KR20050018384A - Air conditioner - Google Patents

Abstract

PURPOSE: An integrally assembled air conditioner is provided to increase the heat exchange efficiency, and to reduce power consumption by flowing air centrifugally with the outdoor turbo fan and by circulating air evenly through the outdoor heat exchanger. CONSTITUTION: An integrally assembled air conditioner is divided into an indoor unit and an outdoor unit, and parts are installed in the indoor unit and the outdoor unit to exchange heat and to flow air. The air conditioner is composed of an outdoor turbo fan(71) forming air flowing outdoors, and an outdoor heat exchanger(77) installed centrifugally around the outdoor turbo fan to exchange heat with actuating fluid of the heat exchange cycle by flowing air from the outdoor turbo fan. At least three sides of the outdoor turbo fan are surrounded by the outdoor heat exchanger. Air is circulated evenly through the outdoor heat exchanger by flowing air centrifugally with the outdoor turbo fan.

Description

Integrated Air Conditioner {Air conditioner}

The present invention relates to an air conditioner, and more particularly, by forming an outdoor side fan as a centrifugal fan and installing an outdoor heat exchanger in the centrifugal direction of the turbo fan, an integrated air conditioner configured to reduce power consumption and increase heat exchange efficiency. It is about the flag.

1 shows an internal configuration of a general integrated air conditioner.

As shown in the drawing, the front grill 13 is provided on the upper surface of the indoor side of the base fan 11 forming the bottom of the air conditioner. The front grill 13 is to form an interior front appearance of the air conditioner, and is mounted on the front of the outer case 40 to be described below.

On one side of the front grill 13 is formed an inlet 13i through which indoor air is sucked into the air conditioner, and on the other side, a discharge part 13e for discharging the heat exchanged air from the air conditioner to the room. Is formed. A suction grill 14 is installed on the front surface of the suction part 13i, and a control panel part 13c is provided below the discharge part 13e for manipulating the operation of the air conditioner.

An indoor heat exchanger 17 is installed inside the front grill 13. The indoor heat exchanger (17) is for heat exchange between the air sucked through the suction part (13i) of the front grill (13) and the working fluid of the heat exchange cycle flowing therein, and fixed to the air guide (19). do.

The air guide 19 is formed with a through hole 10 through which the air passing through the indoor heat exchanger 17 is guided, and the discharge guide 19e at a position corresponding to the discharge part 13e of the front grill 13. ) Is formed. The bottom surface of the air guide 19 is provided with a drainage structure (19 ') for draining the condensed water generated in the indoor heat exchanger (17).

The scroll 21 is coupled to the rear of the air guide 19. The inner surface of the scroll 21 is formed with a flow guide surface 22 for guiding the air flow formed by the indoor turbo fan 29 to be described below. Inside the air guide 19 and the scroll 21 corresponding to the control panel part 13c of the front grill 13, a control box 14 having various electric components for controlling the air conditioner is installed. do.

Meanwhile, a barrier 25 partitioning the indoor side and the outdoor side of the air conditioner is installed to be in close contact with the rear surface of the scroll 21. The barrier 25 is not necessarily installed by partitioning the indoor side and the outdoor side of the air conditioner so that the indoor side and the outdoor side are not affected by each other.

At the rear end of the barrier 25, that is, at the outdoor side of the air conditioner, a motor mount 28 is mounted on the base fan 11, and a motor 27 is installed at the motor mount 28. The motor 27 is provided with a rotating shaft front and rear, and extends to the indoor side and the outdoor side of the air conditioner, respectively.

On the other hand, the rotary shaft of the motor 27 extending to the indoor side of the air conditioner is coupled to the indoor turbo fan 29 in the state passing through the barrier 25 and the scroll 21. The indoor turbo fan 29 sucks indoor air into the air conditioner and passes the indoor heat exchanger 17 to guide the discharge air to the discharge guide 19e to discharge the indoor air.

In addition, an outdoor blowing fan 31 is installed on a rotation shaft of the motor 27 extending to the outdoor side of the air conditioner. The outdoor blower fan 31 serves to inhale the outdoor air into the air conditioner so as to exchange heat while passing through the outdoor heat exchanger 37 to be described below.

On the other hand, the shroud 33 for guiding the air flow formed by the outdoor blowing fan 31 is installed at the outdoor side. The shroud 33 serves to evenly deliver the air sucked from the outside to the outdoor heat exchanger 37, the through-hole 23 'is formed is provided with the outdoor blowing fan 31.

Unexplained reference numeral 34 is a cover forming the upper surface of the shroud 33. And reference numeral 35 is a brace that serves to connect the top of the air guide 19 and the shroud 33 to firmly combine both.

In addition, an outdoor heat exchanger 37 is installed at a position corresponding to the outermost outermost side on the base fan 11, that is, the rear of the shroud 33. The outdoor heat exchanger 37 serves to heat-exchange the working fluid with the air sucked outdoors by the outdoor blower fan 31.

Meanwhile, a compressor 38 constituting a heat exchange cycle is provided in the space between the barrier 25 and the shroud 33. The compressor 38 is fixed on the base fan 11.

And the inside of the air conditioner including the various components described above is shielded by the outer case (40). The outer case 40 forms an upper surface and both side surfaces of the air conditioner, and outdoor air is sucked into the inside of the air conditioner on both side surfaces of the outer case 40 corresponding to the outdoor blower fan 31. Intake holes 41 are respectively formed as a passage role.

Next, look at the air flow flowing through the outdoor side of the air conditioner.

The airflow flowing through the outdoor side of the air conditioner is formed by the driving of the outdoor blowing fan 31. First, when the outdoor blower fan 31 is driven by the operation of the air conditioner, the outdoor air is sucked into the air through the intake holes 41 formed on both sides of the outer case 40 forming the exterior of the air conditioner. .

In this way, the air sucked into the air conditioner flows in the direction of the rotation axis of the outdoor blower fan 31 and flows to the rear of the air conditioner along the rotation axis due to the characteristics of the outdoor blower fan 31. The air flowing to the rear of the air conditioner is heat-exchanged while passing through the outdoor heat exchanger 37, and the exhaust hole (not shown) is formed on the rear surface of the air conditioner again by continuous driving of the outdoor blower fan 31. It is discharged to outside through).

However, the air conditioner according to the prior art having such a configuration has the following problems.

As described above, conventionally, the airflow flowing through the outdoor side of the air conditioner is formed by the outdoor blower fan 31. However, since the outdoor blowing fan 31 is formed as an axial fan, the fan efficiency is relatively low compared to the centrifugal fan such as the indoor turbo fan 29, resulting in increased power consumption.

In addition, in the region having a predetermined radius around the rotation axis corresponding to the hub of the outdoor blower fan 31, the airflow is not formed. Therefore, the disadvantage that the heat exchange efficiency through the outdoor heat exchanger 37 is lowered.

The present invention has been made to improve the above-mentioned conventional problems, and an object of the present invention is to provide an air conditioner configured to reduce power consumption.

Another object of the present invention is to provide an air conditioner configured to increase heat exchange efficiency.

According to the present invention for achieving the above object, the present invention is divided into an outdoor side and an indoor side, the integrated air conditioner is provided with components for heat exchange and air flow respectively on the indoor side and the outdoor side: A turbo fan for forming a flowing air stream; A component of the heat exchange cycle is installed in the centrifugal direction of the turbo fan, and includes an outdoor side heat exchanger through which air flow formed by the turbo fan passes and exchanges heat with the working fluid of the heat exchange cycle.

The outdoor side heat exchanger may be formed to surround at least three surfaces of the turbofan centrifugal direction.

According to such an air conditioner according to the present invention, by forming the outdoor fan as a turbo fan which is a centrifugal fan, there is an advantage that the power consumption can be reduced. In addition, by installing the outdoor side heat exchanger to surround the centrifugal direction of the turbo fan, there is an advantage that can increase the heat exchange efficiency.

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

2 shows a preferred embodiment of the integrated air conditioner according to the present invention.

As shown therein, the base fan 51 forming the bottom of the air conditioner is divided into an indoor side and an outdoor side by the barrier 65 to be described below. In addition, the front end of the base fan 51 is provided with a front grill 53 for forming the front appearance of the air conditioner.

One side of the front grill 53 is formed with a suction unit 53i which serves as a passage through which indoor air is sucked into the air conditioner, and the front grill 53 corresponding to the other side of the suction unit 53i. On one side of the discharge unit 53e is formed to serve as a passage for discharging the heat exchanged air from the air conditioner into the room. One side of the front grill 53 corresponding to the discharge part 53e is provided with a control panel part 53c for manipulating the operation of the air conditioner.

A suction grill 54 is installed on the front surface of the suction unit 53i, and an indoor heat exchanger 57 is installed inside the front grill 53 corresponding to the rear of the suction unit 53i. The indoor heat exchanger (57) serves to heat exchange the indoor air sucked through the suction unit (53i) with the working fluid of the heat exchange cycle.

The indoor heat exchanger 57 has a lower end mounted on the air guide 59. The air guide 59 is installed on the base fan 51, and the through-hole 60 through which the air passing through the indoor heat exchanger 57 is guided is formed. A discharge guide 59e is formed at one side of the air guide 59 corresponding to the discharge part 53e of the front grill 53, and the indoor heat exchanger 57 is formed at the bottom of the air guide 59. Drain structure 59 'is provided for draining the condensate generated in

On the other hand, the air guide 59 and the rear scroll 61 is coupled. And the inner surface of the scroll 61 is formed with a flow guide surface 62 for guiding the air flow formed by the indoor turbo fan 69 to be described below. In addition, the scroll 61 is formed of a heat insulating material, it may be formed integrally with the air guide (59).

In addition, a control box 64 is installed in a space formed between the air guide 59 and the scroll 61. The position of the control box 64 is determined to correspond to the control panel portion 53c of the front grill 53, and various electrical components for controlling the air conditioner are provided.

At the rear of the scroll 61, a barrier 65 partitioning the indoor side and the outdoor side of the air conditioner is installed to be in close contact with the rear surface of the scroll 61, and the base fan 51 adjacent to the barrier 65 is provided. ), The motor mount 68 is mounted. The motor 67 is installed in the motor mount 68.

The axis of rotation of the motor 67 is provided horizontally and extends toward the indoor side and the outdoor side, respectively. The rotating shaft of the motor 67 extending to the indoor side is installed through the barrier 65 and the scroll 61, the indoor turbo fan 69 is installed in a state protruding toward the indoor side, the projecting to the outdoor side of the air conditioner The outdoor turbo fan 71 is mounted on the rotation shaft of the motor 67.

The indoor turbo fan 69 sucks indoor air into the air conditioner through the suction part 53i and discharges heat-exchanged air back into the room through the discharge part 53e. The outdoor turbo fan 71 sucks outdoor air through the intake hole 81 of the outer case 80 to be described below, and discharges the outdoor air to the outside through the exhaust hole 82 of the outer case 80. Play a role.

On the other hand, the shroud 73 is installed at the outdoor side of the air conditioner corresponding to the rear of the barrier 65 to guide the air sucked by the outdoor turbo fan 71 to the outdoor heat exchanger 77 to be described below. do. The shroud 73 is formed with a through-hole (73 ') for the installation of the outdoor turbo fan 71.

Reference numerals 74 and 75 are braces connecting the upper ends of both the cover and the air guide 59 and the shroud 73 to form a top surface of the shroud 73.

An outdoor heat exchanger 77 is installed on the base fan 51 corresponding to the outermost outer side of the air conditioner. The outdoor heat exchanger (77) is installed in the centrifugal direction of the outdoor heat exchanger (77) and exchanges heat with a working fluid circulating therein for outdoor air sucked into the air conditioner by the outdoor turbo fan (71). It plays a role.

In the illustrated embodiment, the outdoor heat exchanger 77 is formed in a U-shape surrounding the ceiling and both sides of the centrifugal direction of the outdoor turbo fan 71. However, the present invention is not necessarily limited thereto. For example, the outdoor heat exchanger 77 may be formed in a U-shape surrounding both the ceiling, both sides, and the bottom in the centrifugal direction of the outdoor turbo fan 71.

In addition, a compressor 78 is installed in the space between the barrier 65 and the shroud 73. The compressor 78 is installed by being fixed on the base fan 51 as a component of a heat exchange cycle.

On the other hand, the intake hole 81 and the exhaust hole 82 are formed on both side surfaces and the upper surface of the outer case 80 forming the both sides and the upper surface appearance of the air conditioner. The intake hole 81 is formed at a position corresponding to the outdoor turbo fan 71 to serve as a passage through which outdoor air is sucked into the air conditioner, and the exhaust hole 82 is the outdoor heat exchanger 77. Is formed at a position corresponding to the serves as a passage for the air heat exchanged in the outdoor heat exchanger 77 is discharged to the outdoor.

Hereinafter, an air flow inside a preferred embodiment of the air conditioner according to the present invention having the configuration as described above will be described with reference to FIG. 3.

The inside of the air conditioner is partitioned into the indoor side and the outdoor side by the barrier 65, and the airflow flowing in the indoor side and the airflow flowing in the outdoor side are formed inside the air conditioner partitioned in this way.

First, look at the air flow flowing through the indoor side of the air conditioner.

The indoor turbo fan 69 is driven by the operation of the air conditioner, and the indoor air is sucked into the air conditioner through the suction unit 53i by the driving of the indoor turbo fan 69. The air sucked into the air conditioner exchanges heat with the working fluid flowing through the indoor heat exchanger 57 while passing through the indoor heat exchanger 57. In addition, the heat-exchanged air flows in the rotation axis direction of the indoor turbo fan 69.

However, since the indoor turbo fan 69 is a centrifugal fan, air introduced in the rotational axis direction of the indoor turbo fan 69 flows in the centrifugal direction of the indoor turbo fan 69. In addition, the air flowing in the centrifugal direction of the indoor turbo fan 69 is guided to be discharged back into the room through the discharge part 53e to perform cooling or heating.

Next, the airflow flowing through the outdoor side of the air conditioner will be described.

First, by the operation of the air conditioner, the outdoor turbo fan 71 installed in the outdoor side of the air conditioner is driven, and the outdoor air is driven through the intake hole 81 by the drive of the outdoor turbo fan 71. It is sucked into the air conditioner. In this way, the air sucked into the air conditioner flows in the rotation axis direction of the outdoor turbo fan 71 by the continuous driving of the outdoor turbo fan 71.

However, since the outdoor turbo fan 71 is the same centrifugal fan as the indoor turbo fan 69, air introduced in the rotational axis direction of the outdoor turbo fan 71 flows in the centrifugal direction of the outdoor turbo fan 71. Then, it passes through the outdoor heat exchanger 77 installed in the centrifugal direction of the outdoor turbo fan 71. The air heat-exchanged while passing through the outdoor heat exchanger 77 is discharged to the outside through the exhaust hole 82.

At this time, since the outdoor turbo fan 71 is a centrifugal fan, power consumption can be reduced as compared with the axial fan. In addition, since the outdoor heat exchanger 77 is formed in a U-shape to surround the three centrifugal directions of the outdoor turbo fan 71, the air flowing in the centrifugal direction of the outdoor turbo fan 71 is the outdoor heat exchanger ( 77) Evenly through the whole.

According to the present invention as described above, the outdoor side fan forming the air flow flowing through the outdoor side of the air conditioner is formed by a turbo fan which is a centrifugal fan, and the outdoor side heat exchanger is installed to surround at least one surface in the centrifugal direction of the turbo fan It is understood that this is a basic technical idea.

Within the scope of the basic technical idea of the present invention, many modifications are possible to those skilled in the art, and the scope of the present invention should be interpreted based on the appended claims. will be.

In the illustrated embodiment, the outdoor fan is formed as a turbo fan, but is not limited thereto. If the outdoor fan is a centrifugal fan in which no ministry occurs, it may be formed as a sirocco fan. However, considering the fan efficiency, it would be desirable to form the outdoor fan as a turbo fan.

As described above, according to the air conditioner according to the present invention, the following effects are expected.

First, since the outdoor side fan is formed of a turbo fan, which is a centrifugal fan, heat exchange efficiency is increased as compared with the conventional one formed with an axial fan, thereby reducing power consumption.

In addition, since the outdoor heat exchanger is installed to surround three surfaces of the outdoor fan centrifugal direction, the air flowing by the outdoor fan passes evenly through the outdoor heat exchanger. Therefore, the heat exchange efficiency of the outdoor heat exchanger can be increased.

1 is an exploded perspective view showing the internal configuration of an integrated air conditioner according to the prior art.

Figure 2 is an exploded perspective view showing the internal configuration of the integrated air conditioner according to the present invention.

3 is a schematic view showing the air flow inside the embodiment shown in FIG.

Explanation of symbols on the main parts of the drawings

51: base fan 57: indoor heat exchanger

59: Air Guide 61: Scroll

65: barrier 67: motor

69: indoor turbo fan 71: outdoor turbo fan

73: shroud 77: outdoor heat exchanger

80: outer case 81: suction hole

82: vent hole

Claims (2)

In an integrated air conditioner, which is divided into an outdoor side and an indoor side, and having components for heat exchange and air flow respectively on the indoor side and the outdoor side: A turbo fan for forming an airflow flowing through the outdoor side; And an outdoor side heat exchanger installed in the centrifugal direction of the turbo fan as a component of the heat exchange cycle, and configured to exchange heat with the working fluid of the heat exchange cycle through passage of air flow formed by the turbo fan. The method of claim 1, And the outdoor side heat exchanger is formed to surround at least three surfaces in the turbofan centrifugal direction.