KR19990019485A - Drainage and support device of air conditioner - Google Patents

Abstract

The drain and support apparatus of the air conditioner according to the present invention includes a suction inlet for sucking indoor air by a blower fan in a cabinet, a heat exchanger for heat-exchanging the air introduced into the suction inlet, and a discharge hole for discharging the heat-exchanged air back into the room. The air conditioner of the present invention is characterized in that the lower end of the cabinet has an air intake through the bottom surface and the drain and support means having a drain for receiving and condensing water generated from the heat exchanger The temperature of the air flowing into the suction port is lowered by the influence of the condensed water filled in the drain portion in a predetermined amount to achieve high efficiency cooling.

Description

Drainage and support device of air conditioner

The present invention relates to a drainage and support device for an air conditioner configured to suck air through a bottom surface in a cylindrical air conditioner.

In general, air conditioners are classified into various types according to their function or configuration of the unit. In the classification by function, the air conditioners can be classified into cooling only, cooling and dehumidification only, and cooling and heating. And an integrated air conditioner integrated with a heat dissipation function may be classified into an integrated air conditioner installed in a window and the like, and a separate air conditioner installed separately from a heat dissipation and compression device on an indoor side.

Conventional air conditioners, as shown in Figures 1 and 2, the front panel 20 is coupled to the front center of the cabinet 10 having a rear side wall and both side walls, the lower end of the front panel 20 The control unit 30 is installed to control the air conditioner, and the suction and discharge ports 40 (at the lower and upper front of the cabinet 10 so that atmospheric air is sucked and discharged into the air conditioner) ( 50) are formed respectively.

In addition, the suction port 40 is provided with a suction grill 41 to support the filter member (not shown) while providing a beautiful appearance, and the discharge port 50 is supplied to the room through the discharge port 50. A plurality of wind direction up and down control plates 51 and wind direction left and right control plates 52 are arranged at regular intervals so as to control the direction of the cold wind.

As shown in FIG. 2, a heat exchanger 60 is installed in the cabinet 10 to exchange heat sucked from the suction port 40 to cool air, and a lower portion of the heat exchanger 60 is provided. The drainage member 70 is installed to drain the water generated by the temperature difference when the indoor air is converted into cold air, and the heat exchanger 60 sucks the heat-exchanged air and discharges it to the discharge port 50. The blowing fan 81 driven by the motor 80 is provided in the duct member 82 so as to make it work.

When the air conditioner configured as described above operates the control unit 30 to operate the air conditioner, the motor 80 is driven, and the blower fan 81 connected thereto is rotated and formed at the front lower end of the cabinet 10. The air exchanged in the heat exchanger 60 is sucked through the inlet 40 and discharged in the direction of the arrow of FIG. 2 through the upper outlet 50.

However, in the conventional air conditioner as described above, since the overall appearance of the cabinet 10 is rectangular, the left and right distribution angles of the air discharged through the discharge port 50 during installation of the air conditioner are small, so that the discharged air As it takes a long time to lower the temperature of the indoor air in the area where it does not reach, the operation time of the air conditioner increases, and thus the power consumption of the air conditioner increases, and when the air is sucked in through the lower side of the cabinet Since the air flowing into the air is discharged through the discharge port by changing the direction of the flow path upward, there is a problem that the discharge efficiency is lowered.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to form a cylindrical shape so as to increase the discharge angle of the discharged air when the air conditioner is running at the same time formed in the lower portion of the air conditioner The present invention provides a drainage and support device for an air conditioner that forms a suction port and a drain portion for draining condensate to further lower the temperature of air sucked into the suction port to realize high efficiency cooling.

In order to achieve the above object, the air conditioner drain and support apparatus according to the present invention includes an intake port through which indoor air is sucked by a blower fan in a cabinet, a heat exchanger for heat-exchanging air introduced into the intake port, and In the air conditioner having a discharge port discharged back to the room, the lower end of the cabinet having a suction port for the indoor air is sucked through the bottom surface and the drain and supporting means for receiving and draining the condensed water generated from the heat exchanger It is characterized by.

1 is a perspective view showing a conventional air conditioner,

2 is a longitudinal sectional view showing a conventional air conditioner;

3 is an exploded perspective view showing an air conditioner according to the present invention;

4 is an assembled sectional view showing an air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

110: cabinet 120: discharge port

130: inlet 140: heat exchanger

150: blowing means 160: drainage and support means

161: air tools 162: drain

162a: drainage hole 163: guide wall

170: filter member 180: duct member

190: drain hose

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is described in detail, referring an accompanying drawing.

As shown in Figures 3 and 4, in the air conditioner according to the present invention is configured in a cylindrical shape, the discharge port 120 is formed in the upper portion of the cylindrical cabinet 110, the lower end of the cabinet 110 Drain and support means 160 having a suction port 130, the indoor air sucked through the bottom surface and the drain portion 162 for receiving and condensing the condensed water generated from the heat exchanger described later, the drain portion 162 The V-shaped heat exchanger 140 is erected on the upper surface of the heat exchanger to cool heat exchange the indoor air sucked through the inlet 130, and the upper part of the heat exchanger 140 sucks the heat-exchanged air and discharges the upper discharge port. Blowing means 150 is installed to discharge to the 120, the lower portion of the inlet 130, the filter member 170 is detachable to filter the foreign matter such as dust contained in the air flowing into the inlet 130. install It can control.

In addition, the upper side of the blowing means 150 is provided with a duct member 180 to guide the air guided from the blowing means 150 to the discharge port 120 without resistance, the support member 170 of the The drain hose 190 is connected to the lower portion to drain the condensed water generated by the heat exchanger 140.

The blowing means 150 is a blower motor 151 driven by an applied power source, a propeller-type blower fan 152 rotated by the shaft 151a of the blower motor 151, and the cabinet 110 Supported horizontally to the support bracket 153 for supporting the blower motor 151, and is installed on the lower end of the support bracket 153 to accommodate the propeller blower fan 152 therein while the flow of air Consists of guiding air guide member (154).

The heat exchanger 140 is bent in two stages so as to cover the inner surface of the inlet port 130 while the heat transfer area in contact with the indoor air flowing into the inlet port 130 becomes large. Is built in.

That is, the heat exchanger 140 is inserted into the drain 162 formed on both sides of the suction port 130 of the support member 170 by the bracket 141 is attached to both sides of the fastening member 99 It is bound by.

The drainage and support means 160 is an air oil tool 161 formed on its outer circumferential surface so that air flows into the inlet 130 formed at the center thereof, and the heat exchanger 140 is attached to both sides of the inlet 130. And at the same time receiving the condensate generated in the heat exchanger 140 and the drain portion 162 partitioned to be drained through the drain hose 190, and without the loss of air sucked upward on the outer surface of the inlet 130 It consists of a guide wall 163 formed to exchange heat while passing through the heat exchanger (140).

Both side walls of the air tool 161 are formed with guide protrusions 161a for guiding the filter member 170 to be inserted therein.

In addition, a drainage hole 162a is formed on the bottom surface of the drainage portion 162 so that condensate is drained, and the drainage hole 162a has a predetermined height higher than the bottom surface of the drainage portion 162 so that the condensed water is filled in a predetermined amount. Is inverted.

That is, the drain portion 162 may be formed on both sides of the suction port 130 formed on the upper surface of the support member 160 to lower the temperature of the air flowing into the suction port 130 with condensate that is accumulated in a predetermined amount without being drained. It is supposed to be.

Next, the operation of the present invention will be described.

First, when the air conditioner is pressed by pressing the control unit (not shown) of the air conditioner, the blower motor 151 is driven, and the propeller type blower fan 152 that receives the driving force of the blower motor 151 rotates. The indoor air is sucked through the suction port 130 formed in the drainage and support means 160 at the bottom of the cabinet 110. The air sucked in this way is heat-exchanged in the heat exchanger 140, and then the air guide member. Passed through the 154 is discharged to the discharge port 120 via the duct member 180.

At this time, since the heat exchanger 140 is multi-stage bent and the heat transfer area due to contact with the indoor air is large, the heat exchange capacity is improved, and the condensed water generated by the temperature difference when heat-exchanging the indoor air in the heat exchanger 140 is It flows into the drain portion 162 and is filled in a certain amount from the bottom surface, flows out into the drain hole 162a protruding to a predetermined height, and flows out through the drain hose 190 connected to the drain hole 162a.

As such, by forming the drain 162 on both sides of the suction port 130 and filling a predetermined amount so that the drain 162a is drained, the temperature of the air flowing into the suction port 130 is increased by the drain 162. ) Is reduced by the effect of the condensate filled in a predetermined amount is to achieve high efficiency cooling.

As described above, according to the drainage device of the air conditioner according to the present invention, by forming a drain on both sides of the inlet and filled with a predetermined amount to drain through the drain hole the temperature of the air flowing into the inlet is the drain It is lowered by the influence of the condensate filled in a predetermined amount in the high efficiency cooling is achieved.

Claims (6)

In an air conditioner having a suction inlet in which indoor air is sucked by a blower fan in a cabinet, a heat exchanger for heat-exchanging the air introduced into the suction inlet, and an outlet for discharging the heat-exchanged air back into the room, And a drainage and support means having a suction port through which the indoor air is sucked through the bottom surface of the cabinet and a drainage portion for draining the condensed water generated from the heat exchanger. The method of claim 1, The drainage and the support means are drained through the drain hose to receive air condensing water and the condensate generated by the heat exchanger at the same time as the air inlet on the outer circumferential surface and the heat exchanger is coupled to both sides of the inlet so that air flows into the inlet formed in the center thereof. And a guide wall is formed on the outer surface of the inlet so that there is no loss of air sucked upward. The method of claim 2, The drainage hole formed to drain the condensed water on the bottom surface of the drain portion drainage and support device of the air conditioner, characterized in that the concave water is protruded to a predetermined height than the bottom surface of the drain portion to be drained when a certain amount is filled. The method according to claim 2 or 3, The drainage is formed on both sides of the inlet and the drainage and support device of the air conditioner, characterized in that it is possible to lower the temperature of the air flowing into the inlet with the condensed water is not drained. The method of claim 2, Both side walls of the air tool, drainage and support device of the air conditioner, characterized in that the guide projection for guiding the filter member is formed. The method according to claim 2 or 5, The air oil tool is drainage and support apparatus of the air conditioner, characterized in that formed at least two places on the outer peripheral surface of the support member.