KR100413072B1 - Condensation Water Guide Structure of Baffle For Air-Conditioner Indoor Unit - Google Patents

Abstract

The present invention relates to a condensate guide structure of an air conditioner indoor unit baffle, and the present invention is provided with stepped baffles (80) on both sides of the heat exchanger (70) of the air conditioner indoor unit, respectively, and the drain below the heat exchanger (70). In the air conditioner indoor unit in which condensed water is generated on the heat exchanger 70 and the baffle 80 by the operation of the air conditioner with the member 90 installed, the condensed water falls toward the drain member 90. ) Condensate formed on the heat exchanger 70 is guided toward the heat exchanger 70 to cross the entire plane of the stepped baffle 80 on the bottom plane of the baffle 80 so that all the condensed water falls to the drain member 90. A guide pin 81 having an inclination angle obliquely inward toward the inner side is protruded.

Therefore, the present invention prevents the condensed water formed on the baffle 80 from falling through the drain member 90 through the guide pins 81 for guiding the condensed water. In this case, it may cause a fire or a breakdown of the device, and may prevent an electric shock.

Description

Condensation Water Guide Structure of Baffle for Air-Conditioner Indoor Unit

The present invention relates to a condensate guide structure of a baffle for an air conditioner indoor unit, and in particular, the condensate formed on the baffles disposed on both sides of the heat exchanger in a state where a drain member is provided under the heat exchanger of the air conditioner indoor unit can flow precisely to the drain member. The guide pin is formed on the lower plane of the baffle to guide the condensate to other equipment inside the indoor unit, not the drain member, to prevent fire or electric shock due to equipment failure or short circuit. It relates to a condensate guide structure of the air baffle.

In general, an air conditioner manufactured by separating the indoor unit and the outdoor unit is installed in the indoor unit, and the indoor unit is connected to the outdoor unit installed outdoors by piping and wiring.

The indoor unit and outdoor unit of the air conditioner forcibly circulates the external hot air by driving the blower, and cools the hot air to a predetermined temperature by the action of the heat exchanger to supply the cold air to the room.

Figure 1 is a perspective view showing the configuration of a conventional air conditioner indoor unit, Figure 2 is a front view showing a part to show the interior of the conventional air conditioner indoor unit, Figure 3 is a part open to show the configuration of the conventional air conditioner indoor unit. Side view.

As shown in Figure 1, the main body 10 forming the exterior of the indoor unit is fixed to the rear cabinet 20 at the rear, discharge to discharge the air cooled in the upper portion to the front of the rear cabinet 20 to the room The front cabinet 30 is provided with a grill 50 and a suction grill 60 for sucking air in the room.

The central part of the front cabinet 30 between the discharge grill 50 and the suction grill 60 is provided with a control unit 40 for adjusting the air volume and the set temperature.

At this time, the control unit 40 is configured to control the operation of the indoor unit by a user directly pressing or remote controller (not shown) from a remote.

2 and 3, a heat exchanger (or evaporator) 70 is installed inside the main body 10, and baffles 80 are provided on both sides of the heat exchanger 70. The lower portion of the heat exchanger 70 is provided with a drain member 90 for collecting condensate.

In addition, a blower 100 is installed below the heat exchanger 70 to suck and discharge indoor air.

Here, the heat exchanger 70 is to lower the temperature of the indoor air through heat exchange with the indoor air sucked through the suction grill 60, the expansion valve and the refrigerant connected to the discharge side of the condenser constituting the outdoor unit (not shown) It is connected via a pipe 71.

In addition, the drain member 90 is provided with a drain hole, and the drain hose 91 is fitted therein to be led to the outside of the indoor unit main body 10 to discharge the condensed water collected in the drain member 90 to the outside of the indoor unit. It is supposed to be.

Cooling using a separate air conditioner having such a configuration operates the control unit 40 provided in the front center of the indoor unit main body 10 to supply power to the indoor unit and the outdoor unit and to operate the blower and the compressor.

By operating the compressor, the refrigerant compresses the refrigerant introduced from the heat exchanger 70 and is sent to the condenser in a gas state of high temperature and high pressure, and the refrigerant introduced into the condenser is cooled by outside air, and the expansion valve is in a liquid state. Will be sent to.

The refrigerant in the liquid state passing through the expansion valve is changed into a fog state of low temperature and low pressure by a pressure drop action, and flows into the heat exchanger 70, and the introduced refrigerant flows around the heat exchanger 70, Will absorb heat from it.

However, condensed water is formed on the baffle 80 disposed on the side of the heat exchanger 70 and the heat exchanger 70 due to the temperature difference during the cooling operation through the above process, and the condensed water is formed in the heat exchanger 70. It flows down to the drain member 90 located below.

However, conventionally, the baffle 80 provided on both sides of the heat exchanger 70 has a structure as shown in FIG. 4, so that the plane of the baffle 80 in the indoor unit has a heat exchanger 70. The drain member 90 formed in the lower portion of the heat exchanger 70 in this state is not installed to cover the entire width of the baffle 80 due to spatial limitations, and is installed at a position higher than the plane of the baffle 80. As it is installed to cover only a part of the baffle 80, the condensate formed in the baffle (80) flows down the entire plane of the baffle (80), and then some drops to the drain member (90), the baffle (off the drain member 90) Condensate flowed down along the plane of the 80 may fall out of the drain member 90 and permeate various devices installed in the indoor unit.

In addition, when the condensed water falls out of the drain member 90 and flows into other devices installed in the indoor unit, there is a problem in that a severe failure or short circuit of the device may cause a fire, as well as a risk of electric shock.

Therefore, the present invention has been made to solve the above problems, the object of the present invention is the amount of heat exchanger in the state that the drain member installed in the lower part of the heat exchanger of the air conditioner indoor unit does not expand the width any more due to the space limitation. By forming a guide pin on the lower plane of the baffle to guide the condensed water formed on the baffle disposed on the side of the baffle, the condensed water flows into another device inside the indoor unit instead of the drain member, thereby causing a malfunction. The present invention provides a condensate guide structure for an air conditioner indoor unit baffle that prevents fire and electric shock from electric leakage or short circuit.

1 is a perspective view showing the configuration of a conventional air conditioner indoor unit.

Figure 2 is a front view showing a part open to show the inside of the conventional air conditioner indoor unit.

Figure 3 is a side view of a part open to show the configuration of the conventional indoor air conditioner indoor unit.

Figure 4 is a perspective view of the baffle installed on both sides of the heat exchanger of the conventional indoor air conditioner.

Figure 5 is a front view of a part open to show the interior of the indoor unit air conditioner according to the present invention.

Figure 6 is a side view of a part open to show the configuration of the indoor unit of the air conditioner according to the present invention.

Figure 7 is a perspective view showing a state in which the guide pin is provided on the baffles installed on both sides of the heat exchanger of the indoor air conditioner according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: main body 20: rear cabinet

30: front cabinet 40: control unit

50: discharge grill 60: suction grill

70 heat exchanger 80 baffle

81: guide pin 90: drain member

In the condensate guide structure of the air conditioner indoor unit baffle according to the present invention for achieving the above object, stepped baffles are respectively installed on both sides of the heat exchanger of the air conditioner indoor unit, the air conditioner in a state in which the drain member is installed below the heat exchanger In an air conditioner indoor unit in which condensed water is generated on the heat exchanger and the baffle by the operation of the condensate to the drain member, the condensed water formed on the baffle is directed toward the heat exchanger so that all the condensed water falls to the drain member. A guide pin having an inclination angle obliquely protrudes in an inward direction of the heat exchanger across the entire plane of the stepped baffle on the plane.

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

5 is a front view showing a part of the air conditioner indoor unit open to show the interior of the present invention, Figure 6 is a side view of a part open to show the configuration of the air conditioner indoor unit according to the present invention, Figure 7 is the present invention A perspective view showing a state where the guide pin is provided on the baffles installed on both sides of the heat exchanger indoor unit of the air conditioner.

In this case, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and in describing the present invention, the same parts as those described in the prior art use the same names and the same reference numerals.

As shown in the accompanying drawings, the internal configuration of the indoor unit to which the present invention is applied is the same as the configuration described in the prior art.

That is, the discharge grill 50 for discharging the air cooled in the upper portion to the front of the indoor unit main body 10 is installed, the suction grill 60 for sucking the air in the room is installed below.

In addition, a heat exchanger 70 is installed in the indoor unit main body 10, and a baffle 80 is installed at both sides of the heat exchanger 70, and a drain member collecting condensate water in the lower part of the heat exchanger 70. 90 is provided.

Here, the heat exchanger 70 is to lower the temperature of the indoor air through heat exchange with the indoor air sucked through the suction grill 60, the expansion valve and the refrigerant connected to the discharge side of the condenser constituting the outdoor unit (not shown) It is connected via a pipe 71.

In addition, a blower 100 for sucking and discharging indoor air is installed below the heat exchanger 70, and a drain hole is provided at the drain member 90, and a drain hose 91 is fitted thereto. By being drawn out of the indoor unit main body 10, the condensed water collected in the drain member 90 is discharged to the outside of the indoor unit.

Baffle 80 disposed on the side of the heat exchanger 70 and the heat exchanger 70 by the temperature difference during the cooling operation in the process of achieving the air conditioning in the room by using the separate air conditioner to which the present invention having such a configuration is applied Condensate is generated and formed on the phase, and the condensate flows down to the drain member 90 positioned below the heat exchanger 70.

In this case, when the condensation water formed on the baffle 80 falls to the drain member 90 positioned below the baffle 80 along the plane of the baffle 80, some of the conventional condensate water falls out of the drain member 90. Guide pins 81 for guiding condensate on the lower plane of the baffle 80 are guided so that the entire condensate formed on the plane of the baffle 80 may fall toward the drain member 90 so as to prevent the throwing. It formed by protruding.

Thus, the structure of the guide pin 81 formed on the plane of the baffle 80 is shown more clearly in FIG.

That is, the guide pins 81 protrude from the lower end of the baffle 80 at an inclined angle in an inward direction toward the heat exchanger 70 across the entire plane of the stepped baffle 80.

At this time, the guide pin 81 is bent to the lowermost plane of the baffle 80 having a height coinciding with the plane of the heat exchanger 70 when the baffle 80 is installed at the uppermost plane of the stepped baffle 80. The stepped baffle 80 extends along the plane to guide the condensate.

Therefore, according to the baffle condensate guide structure of the indoor unit of the air conditioner according to the present invention having the configuration as described above, when the condensed water is formed on the heat exchanger 70 and the baffle 80 by the air conditioner operation, the heat exchanger 70 The condensed water is collected in the drain member 90 which is located under the heat exchanger 70 as it is, the condensed water formed on the baffle 80 is dropped along the entire plane of the baffle 80 and at the bottom end of the baffle 80. The condensate is collected toward the heat exchanger 70 along the inclined direction of the guide pin 81 and is collected at an obliquely protruding guide pin 81. It is collected by falling into the drain member 90 as it is.

As described above, the present invention prevents the condensate formed on the baffle from falling through the drain member through a guide pin for guiding the condensate. It is a very useful and effective invention that can prevent fire or short circuit, which can cause fire as well as electric shock.

Claims (1)

Stepped baffles 80 are installed on both sides of the heat exchanger 70 of the air conditioner indoor unit, and the heat exchanger 70 is operated by operating the air conditioner while the drain member 90 is installed below the heat exchanger 70. In the air conditioner indoor unit in which condensate is generated on the baffle and the condensate falls to the drain member 90, Condensate formed on the baffle 80 is directed toward the heat exchanger 70 to cross the entire plane of the baffle 80 stepped on the bottom plane of the baffle 80 so that all condensate falls to the drain member 90. Condensate guide structure of the air conditioner indoor unit baffle, characterized in that the guide pins 81 having an oblique angle obliquely inwardly toward the heat exchanger 70 is formed.