KR100547683B1 - Indoor unit of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and in more detail, by placing the inlet port on the back, the outlet port is located in the front, and the blower propeller is located between the inlet port and the discharge port, the front of the indoor air sucked from the back The structure of the air conditioner indoor unit to be discharged to the.

The indoor unit of the air conditioner according to the present invention is attached to the wall surface, the base is formed in the upper and lower and / or both sides of the air intake port; A front frame formed on the front surface of the base and having an air discharge port formed on the front surface thereof; It is formed between the base and the front frame, it characterized in that it comprises a blower propeller for sucking air through the suction port, and discharge the air through the discharge port.

According to the indoor unit of the air conditioner according to the present invention, the blowing propeller is provided as the blowing means, thereby increasing the intake wind direction.

In addition, since the intake wind direction is increased, the amount of air exchanged with the heat exchanger is increased, thereby increasing the efficiency of the heat exchanger.

Front Panel, Front Frame, Blower Propeller, Heat Exchanger, Orifice, Base

Description

Indoor unit of air conditioner

1 is a perspective view of an indoor air conditioner equipped with a centrifugal blowing fan.

2 is an exploded perspective view of the indoor unit.

3 is a perspective view showing a flow path of air passing through the indoor unit;

4 is a front perspective view of the indoor unit of the air conditioner according to the spirit of the present invention.

5 is a rear perspective view of the indoor unit.

6 is an exploded perspective view of the indoor unit of the air conditioner according to the spirit of the present invention

7 is a perspective view showing the flow of air through the indoor unit of the air conditioner according to the spirit of the present invention.

8 is a perspective view showing a state in which the indoor unit of the air conditioner according to the idea of the present invention spaced apart from the wall surface

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

120: front frame 121: discharge port 130: blowing propeller

140: orifice 150: heat exchanger 160: base

170: total length portion 180: drain pan 190: piping cover

200: wall 300: mounting hook 400: hook groove

The present invention relates to an air conditioner, and in more detail, by placing the inlet port on the back, the outlet port is located in the front, and the blower propeller is located between the inlet port and the discharge port, the front of the indoor air sucked from the back The structure of the air conditioner indoor unit to be discharged to the.

In general, the air conditioner performs a refrigeration cycle of the refrigerant circulating therein compression, condensation, expansion and evaporation. In particular, in the case of an air conditioner, the refrigerant is compressed to a high temperature and a high pressure, and then heat is released to the outside from the condenser, and the temperature and pressure drop significantly while passing through the expansion valve. The low temperature and low pressure refrigerant passes through the evaporator, absorbs heat, and then enters the condenser again.

Here, the compression process, the condensation process and the expansion process are performed in the outdoor unit of the air conditioner, and the evaporation process is performed by the blower fan and the heat exchanger of the indoor unit.

In addition, the blower used in the indoor unit of the air conditioner or the like is composed of an impeller for causing a flow and a casing for guiding the flow into and out of the van.

There are various methods of classifying blowers. The most common method is classification based on the characteristics of flow through vanes. Axial-flow fan, radial-flow fan, mixed-flow fan It is divided into (Mixed-flow fan).

In detail, when the flow of air occurs in a direction parallel to the axis of rotation of the vane, it is called an axial flow blower. Propeller blowers, ie ordinary household fans, belong here. Axial blowers are used where the energy applied is primarily used to increase the velocity of the fluid, so that a high flow rate is required but not so much pressure.

In addition, the radial flow blower is the main purpose is to increase the pressure by the centrifugal force, and therefore it is often used where pressure is required rather than the flow rate.

In addition, centrifugal blowers usually use a spiral casing such that the vane inlet flow is in the direction of the rotational axis but the outlet flow is at right angles to the axis of rotation. It is largely distinguished by the use case.

In addition, a mixed flow blower is used when axial and radial flows exist together in a van, and when an increase in flow rate and pressure is required simultaneously.

In addition, a new type of blowers that do not rely on vanes are used for special purposes, and a blower that does not require a motor using a piezoelectric element may be used.

The blower should be appropriately selected according to its application object and operating characteristics. Industrially, it is mainly used for air conditioning system and various intake / exhaust systems. The size also varies from small to large industrial blowers, such as computer cooling fans.

1 is a perspective view of an indoor unit of a air conditioner equipped with a centrifugal blowing fan, FIG. 2 is an exploded perspective view of the indoor unit, and FIG. 3 is a perspective view illustrating a flow path of air passing through the indoor unit.

1, 2 and 3, the indoor unit 10 of the air conditioner equipped with a centrifugal blower fan includes a front surface including a display unit 21 for receiving a signal from a remote controller and displaying whether the air conditioner is activated. A filter 30 in contact with the panel 20 and indoor air sucked from the upper side of the front panel 20 to filter foreign matter contained in the suction air, the filter 30 and the front panel 20 ) Is seated on the front frame 35 to form a front portion, a heat exchanger 60 to lower the temperature of the intake air by contacting the purified air through the front frame 35, and the heat exchanger 60 A blower fan 50 formed at the rear side of the blower and sucking the low-temperature indoor air passing through the heat exchanger 60, and an orifice for guiding the flow of low-temperature air sucked by the blower fan 50; 70 and air guided by the orifice 70 are discharged. A discharge portion mounting base 40 is included.

In detail, a drain pan 80, which condenses on the outer wall of the heat exchanger 60 and collects moisture in the air, is included, and an upper portion 75 of the orifice 70 controls the driving of electrical components. It is seated.

In more detail, the upper inner surface of the base 40, the low-temperature air sucked into the blowing fan 50 through the orifice 70 is not discharged to the upper side, the air flows so as to discharge to the left and right sides of the indoor unit The flow guide 90 for guiding is seated.

Hereinafter, the function and action of the indoor unit 10 of the air conditioner will be described.

First, when an operation signal is received by a remote controller or a manual unit on the display unit 21 mounted on the front panel 20 of the indoor unit 10, the upper side of the front panel 20 is opened. In other words, the opened portion becomes the suction port 25.

In addition, when the motor (not shown) mounted inside the indoor unit 10 is operated, the blowing fan 50 is rotated, and the indoor air is sucked through the suction port 25.

The sucked indoor air is purified through the air filter 30 and then passed through the heat exchanger 60. The pressure and temperature of the refrigerant flowing through the heat exchanger 60 are very low. Therefore, the sucked indoor air is deprived of heat while contacting the heat exchanger 60, the temperature of the indoor air passing through the heat exchanger 60 is lowered.

The indoor air passing through the heat exchanger 60 as described above is introduced into the blowing fan 50 through the orifice 70, and the air introduced into the blowing fan 50 is again indoors through the discharge ports 31 and 33. Is discharged.

In the air conditioner indoor unit provided with the centrifugal blowing fan as described above, the amount of air sucked is less than that of the indoor unit provided with the propeller corresponding to the axial blower.

In addition, in the conventional indoor unit as described above, the indoor air is sucked into the front surface and is discharged to the front side both sides and the lower side. Therefore, the flow path of the indoor air from the inlet to the outlet is not in a straight line but in a "U" shape or a "L" shape. As a result, there is a problem that the flow resistance of the air is increased compared to an indoor unit in which the flow path of the air is formed in a straight shape. And, there is a problem that the noise occurs in the indoor unit as the flow resistance of the air increases.

The present invention has been proposed to solve the above problems, and to provide an indoor unit of the air conditioner so that a large amount of air is sucked by installing a blower propeller inside the indoor unit to suck the indoor air. do.

In addition, an object of the present invention is to provide an indoor unit of an air conditioner in which a large amount of air is sucked in a short time, thereby increasing the efficiency of the heat exchanger.

In addition, the air is sucked to the back of the indoor unit and discharged to the front of the indoor unit, thereby forming a straight flow path of the indoor air from the suction port to the discharge port, thereby providing an indoor unit of the air conditioner to reduce friction and noise due to air flow It aims to do it.

The indoor unit of the air conditioner according to the present invention for achieving the object as described above is attached to the wall, the base is formed on the upper and lower and / or both sides of the rear air inlet; A front frame formed at a front surface of the base and having an air discharge port formed at a front surface thereof; It is formed between the base and the front frame, it characterized in that it comprises a blower propeller for sucking air through the suction port, and discharge the air through the discharge port.

By the above configuration, by allowing a large amount of air to be sucked in a short time, there is an effect that the room temperature is lowered quickly and the thermal efficiency of the indoor unit is increased.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other elements. I can suggest.

4 is a front perspective view of the indoor unit of the air conditioner with a blower propeller according to the spirit of the present invention, Figure 5 is a rear perspective view of the indoor unit.

4 and 5, the exterior of the air conditioner indoor unit 100 according to the present invention includes a front frame 120 and a base 160 coupled to the front frame 120 to form a rear cover. A pipe cover 190 is formed below the indoor unit to accommodate various pipes coming into the indoor unit.

In detail, a discharge port 121 through which the sucked indoor air is discharged is formed on a front surface of the front frame 120, and suction ports 161 and 164 are formed at one side of the base 160 to suck the indoor air. do.

In more detail, the front discharge port 121 formed in the front frame 120 may be a wind direction control device 125 for adjusting the wind direction, the shape and the wind direction control method of the front discharge port 121 of the present invention. Not limited to the embodiment, various shapes and manners may be proposed.

In addition, the central surface of the base 160 may be a suction grill 162 of the net form is formed to suck the indoor air through the suction grill 162.

In addition, a filter insertion hole 163 may be formed at a bottom of the base 160 to insert a filter (not shown) for filtering out foreign substances contained in the indoor air to be sucked.

The movement path of the air entering the indoor unit 100 is sucked through at least one suction port 161, 162, 164 and the filter insertion hole 163 formed at one side of the base 160, and then the front frame. It is discharged through the discharge port 121 formed on the front of the (120).

6 is an exploded perspective view of the indoor unit of the air conditioner according to the spirit of the present invention.

Referring to Figure 6, the indoor unit 100 of the air conditioner according to the present invention is formed on the front frame 120, the front side of the indoor unit 100, the rear side of the front frame 120, the indoor air is Blowing propeller 130 to be sucked, and formed on the rear side of the blowing propeller 130, orifice 140 for guiding the direction of air sucked by the rotation of the blowing propeller 130, and the orifice 140 Is formed on the rear side of the heat exchanger 150 and the rear side of the heat exchanger 150 to lower the temperature of the intake air by contacting the suctioned air, and is coupled to the front frame 120. The base 160 is included.

In addition, as described above, the indoor unit is characterized in that the front frame 120, the blowing propeller 130, the orifice 140, the heat exchanger 150, and the base 160 in the form of assembly.

In detail, the orifice 140 has a guide hole 144 through which the blower propeller 130 is inserted and the sucked air can communicate with the air sucked by the blower propeller 130, the front frame. An air guide guide 141 surrounding the outer circumferential surface of the blowing propeller 130 is included to guide the discharge port formed in the 120.

On the other hand, the electronic device is installed in the upper space between the front frame 120 and the orifice 140, and the electric part 170 for controlling the drive of the electric fan and the electric components to rotate the fan 130 is further formed, A drain pan 180 is formed below the heat exchanger 150 to collect condensed water formed on the surface of the heat exchanger 150.

In addition, a pipe cover 190 is further formed below the drain pan 180 to accommodate various pipes connected to the drain pan 180 and the indoor unit 100, according to the spirit of one complete invention. The indoor unit of the air conditioner is formed.

Hereinafter, the function and operation of each part will be described.

First, the front frame 120 has a discharge port 121 for discharging the air sucked by the blowing propeller 130 is formed.

In addition, the blowing propeller 130 is rotated by the operation of the motor, so that the indoor air is sucked into the indoor unit (100). And, the blowing propeller 130 may be installed at least one or more according to the size or use of the indoor unit 100, the shape or number of blades of the blowing propeller 130 is not limited to the embodiment of the present invention. No.

In addition, the orifice 140 serves to guide the flow of air sucked by the blower propeller 130, and the air sucked through the guide hole 144 is connected to the air guide guide 141. By the direction of the flow of air is determined by the discharge port 121 is discharged.

In addition, the heat exchanger 150 is composed of a heat exchange pipe 151 bent a plurality of times, the refrigerant in the low temperature, low pressure state passing through the expansion valve (not shown) flows in the heat exchange pipe 151.

Therefore, the air sucked into the indoor unit 100 is deprived of heat while passing through the heat exchanger 150, thereby bringing it to a low temperature state. In this process, water vapor contained in the intake air may be cooled to condense on the surface of the heat exchanger 150. In addition, the larger the area of the heat exchanger 150 is, the more excellent the cooling effect is, so that the shape may be inclined at a flat rectangular shape or a predetermined angle. In addition, a drain pan 180 is formed below the heat exchanger 150 to collect condensed water formed on the surface of the heat exchanger 150 so that the condensed water does not leak from the indoor unit 100.

In addition, the base 160 is formed with suction ports 161 and 164 on which at least one side air can be sucked, and can be freely selected according to the volume and shape of the indoor unit in the shape and number of the suction ports. . In addition, as a form of the suction port, when the indoor unit 100 is spaced apart from the wall surface by a predetermined interval, the suction grille 162 may be formed so that air can also be sucked to the center surface of the base.

In addition, a filter insertion opening 163 may be formed at one side of the base 160 to insert a filter (not shown) to filter out impurities such as dust included in intake air. The filter unit may be inserted between the base 160 and the heat exchanger 150 to prevent impurities from adhering to the surface of the heat exchanger 150. In addition, the filter insertion hole 163 may be an intake port of indoor air.

In addition, the edge of the base 160 is formed to be inclined at a predetermined angle, so that the indoor unit 100 can be freely installed in the corner portion of the wall surface.

In addition, a locking hole or a locking groove (not shown) for allowing the indoor unit 100 to be attached to a central surface of the base 160 is formed.

7 is a perspective view showing the flow of air through the indoor unit of the air conditioner according to the spirit of the present invention.

Referring to FIG. 7, first, when the power is applied to the indoor unit 100 and the motor is operated, the blower propeller 130 is rotated so that the indoor air is inlet 161, 162, 164 of the base 160. And through the filter insert 163.

The air sucked through the suction ports 161, 162, 164 and the filter insertion hole 163 is filtered through the filter unit, and the purified air passes through the heat exchanger 150.

By passing through the heat exchanger 150, the air having a lower temperature reaches the blower propeller 130 and the orifice 140.

The flow of air is guided to the front surface by the air guide guide 141 formed on the orifice 140, and is discharged back to the room through the discharge port 121 formed in the front frame.

8 is a perspective view showing the indoor unit of the air conditioner according to the idea of the present invention spaced apart from the wall surface.

Referring to Figure 8, the indoor unit of the air conditioner according to the present invention can be installed spaced apart from the wall by a predetermined interval.

In detail, a hook groove 400 for allowing the indoor unit 100 to be attached to the wall surface 200 is formed at the base 160 of the indoor unit 100, and the wall surface 200 on which the indoor unit 100 is to be installed. ) May be provided with an installation hook 300 formed to protrude by a predetermined interval.

As described above, since the indoor unit 100 is spaced apart from the wall surface 200 by a predetermined interval, the inlet can be installed in the center surface of the base, and thus, a large amount of indoor air is sucked in, thereby improving indoor unit efficiency. There is an advantage to increase.

In addition, it turns out that the hook groove 400 can be formed on the inclined side surface of the base 160 so that the indoor unit 100 can be installed at the corner portion of the wall surface.

The shape or attachment method of the installation hanger 300 and the hook groove 400 is not limited to the embodiment of the present invention, various shapes or methods may be proposed depending on the size or attachment location of the indoor unit (100).

 According to the indoor unit of the air conditioner according to the present invention, the blowing propeller is provided as the blowing means, thereby increasing the intake wind direction.

In addition, since the intake wind direction is increased, the amount of air exchanged with the heat exchanger is increased, thereby increasing the efficiency of the heat exchanger.

In addition, the air is sucked to the rear surface of the indoor unit and discharged to the front surface of the indoor unit, thereby forming a straight flow path of the indoor air from the suction port to the discharge port, thereby reducing the friction and noise caused by the air flow.

Claims (8)

A base attached to the wall and having air inlets formed on upper and lower sides and / or both sides thereof; A front frame formed at a front surface of the base and having an air discharge port formed at a front surface thereof; The indoor unit of the air conditioner is formed between the base and the front frame, comprising a blower propeller to suck air through the suction port, and to discharge air through the discharge port. The method of claim 1, An indoor unit of an air conditioner, wherein a heat exchanger is formed between the blower propeller and the base. The method of claim 1, A guide hole through which the blowing propeller is accommodated and through which the sucked air passes; The indoor unit of the air conditioner is formed on the outside of the blowing propeller in a form surrounding the blowing propeller, the orifice is provided with an air guide guide for guiding the sucked air to the front. delete delete The method of claim 1, Indoor unit of the air conditioner, characterized in that the inlet is formed in the center of the back of the base. The method of claim 1, Indoor unit of the air conditioner, characterized in that the grille is formed in the net inlet. The method of claim 1, The indoor unit of the air conditioner, characterized in that the wind direction control device for adjusting the direction of the discharged air is formed in the discharge port.

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