KR0128729Y1 - Indoor machine device of an airconditioner - Google Patents

Abstract

The present invention relates to an indoor unit structure of a stationary air conditioner, and includes: a heat exchanger for converting indoor air introduced into an indoor unit into cold air, and a blower for discharging cold air heat-exchanged installed at an air channel downstream of the heat exchanger to the room In the indoor unit structure of a stationary air conditioner having a fan, an auxiliary fan is installed at a predetermined position on the downstream side of the air flow path of the heat exchanger, and has an auxiliary fan for condensing and discharging the stagnant air with the initial cold air passing through the heat exchanger. It provides an indoor unit structure of the stationary air conditioner, characterized in that configured.

Description

Indoor unit structure of stationary air conditioner

1 is a schematic diagram of the indoor unit structure of a stationary air conditioner according to the prior art.

2 is a schematic view of the indoor unit structure of the stationary air conditioner according to the present invention.

* Explanation of symbols used in the main part of the drawing

1: Front panel 2: Inlet

3: heat exchanger 4: discharge port

5: blowing fan 6: body

7: drip tray 8: auxiliary fan

The present invention relates to the indoor unit structure of a stationary air conditioner, and more specifically, to the inside of the indoor unit by installing an auxiliary fan in the stagnant portion that does not reach the rotational force of the blower fan that is sucked into the indoor unit during the operation of the air conditioner to discharge the heat exchanged cold air into the room In the air circulation is smoothly relates to the indoor unit structure of the stationary air conditioner to improve the cooling efficiency of the air conditioner.

In general, the stationary air conditioner is composed of a condenser, expansion valve, evaporator, and compressor like a conventional air conditioner, and the refrigerant gas compressed at high temperature and high pressure in the outdoor unit compressor condenses while dissipating heat by the fan while passing through the condenser. It is a high-pressure liquid state, and is converted into a low-pressure liquid refrigerant through the expansion valve, passing through the evaporator of the indoor unit and absorbs the heat in the air by the fan installed in the indoor unit to discharge the cold air into the room.

And, as shown schematically in the internal structure of Figure 1, the indoor unit structure of the stationary air conditioner according to the prior art is formed on the lower side of the front panel (1) and the inlet (2) to suck the indoor air when the air conditioner operating, The heat exchanger (3) and the body (6) below the heat exchanger (3) are installed inclined to the body (6) to the rear of the front panel (1) and convert the indoor air sucked into cold air through a predetermined freezing cycle process. Formed in the drip tray 7 to collect condensate generated during heat exchange, and downstream of the air flow path (refering to the air flow path side of the portion passing through the heat exchanger 3 as a reference). It is composed of a blowing fan (5) for discharging the cold air into the room through the discharge port (4) on the upper side of the front panel (1).

Therefore, when the air conditioner is operated, the indoor air is introduced into the indoor unit through the suction port 2 by the rotational force of the blowing fan 5 due to the motor driving, which is not shown, and the predetermined freezing while passing through the heat exchanger 3. It is converted into cold air by the heat exchange action through the cycle process, and the condensate generated at this time is collected in the drip tray 7 installed under the heat exchanger 3 and then discharged to the outside through a condensate drain hose. Cold air by the heat exchanger (3) is discharged into the room through the discharge port (4) is capable of cooling the room.

However, the indoor air flowing into the indoor unit by the blowing fan 5 and circulating is cold in a blind spot where the rotational force of the blowing fan 5 does not reach, that is, the bottom portion A is cooled by the heat exchange action of the heat exchanger 3. Part of the cold air changed into air is not discharged directly into the room through the blowing fan (5), and continues to hover over the stagnant portion (A) while causing vortex, so that the reliability of cooling efficiency is lower than the prescribed cooling capacity of the air conditioner. Will fall.

Accordingly, an object of the present invention is to discharge all the air heat-exchanged into the room by an air circulation auxiliary fan mounted on the stagnant part which is sucked during the operation of the air conditioner and changed into cold air by the heat exchanger. It is to provide an indoor structure of a stationary air conditioner to increase the cooling efficiency.

An object of the present invention described above is provided with a heat exchanger for converting indoor air introduced into an indoor unit into cold air, and a blower fan mounted downstream of the air flow path of the heat exchanger to discharge the heat-exchanged cold air into the room. In the indoor unit structure of the stationary air conditioner, characterized in that it comprises an auxiliary fan which is installed at a predetermined position on the downstream side of the air flow path of the heat exchanger, the auxiliary fan for discharging the stagnant air with the initial cold air passing through the heat exchanger to discharge it By providing an indoor structure of the stationary air conditioner.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As schematically shown in FIG. 2, a heat exchanger 3 for converting indoor air sucked through the inlet 2 of the front panel 1 into cold air through a predetermined freezing cycle process when the air conditioner is operated, Since the configuration of the blower fan 5 for discharging the heat-exchanged cold air into the room through the discharge port 4 of the front panel 1 is the same as that of the conventional configuration shown in FIG. 1, the description thereof is omitted. The quotation marks are the same.

Therefore, the indoor unit structure of the air conditioner according to the embodiment of the present invention, the heat exchanger (3) to the stagnant portion (A) which does not reach the rotational force of the blowing fan (5) corresponding to the downstream side of the air flow path of the heat exchanger (3). Blowing auxiliary fan (8) is rotated by the motor drive not shown so as to join and discharge the initial cold air passing through).

Referring to the operation of the present invention as described above, when the air conditioner operating the fan fan 5 is rotated by the motor drive is not shown, so that the indoor air flows into the indoor unit through the inlet (2) of the front panel (1) Then, it is converted into cold air by a predetermined heat exchange action of the heat exchanger (3), in which the condensate generated during the heat exchange is collected by the drip tray (7) and discharged to the outside through a condensate drain hose (not shown). Cold air heat-exchanged by the heat exchanger (3) is discharged into the room through the discharge port (4) by the blowing fan (5) mounted downstream of the air flow path of the heat exchanger (3).

At this time, a part of the cold air passing through the heat exchanger (3) is not discharged directly into the room through the blowing fan (5), causing vortices in the stagnant portion (A) that the rotational force of the blowing fan (5) does not reach. It is circulated while, which is combined with the initial cold air passing through the heat exchanger (3) by the rotation of the auxiliary fan (8) mounted in the stagnant portion (A) is discharged into the room by the blowing fan (5) will be.

As described above, the indoor unit structure of the stationary air conditioner according to the present invention, the air is sucked into the indoor unit during the air conditioning operation by the auxiliary fan mounted on the downstream side of the air flow path of the heat exchanger and heat exchanged in the vortex state on one side of the indoor unit after the heat exchange All air passing through the heat exchanger is discharged into the room to increase the cooling efficiency of the air conditioner, thereby improving the reliability of the product.

Claims (1)

In the indoor unit structure of a stationary air conditioner having a heat exchanger that is built into the indoor unit to convert the indoor air introduced into cold air, and a blowing fan mounted downstream of the air flow path of the heat exchanger to discharge the heat exchanged cold air into the room, And an auxiliary fan installed at a predetermined position on the downstream side of the air flow path of the heat exchanger to condense and discharge the stagnant air with the initial cold air passing through the heat exchanger.