets 16 and 18 are formed at the front lower side of the cabinet 6 so that the sucked air is supplied to the evaporator 8 and the upper side of the first inlet 16, that is, the constant inlet. The second suction port 18 is formed above the evaporator 8 which is mounted inclined so that the air sucked in does not pass through the evaporator 8 but directly flows into the blowing fan 10.

As shown in FIG. 3, the inlet opening and closing device closes the second inlet 18 during the normal heating operation so that the indoor air can be supplied only through the first inlet 16, and the first in the defrosting operation. A device that closes the inlet port 16 so that air can be supplied only through the second inlet port 18, and has a size capable of closing only one of the first inlet port 16 and the second inlet port 18. A blocking panel 20 mounted on the front side of the cabinet 6 so as to be slidable vertically, and a drive mechanism 22 for sliding the blocking panel 20.

The blocking panel 20 is formed with a guide protrusion 26 which is inserted into the guide groove 24 provided on the side surface of the cabinet 6 and both side ends bent in a flat plate shape at both ends.

The drive mechanism 22 is a rack gear 28 mounted vertically inside the blocking panel 20, the rack gear 28 is meshed with the pinion gear 30 and connected to one side of the cabinet 6. It consists of a drive motor 32 mounted to.

The operation of the air conditioner according to the present invention thus made will be described below.

Figure 4 is a state diagram using the first inlet opening in accordance with the present invention, Figure 5 is a state diagram using the second inlet opening in accordance with the present invention.

In the normal heating operation, the blocking panel 20 is moved upwards to close the second suction port 18. In this state, the air sucked through the first inlet 16 is heat-exchanged while passing through the evaporator 8 and again heated through the heater 12 installed on the upper side, so that the air warmed through the outlet 4 is It is discharged into the room to perform heating.

If the outdoor temperature falls below zero during this heating operation, the condenser of the outdoor unit freezes and becomes impossible to operate. The defrosting operation of switching the refrigeration cycle is performed to release the freezing of the condenser of the outdoor unit.

When the drive motor 32 is driven during the defrosting operation, when the blocking panel 20 is moved downward by the linear movement of the rack gear 28 while the pinion gear 30 is rotated, by the blocking panel 20 The first suction opening 16 is closed and the second suction opening 18 is opened.

In this state, when the blower fan 10 and the heater 12 are operated, indoor air is sucked through the second suction port 18, and the sucked air is directly supplied to the heater 12 without passing through the evaporator 8. do. That is, since the heater 12 is in an operating state, the air passing through the heater 12 is heated, and the heated air is discharged into the room through the discharge port 4 to perform the heating operation.

As such, since the refrigeration cycle is switched to the cooling state during the defrosting operation, the state of the evaporator 8 proceeds to the freezing state, so that the heater immediately passes through the second inlet 18 without passing through the evaporation unit 8. 4) by discharging the air warmed by the heater (4) to the room can perform a heating operation to discharge the hot air in the room even during the defrosting operation.

Therefore, the inlet opening and closing device of the air conditioner according to the present invention configured and operated as described above closes the second inlet during heating operation and opens the first inlet so that air is supplied to the evaporator, and during defrosting operation. The first suction port is closed and the second suction port is opened so that the air is supplied directly to the heater without passing through the evaporator, and the air warmed by the heater is supplied to the room even during the defrosting operation. There is a sustainable advantage.

Claims (4)

A cabinet having an inlet for suctioning indoor air at the front lower side and a discharge port for discharging hot or cold air at the upper side thereof; In the air conditioner comprising a blower fan for blowing the cold air or hot air generated while passing through the evaporator to the room, and a heater installed inside the discharge port to heat the air discharged to the discharge port, The intake port is formed in a front lower side of the cabinet and comprises a first intake port for sucking air supplied to the evaporator, and a second intake port formed above the first intake port to suck air supplied to the heater, and during defrosting operation. An inlet opening and closing device for an air conditioner, the inlet opening and closing device for closing the first inlet and opening the second inlet so as to supply air to the heater is slidably mounted on the front side of the cabinet. The method of claim 1, The inlet opening and closing device is formed to have a size that can close only one of the first inlet or the second inlet and the slide panel is mounted to be slidably moved vertically to the front side of the cabinet, and to slide the blocking panel Inlet opening and closing device of the air conditioner, characterized in that the drive mechanism. The method of claim 2, The blocking panel is an air inlet opening and closing device of the air conditioner, characterized in that both side ends are bent in a right angled flat plate shape is formed in the guide groove provided in the guide groove provided on the side of the cabinet slides vertically. The method of claim 2, The driving mechanism is a rack gear vertically mounted to the inside of the blocking panel, the inlet opening and closing of the air conditioner, characterized in that consisting of a drive motor that is geared with the rack gear, the pinion gear is connected and mounted on one side of the cabinet Device.