KR20020061761A - Exhaust structure of cold air for air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to a cold air discharge structure of a separate type air conditioner in which side channels are further formed on left and right sides.

In the present invention, the indoor heat exchanger 55 for exchanging heat with the ambient air, the front discharge port 70 for discharging the air heat exchanged by the indoor heat exchanger to the front, and the front discharge port 70 on the left and right sides It is composed of side discharge port which sends heat exchanged air to left and right sides.

According to the configuration as described above, it is cooled to every corner of the space to be air-conditioned by the side discharge port, the cooling efficiency compared to the same air volume is improved.

Description

Exhaust structure of cold air for air conditioner

The present invention relates to an air conditioner, and more particularly, to a cold air discharge structure of a separate type air conditioner in which a cold air discharge port is further formed on a side surface.

In general, the cooling of an air conditioner includes the steps of compressing a refrigerant gas at a high temperature and a high pressure by a compressor, and decompressing the refrigerant in a low temperature liquid and gas state while passing through the expansion valve. The low-temperature liquid and gaseous refrigerant passing through the valve is evaporated through the evaporator to take the heat of the surroundings to maintain the external temperature at a low temperature, and then the refrigerant cycle consisting of flowing into the compressor again.

The type of air conditioner composed of such a refrigerant cycle is largely divided into an integrated type and a separate type. In consideration of noise problems and installation environment, a separate type air conditioner is widely used.

The separate air conditioner includes an indoor unit installed indoors and an outdoor unit installed outdoors. The indoor unit performs cooling by an evaporator through which a cool refrigerant flows, and a blower fan that cools the hot indoor air sucked from the suction port through the evaporator and blows it to the discharge port. The outdoor unit includes a compressor for compressing the refrigerant gas flowing through the evaporator of the indoor unit, a condenser for gradually dissipating the compressed refrigerant into a liquid phase, and sucking and discharging outdoor air to dissipate the condenser. And an expansion valve configured to depressurize the refrigerant radiated through the condenser.

Figure 1 shows the main configuration of the indoor unit of the separate type air conditioner according to the prior art. According to this, the chassis 1 constitutes the rear exterior of the indoor unit, and the front grill 3 constitutes the front exterior of the indoor unit.

On the front and top of the front grill 3, a suction part 3a and an upper suction part 3b are respectively formed to suck air of a space for air conditioning into the indoor unit. In addition, a discharge port 5 through which the heat exchanged air inside the indoor unit is discharged to the space for air conditioning is formed in the lower portion of the front grill 3.

On the other hand, in the internal space formed by the chassis 1 and the front grill 3, various components for forming an indoor unit are installed. There is an indoor heat exchanger (7) for exchanging heat sucked air in the space for air conditioning, and a blower unit (8) is provided at the rear of the indoor heat exchanger (7) to provide a driving force for sucking air. do.

In addition, the discharge unit 9 is provided to discharge the air sucked by the blower unit 8 and passed through the indoor heat exchanger 7 to discharge the air through the discharge port 5 into the space for air conditioning. The discharge unit 9 is for adjusting the vertical and horizontal directions of the discharged air.

The discharge unit 9 is provided with a discharge grill 10 installed in the discharge port 5 of the front grill 3, and a louver 11 is provided in the discharge grill 10. The louver 11 is driven by a separate motor (not shown) to adjust the left and right directions of the discharged air. And the discharge grill 10 is provided with a vane 12 for adjusting the vertical direction of the discharged air.

Next, a filter 4 'is installed at the suction part 3a of the front grill 3. The filter 4 'serves to purify the air sucked in from the space for air conditioning. In addition, a suction grill 17 is installed to shield a portion of the front grill 3 except for the discharge port 5. The louver 18 is formed at a position corresponding to the suction part 3a in the suction grill 17 so that air in the space for air conditioning can be sucked through the suction part 3a, Do not expose to the outside.

The operation of the air conditioner in the prior art having such a configuration will be described with reference to FIGS. 1 and 2.

As the refrigeration cycle operates, a refrigerant having a relatively low temperature flows into the indoor heat exchanger 7, and the blower unit 8 is driven so that air in the space for air conditioning is sucked up with the upper suction part 3b. It flows in through the louver 18 and is transmitted to the indoor heat exchanger 7 through the suction part 3a via the filter 4 '.

And the blower unit is heat exchanged while passing through the indoor heat exchanger (7).

The air volume and the wind direction are controlled by the discharge unit 9 via the discharge unit 8 and discharged through the discharge port 5 into the space for air conditioning.

At this time, the wind direction of the air discharged through the discharge unit 9 by the louver 11 and the vanes 12 is adjusted. That is, the left and right directions of the discharged air are adjusted by rotating the louvers 11 left and right, and the up and down direction of the discharged air is adjusted by rotating the vanes 12 up and down by a separate driving source.

However, the prior art as described above has the following problems.

Since the indoor unit of the air conditioner having the above configuration is formed only in the front of the air blowing direction, the portion to be cooled is limited to the front side, and the space in which the air conditioner is installed is not uniformly cooled.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a cold air discharge structure of a separate type air conditioner capable of uniform cooling including a side of a space for air conditioning.

Figure 1 is a perspective view of the main portion showing the configuration of the indoor unit of the air conditioner according to the prior art.

Figure 2 is a state diagram showing the intake and exhaust path of the air in the indoor unit of the conventional air conditioner.

Figure 3 is a partial cutaway perspective view showing a side channel according to an embodiment of the present invention.

Figure 4 is a front view of the air conditioner indoor unit in the embodiment of the present invention.

5 is a perspective view showing a right portion of the indoor unit of the air conditioner according to the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

50. Chassis 55. Indoor heat exchanger

60. Front Grill 61. Upper suction part

62. Louver 65. Suction grill

66. Front suction part 67. Front louver

70. Front discharge outlet 80. Right outlet

82. Outlet hole 83. Air guide

90. Left outlet

According to a feature of the present invention for achieving the above object, the present invention provides an indoor heat exchanger for exchanging heat with ambient air, a front discharge port for discharging air exchanged by the indoor heat exchanger to the front, and the front It is installed on the left and right sides of the discharge port, and is composed of side discharge ports that discharge the heat exchanged air to the left and right sides.

An air guide is mounted on one side of the discharge hole through which air is discharged from the side discharge port, and guides the air toward the side to the front side part.

According to the present invention having such a configuration, it is possible to uniformly cool the space for air conditioning in the space equipped with the air conditioner indoor unit.

Hereinafter, the cold air discharge structure of the separate type air conditioner according to the embodiment of the present invention having the configuration as described above will be described in detail.

3 and 4, the exterior of the air conditioner indoor unit includes a chassis 50 constituting a rear surface and a front grill 60 constituting a front surface. An indoor heat exchanger 55 is positioned inside the chassis 50 to provide air conditioning.

An upper suction part 61 is formed at an upper portion of the front grill 60 to suck air in a space for air conditioning. A grate louver 62 is formed at the upper suction part 61. The installation of the louver 62 prevents the internal components from being seen from the outside, and also allows the outside air to be sucked through the upper suction portion 61.

In addition, the suction grill 65 is mounted on the front grill 60 and the front suction part 66 is formed on the front of the suction grill 65 for suctioning external air. The front louver 67 is also provided in the front suction part 66 to serve as a passage of the air flow path and to form a beautiful appearance on the front of the air conditioner.

A discharge port for discharging the cooled air is formed below the suction grill 65. If this is described in detail, the front discharge port 70 is formed in the center toward the front. Then, the right discharge port 80 and the left discharge port 90 according to the embodiment of the present invention are formed on the left and right sides of the front discharge port 70.

When the length of the discharge port formed in the front grill is divided by the ratio, the front discharge port 70 occupies 3/5, and the right discharge port 80 and the left discharge port 90 are formed at a ratio of 1/5, respectively. This ratio ratio is according to an embodiment of the present invention for using the right discharge port 80 and the left discharge port 90 as the auxiliary discharge port while the front discharge port 70 becomes the main discharge port.

However, the ratio of the lengths of the respective discharge ports is only by the embodiment of the present invention, and the length of each discharge port may be changed and applied within the basic application of the present invention.

Among the discharge holes formed on the side by the above embodiment, the right discharge port 80 will be described in detail with reference to FIGS. 3 and 5.

One end of the right discharge port (80) is located inside the front louver (67) to facilitate the inflow of air cooled by the indoor heat exchanger (55) inside the front grill (60), and the intake hole (up) 81) is formed. The other end of the right discharge port 60 is located outside the front louver 67 and has a flow path portion bent at an upper end of the upper louver 67 to form a discharge hole 82 toward the right side.

An air guide 83 is formed in the front grill 60 in contact with the discharge hole 82 facing the right side. The air guide 83 is inclined at a predetermined angle toward the front of the air conditioner as a plate shape, thereby guiding the air flow from the right discharge port discharge hole 82 to the front.

And, as shown in Figure 4, the left discharge port 90 having the same configuration as the right discharge port 80 is formed on the left side of the front grill (60), the size and shape and the like right and left symmetrical with the right discharge port (80) It is.

An air guide 93 is also installed at the inlet of the discharge hole 92 of the left discharge port 90 to guide the air discharged toward the left side to flow to the front side.

Hereinafter, the operation of the cold air discharge structure of the separate type air conditioner according to the present invention having the configuration as described above will be described in detail.

Outside air is introduced into the air conditioner through the upper suction part 61 formed on the front grill 60 and the front suction part 66 of the suction grill 65 mounted on the front surface.

The inflowed air is cooled by the indoor heat exchanger (55) to the discharge port formed at the bottom of the front grill (60), about 60% of the air is discharged to the front discharge port (70), to the front (A) To cool the air.

Then, about 20% of the air cooled through the right discharge port 80 enters the intake hole 81 and flows to the right side, and from the right side to the front side by the air guide 83 formed on the discharge hole 82 side surface. It is ejected at an obliquely inclined side angle. This air flow cools the air on the right side B from the front.

In addition, about 20% of the air flows into the intake hole through the left discharge port 90 and flows to the left along the flow path formed inside the left discharge port 90, and then in the shape of the air guide 93 formed on the side of the discharge hole 92. By the side angle is inclined obliquely from the left to the front. By this air flow, the air of the left (C) part from the front is intensively cooled.

The air discharge direction of each of these discharge ports is divided into three directions, front A and both sides B and C, so that uniform cooling of the air in front of the air conditioner is possible.

In the above, the ratio of the air coming out through each discharge port is an embodiment of the present invention. Of course, the air ratio may be changed within the basic concept of the present invention in which the discharge port is formed on the left and right sides.

In the cold air discharging structure of the separate type air conditioner according to the present invention as described above in the left side of the front discharge port formed on the front grill, the left discharge port and the right discharge port are respectively formed, and each discharge hole is formed to be inclined forward, respectively, Cold air discharge structure flows through the front and left and right three directions.

As a result, the air conditioner is equipped with air conditioning in the left and right sides, including the front surface, thereby improving cooling efficiency compared to the same air volume.

Claims (2)

With an indoor heat exchanger that exchanges heat with ambient air, Front discharge port for discharging the air heat exchanged by the indoor heat exchanger to the front, The air discharge structure of the separate type air conditioner is installed on the left and right sides of the front discharge port is configured as a side discharge port for discharging the heat exchanged air to the left and right sides. The cold air discharging structure of a separate air conditioner according to claim 1, wherein an air guide is mounted on one side of the discharge hole through which air is discharged from the side discharge port and guides the air toward the side to the front side.