KR20030084358A - Window air-conditioner - Google Patents

Abstract

PURPOSE: A window type air conditioner is provided to reduce power consumption by improving heat radiating efficiency of refrigerant. CONSTITUTION: An air conditioner includes a case(52) having an inside divided into an indoor part and an outdoor part by an air guide(62) guiding air flow in the case, and having a first outdoor inlet(h1), a second outdoor inlet(h2), a first outdoor outlet and a second outdoor outlet(h4) formed on the outdoor part thereof; a turbo fan(56) forcibly blowing indoor air into the indoor part of the case; a sirocco fan(58) forcibly blowing outdoor air into the outdoor part of the case; a heat exchanger allowing air forcibly introduced by the turbo fan and the sirocco fan to exchange heat; and a re-suction preventing unit formed on the outdoor part of the case to prevent air discharged through the outdoor outlets from flowing in again through the outdoor inlets. The re-suction preventing unit comprises a discharge louver protruding from a side of the second outdoor outlet in a direction opposite to the second outdoor inlet. The discharge louver isolates the second outdoor inlet from the second outdoor outlet so that air discharged through the second outdoor outlet is guided by the discharge louver and flows to the outdoor side.

Description

Window air conditioner

The present invention relates to a window type air conditioner in which a case is divided into an interior part and an outdoor part. In particular, the present invention relates to a window type air conditioner that prevents the air discharged from the outdoor part from being re-absorbed to the outdoor part.

In general, an air-conditioner is a device that maintains the room in a comfortable state by inhaling and cooling the hot air in the room and then discharging it into the room to cool the room. It is largely integrated with a separate type or a split type. separated by (window).

The separate type and integrated air conditioners are functionally the same, but the separate type air conditioners are a type in which indoors and outdoors are connected to each other by refrigerant piping by installing a cooling device indoors and a heat dissipation and compression device outdoors. Cooling, heat dissipation, and compression devices are provided in one cabinet to penetrate the walls of houses or hang on windows.

1 is an exploded perspective view of a window type air conditioner according to the prior art, FIG. 2 is a sectional view taken along the direction of 'A-A' of FIG. 1, and FIG. 3 is a view showing the flow of the outdoor unit according to the prior art.

The window type air conditioner according to the prior art forms an exterior, and is divided into a case (2) divided into an interior part and an outdoor part, and built into the case (2) to forcibly blow indoor air into and out of the interior part of the case (2). An outdoor blower (not shown) for forcibly blowing the indoor blower 4 and the outdoor air into and out of the outdoor part of the case 2, and cooling the indoor air sucked into the indoor part by using vaporization heat of the refrigerant, It consists of a heat exchanger (6) or the like to heat the outdoor air sucked into the outdoor unit with the vaporized refrigerant to dissipate the refrigerant.

The case 2 is equipped with a front grill 8 having an inlet 8a through which indoor air is sucked into the front and a discharge port 8b through which air cooled after heat exchange is discharged into the room. The control unit 10 for controlling the operation of the window air conditioner is mounted.

In addition, an outdoor unit intake port h1 through which outdoor air is sucked into the outdoor unit is formed on the outer side case upper surface 2a and both side surfaces 2b, and high temperature air due to heat dissipation of the refrigerant is external to the case rear surface 2c. The first outdoor unit discharge port h2 discharged to the air is formed.

Here, the heat dissipation action of the coolant is performed in a condenser (not shown) mounted to the case 2 of the outdoor unit. As shown in FIG. 3, the condenser 12 may discharge hot air immediately to the outside. One end portion of the condenser is formed on both side surfaces 12b of the case because the end portion 12a is formed to be bent toward the interior portion of the case 2 to extend in the width direction of the case 2 near the case rear surface 2c. The second outdoor unit discharge port h3 is formed so that the hot air heat-exchanged at 12a can be immediately discharged to the outside.

Accordingly, as illustrated in FIGS. 2A to 3, the outdoor unit suction port h1 and the second outdoor unit discharge port h3 are arranged side by side in the indoor and outdoor directions, that is, in the longitudinal direction of the case 2, at both side surfaces 2b of the outdoor side case. It is formed, while maintaining a constant interval in the height direction of the case (2) is formed a plurality.

On the other hand, the outdoor unit suction port h1 and the second outdoor unit discharge port h3 are formed by cutting in the longitudinal direction of the case 2, i.e., horizontally, so that the cutout portion r is lifted upwards, and thus, shown in FIG. As described above, outdoor air is sucked or discharged in the vertical direction through the outdoor unit suction port h1 or the second outdoor unit discharge port h3 on both side surfaces 2b of the case.

However, the window type air conditioner according to the prior art has a high temperature discharged through the second outdoor unit discharge port (h3) because the outdoor unit inlet (h1) and the second outdoor unit discharge port (h3) are formed side by side in the longitudinal direction of the case (2). Air is re-absorbed into the outdoor unit suction port h1 by the suction force at the outdoor unit suction port h1 and blown to the condenser 12, whereby the heat radiation efficiency of the refrigerant in the condenser 12 is lowered, thereby lowering the thermal efficiency. Due to the high power consumption there is a problem.

The present invention has been made to solve the above problems of the prior art, to prevent the high-temperature air heat exchanged in the condenser discharged through the outdoor unit discharge port is re-absorbed to the condenser through the outdoor unit intake port to increase the heat radiation efficiency of the refrigerant. The purpose is to provide a window air conditioner that can reduce power consumption.

1 is an exploded perspective view of a window type air conditioner according to the prior art,

2 is a cross-sectional view taken along the line 'A-A' of FIG.

3 is a view showing the flow of the outdoor unit according to the prior art,

4 is an exploded perspective view of a window type air conditioner according to the present invention;

5 is a cross-sectional view taken along the line 'B-B' of FIG. 4;

6 is a view showing the flow of the outdoor unit according to the present invention,

7 is a perspective view of a case according to another embodiment of the present invention;

8 is a cross-sectional view taken along the line 'C-C' of FIG.

9 is a view showing the flow of the outdoor unit according to another embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

52: case 54: front panel

56: turbo fan 58: sirocco fan

60: motor 62: air guide

64: shroud 72: evaporator

74: condenser R1: discharge louver

R2: Suction louver

Window type air conditioner according to the present invention for solving the above problems is divided into an interior portion and an outdoor portion, the case in which the inlet and discharge port formed on one side of the outdoor portion; An indoor blower for forcibly blowing indoor air to the indoor part of the case and an outdoor blower for forcibly blowing outdoor air to the outdoor part; A heat exchanger configured to heat exchange the air forcedly sucked by the indoor / outdoor blower; It is formed in the outdoor portion of the case and comprises a re-suction preventing means for preventing the air discharged from the discharge port is introduced again through the suction port.

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

4 is an exploded perspective view of a window type air conditioner according to the present invention, FIG. 5 is a sectional view taken along the 'B-B' direction of FIG. 4, and FIG. 6 is a view showing the flow of the outdoor unit according to the present invention.

The window type air conditioner according to the present invention forms an exterior, the interior of which is partitioned into an interior portion and an exterior portion, and is mounted on the front surface 52a of the case 52, and the indoor air flows. In and out of the front panel 54 formed with the inlet port 54a and the indoor outlet port 54b, the turret fan 56 for forcibly blowing indoor air into and out of the case 52 of the interior part, and the case 52 of the outdoor part. A sirocco fan 58 for forced air blowing, a drive motor 60 connected to the turbo fan 56, the sirocco fan 58, and a rotation shaft 59 to rotate simultaneously, and the interior of the case 52. A heat exchanger installed in each of the outdoor unit and the outdoor unit to cool the indoor air sucked into the case 52 of the indoor unit by using a refrigerant, and radiate the refrigerant by using outdoor air sucked into the case 52 of the outdoor unit. And so on.

The case 52 is divided into an indoor part and an outdoor part by an air guide 62 for guiding air flow of the case 52 of an indoor part, and the sirocco fan 58 is located behind the air guide 62. The shroud 64 is mounted and guides the air flow of the case 52 in the outdoor part.

In addition, the case 52 of the outdoor unit is formed of outdoor air being sucked between the air guide 62 and the shroud 64 by the blowing force of the sirocco fan 58 on the upper surface 52a and the both side surfaces 52b. First and second outdoor intake ports h1 and h2 are formed, and are flowed to the rear of the shroud 64 on the rear surface 52c and the side surfaces 52b of the case, and then discharged from the high-temperature air heat-exchanged with the refrigerant. , 2 outdoor discharge ports h3 and h4 are formed.

Here, the second outdoor inlet (h2) and the second outdoor outlet (h4) is formed in the longitudinal direction of the case 52, ie side by side, the second outdoor outlet (h2) is the second outdoor inlet (h2) ) Is spaced apart at a predetermined interval in the outdoor direction.

The heat exchanger is disposed between the front panel 54 and the turbo fan 56 and an evaporator 72 for cooling the indoor air sucked through the indoor unit intake port 54a by using vaporization heat of the refrigerant, and in the evaporator 72. Compressor (not shown) which compresses the refrigerant gas to a high temperature and high pressure so that the refrigerant gas is easily condensed, and disposed between the shroud 64 and the rear surface 52c of the case so that the refrigerant gas from the compressor radiates heat due to outdoor air. An expansion valve disposed between the condenser 74 and the condenser 74 and the evaporator 72 to lower the refrigerant pressure from the condenser 74 so that the refrigerant is easily evaporated in the evaporator 72. Not shown) and are interconnected by pipes.

Here, the condenser 74 is formed such that one end portion 74a is bent toward the indoor portion in order to increase the heat dissipation area of the refrigerant.

Meanwhile, in the window type air conditioner of the present invention, since the second outdoor suction port h2 and the second outdoor discharge port h4 are formed to be adjacent to both side surfaces 52b of the case, the high temperature discharged from the second outdoor discharge port h4. Air is sucked between the air guide 62 and the shroud 64 through the second outdoor suction port h3 under the influence of the blowing force of the sirocco fan 58, and is blown into the condenser 74 to condense 74. Re-suction prevention means for preventing the refrigerant from lowering the heat dissipation efficiency is further included.

The resuction preventing means is made of a discharge louver R4 protruding obliquely in the opposite direction to the second outdoor suction port h2 at the side of the outdoor discharge port h4. The intake port h2 and the second outdoor discharge port h4 are blocked to each other, and the air discharged from the second outdoor discharge port h4 is guided by the discharge louver R1 and flows in the outdoor direction.

In other words, the second outdoor discharge port h4 is formed on both side surfaces 52b of the case using a forming knife to form a '[' shaped cutout in the height direction of the case 52, respectively. The improvement site is formed to protrude outward.

Here, the cut line portion is the discharge louver R1 for guiding the discharge air of the second outdoor discharge port h4, and the air discharged from the second outdoor discharge port h4 by the discharge louver R1 is The influence of the blowing force of the sirocco fan 58 generated in the second outdoor suction port h2 is blocked.

In addition, since the inclination angle of the discharge louver R1 is formed to form 60 to 80 ° (θ) with the side surface of the case where the second outdoor discharge port h4 is formed, the air discharged from the second outdoor discharge port h4. It is easily flowed to the outdoor direction does not interfere with the air sucked into the second outdoor inlet (h2).

Looking at the operation of the air conditioner according to the present invention configured as described above are as follows.

First, when the turbo fan 5 is rotated, indoor air is sucked into the case 52 of the indoor unit through the indoor suction port 54a and cooled by the vaporization heat of the refrigerant in the evaporator 72, and then the air guide 62 It is guided and discharged back to the room through the indoor discharge port 54b.

At this time, the refrigerant flows in the evaporator 72 to the compressor in a vaporized state due to heat exchange with the indoor air, is compressed to a high temperature, high pressure in the compressor, and then flows to the condenser 74 to condense, and partly through the expansion valve In the vaporized state it is circulated back to the evaporator 72.

On the other hand, when the sirocco fan 58 is rotated, outdoor air is sucked into the condenser 74 through the first and second outdoor suction ports h1 and h2 to dissipate the refrigerant in the condenser 74, and then, 2 is discharged to the outside of the case 52 through the outdoor discharge port (h3, h4).

Here, since the air discharged from the second outdoor discharge port h4 flows to the outdoor side under the guidance of the discharge louver R1, the air discharged from the second outdoor discharge port h4 is caused by the condensation heat of the refrigerant in the condenser 74. Hot air is prevented from entering the second outdoor suction port h2 again.

7 is a perspective view showing a case according to another embodiment of the present invention, Figure 8 is a sectional view in the 'C-C' direction of Figure 7, Figure 9 is a flow diagram of the outdoor unit according to another embodiment of the present invention is shown Drawing.

The re-suction preventing means further includes a suction louver R2 protruding from the side of the second outdoor suction port h2 ′ in a direction opposite to the discharge hole h4, and therefore, the suction louver R2 prevents the re suction. 2 Between the outdoor suction port h2 'and the second outdoor discharge port h4 is blocked, the air in the room side is guided by the suction louver R2 and sucked into the second outdoor suction port h2'.

Similar to the discharge louver R1, the suction louver R2 is formed on both sides 52b of the case by a forming knife to form a long ']' incision in the height direction of the case 52. An improvement part protrudes outward and protrudes toward the second outdoor discharge hole h2 ′.

The suction louver R2 is formed such that the second outdoor suction port h2 ′ is positioned at the indoor side with respect to the outdoor suction louver R2, so that the second outdoor suction port h2 ′ and the second outdoor discharge port h4 are disposed. ) Is blocked to each other, and is formed to be inclined to form a 60 ~ 80 ° (Φ) with both side surfaces 52b of the case where the second outdoor inlet (h2 ') is formed, the outdoor air is the second outdoor inlet (h2) from the indoor side Guide them to flow.

In the air conditioner of the window type air conditioner according to the present invention, the inlet and the outlet of the outdoor air is blown in the case of the outdoor part, the hot air discharged from the discharge port because the discharge louver protrudes inclined in the opposite direction to the suction port in the discharge port Since it is prevented from flowing back through the inlet through the suction port by being guided by the discharge louver, the hot discharge air is prevented from increasing the power consumption due to the re-suction of the discharge air.

In addition, since the suction louver protrudes in the opposite direction to the discharge port to determine the flow direction of the air sucked into the suction port, the suction port is blocked between the suction port and the discharge port, thereby preventing re-suction of the discharged air. There is this.

Claims (3)

A case in which an interior is divided into an interior part and an outdoor part, and a suction port and a discharge port are formed at one side of the outdoor part; An indoor blower for forcibly blowing indoor air to the indoor part of the case and an outdoor blower for forcibly blowing outdoor air to the outdoor part; A heat exchanger configured to heat exchange the air forcedly sucked by the indoor / outdoor blower; And a resuction preventing means formed at an outside of the case and preventing the air discharged from the discharge port from re-introducing through the suction port. The method of claim 1, The re-suction preventing means is a window type air conditioner, characterized in that consisting of a discharge loupe protruding inclined in the opposite direction to the suction port from the side of the discharge port. The method of claim 2, The re-suction preventing means further comprises a suction louver protruding inclined in the opposite direction to the discharge port from the side of the suction port.