KR20130043980A - Air conditioner - Google Patents

Abstract

PURPOSE: An air conditioner is provided to minimize air flow resistance and to make the thickness of a centrifugal fan to be thin while reducing noise. CONSTITUTION: An air conditioner comprises a base, an intake panel, a heat exchanger, a fan housing unit(50), an orifice(70), an upper centrifugal fan(80), and a lower centrifugal fan(90). The intake panel is installed on the top of the base and includes a rear air inlet. The heat exchanger is arranged in the front side of the rear air inlet. Left and right air outlets are formed respectively in the left and right sides of the fan housing unit. The rear and top surfaces of the fan housing unit are opened. The orifice is interposed between the fan housing unit and the heat exchanger. The upper centrifugal fan is arranged in the upper part of the fan housing unit to be rotatable. The lower centrifugal fan is arranged in the lower part of the fan housing unit to be rotatable. The fan housing unit includes a partition guide partitioning an upper flow passage of the upper centrifugal fan and a lower flow passage of the lower centrifugal fan.

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of three-dimensionally discharging air exchanged by a heat exchanger.

Generally, the air conditioner is installed for the purpose of cooling and heating the room by using a heater, a cooler, a purifier, etc., or purifying the air, thereby creating a more comfortable indoor environment for humans.

The air conditioner is provided with an air intake port through which air in the room is sucked and an air discharge port through which air coordinated inside the air conditioner is discharged, and when a plurality of air discharge ports are formed in the air conditioner, air discharged through the plurality of air discharge ports is formed. Air conditioning the room in three dimensions.

KR 10-0381160 B1 (2003.04.23)

The air conditioner according to the prior art sucks the air from both the left and right sides and raises it to the upper side, and then discharges it through the upper part of the air conditioner so that the flow resistance of the air is large, and one large blower fan is installed to make noise during rotation of the blower fan. Not only this is large but there is a problem that the thickness of the blowing fan is thick.

Air conditioner according to the present invention for solving the above problems and the base; A suction panel installed on the base and having a rear air inlet; A heat exchanger disposed in front of the rear air inlet; A fan housing disposed in front of the suction panel, a left air outlet is formed on the left side, and a right air outlet is formed on the right side, and the rear, top and bottom surfaces thereof are opened; An orifice disposed between the fan housing and the heat exchanger; An upper centrifugal fan rotatably disposed on an upper portion of the fan housing; And a lower centrifugal fan rotatably disposed under the fan housing, wherein the fan housing is provided with a partition guide for partitioning an upper flow path of the upper centrifugal fan and a lower flow path of the lower centrifugal fan.

The orifice may be formed with an upper hole through which air is sucked into the upper centrifugal fan and a lower hole through which air is sucked into the lower centrifugal fan.

A wind direction control vane rotatably installed about a horizontal axis in a lower portion of the fan housing; It may further include a wind direction control motor installed in the lower portion of the fan housing to rotate the wind direction control vanes.

The orifice may be provided with an air guide for guiding air to one surface of the wind direction control vane and preventing air from flowing to the other surface of the wind direction control vane.

 The air guide may protrude forward from the lower portion of the orifice.

The air guide may protrude upward from the rotation center of the wind direction control vane in front of the orifice.

The present invention can minimize the flow resistance of the air and make the thickness of the centrifugal fan thinner with less noise than when using one centrifugal fan, and the air blown by the upper and lower centrifugal fans does not collide with each other. There is an advantage that can be discharged quickly.

In addition, when the upper centrifugal fan and the lower centrifugal fan are selectively rotated, the airflow can be selected in three directions of left, right, and bottom, or in three directions of left, right, and top, and various three-dimensional airflows can be generated. have.

In addition, there is an advantage to prevent dew formation of the wind vane.

1 is a perspective view of the air conditioner according to an embodiment of the present invention in operation;
2 is a front view during operation of the air conditioner according to the embodiment of the present invention;
3 is a perspective view of the air conditioner according to one embodiment of the present invention at a standstill;
4 is an exploded perspective view of an embodiment of an air conditioner according to the present invention;
Figure 5 is a longitudinal cross-sectional view of the air conditioner one embodiment in accordance with the present invention,
6 is a cross-sectional view during operation of the air conditioner according to the embodiment of the present invention;
7 is a longitudinal cross-sectional view during operation of the air conditioner according to the embodiment of the present invention;
8 is an exploded perspective view showing a blower unit of an embodiment of an air conditioner according to the present invention.

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

1 is a perspective view of the air conditioner according to an embodiment of the present invention, FIG. 2 is a front view of the air conditioner according to an embodiment of the present invention, and FIG. 3 is a stop of the air conditioner according to the present invention. 4 is an exploded perspective view of an embodiment of an air conditioner according to the present invention.

The air conditioner of this embodiment includes a base 2; A suction panel 6 installed on the base 2 and having a rear air intake 4; A heat exchanger 8 disposed in front of the rear air inlet 4; A blower unit disposed in front of the heat exchanger 8 and the suction panel 6 to suck air through the rear air inlet 4 to pass the heat exchanger 8 and to blow it in four directions: up, down, left, and right. (10) may be included.

The base 2 may be open at the front and a space may be formed therein, and the control unit 3 may be installed in the space to control various electrical components of the air conditioner, and various articles may be accommodated therein.

The suction panel 6 may include a rear plate 12, a left plate 14 formed on the left side of the rear plate 12, and a right plate 16 formed on the right side of the rear plate 12. The suction panel 6 may be formed such that the rear air suction port 4 is opened in the front-rear direction on the rear plate 12. The suction panel 6 may have a heat exchanger accommodating space in which the heat exchanger 8 is accommodated between the left side plate 14 and the right side plate 16. The suction panel 6 may further include a lower plate 18 on which the heat exchanger 8 is mounted.

The suction panel 6 may be open or blocked at its upper surface.

The heat exchanger 8 is mounted on the lower plate 18 so as to be positioned between the left plate 14 and the right plate 16 and cools the air sucked into the rear air intake port 4 from the rear of the rear air intake port 4. Heat exchange with

The heat exchanger 8 may be formed in a rectangular parallelepiped shape having a longer vertical length than the horizontal length and a thin thickness in the front-rear direction, and may be installed perpendicular to the front of the rear air inlet 4.

The blower unit 10 is composed of a centrifugal blower unit that sucks air from the rear and blows it in the circumferential direction, and the air in the room is sucked forward through the rear air inlet 4 and passes through the heat exchanger 8 thereafter. After being sucked into the air blowing unit 10, the air is blown in four directions of up, down, left, and right of the air blowing unit 10, and is not blown toward the front of the air blowing unit 10.

The air blowing unit 10 may have a left air outlet 12 formed at a left side, a right air outlet 14 formed at a right side, a bottom air outlet 16 formed at a lower side thereof, and an upper surface thereof may be opened. have.

The air conditioner may include a lower discharge unit 20 disposed below the blower unit 10 to discharge the air blown downward from the blower unit 10 to the front.

The lower discharge unit 20 may have a lower front air discharge port 21 formed on a front surface thereof, and an open surface 22 through which air blown from the blower unit 10 flows in an upper surface thereof.

The air conditioner may include an upper cover 23 covering the front of the blower unit 10 and a lower cover 24 covering a part of the front of the base 2.

 The lower discharge unit 20 may be disposed to be exposed to the outside between the upper cover 23 and the lower cover 24.

The lower discharge unit 20 may be disposed such that the front air discharge port 21 is exposed to the outside at a position between the lower cover 24 and the blower unit 10 when the upper cover 23 is not present.

The lower discharge unit 20 may be disposed such that the front air discharge port 21 is exposed to the outside at a position between the fan housing cover 110 and the base 2 when the lower cover 24 is not present.

The lower discharge unit 20 may be disposed such that the front air discharge port 21 is exposed to the outside at a position between the blower unit 10 and the base 2 when the upper cover 23 and the lower cover 24 are not present. .

The air conditioner may include an upper discharge unit 26 for discharging the air blown upward from the blower unit 10 to the front.

The upper discharge unit 26 may have an upper front air discharge port 27 formed on a front surface thereof, and an open surface on which the air blown from the blower unit 10 flows in a lower surface thereof.

The upper discharge unit 26 may be installed to be fixed on the upper side of the blower unit 10, and may be disposed to be elevated on the upper side of the blower unit 10.

The upper discharge unit 26 is raised above the lifting guide 28 along the lifting guide 28 fixedly installed on at least one of the suction panel 6 and the blowing unit 10, or lowered inside the lifting guide 28. Can be.

When the upper discharge unit 26 is raised to the upper side of the elevating guide 28, the upper front air discharge port 27 may be exposed to the outside, and when the upper discharge unit 26 is lowered to the inside of the elevating guide 28, the upper front air discharge port 27 may be hidden in the elevating guide 28.

An elevating mechanism (not shown) for elevating the upper discharge unit 26 may be installed in the upper discharge unit 26 and the elevating guide 28, and the elevating mechanism may include a rack installed on the upper discharge unit 26, and an elevating guide ( And a pinion fitted to the rack and connected to the motor, and the rack may be raised or lowered when the pinion rotates when the motor is driven.

 The upper discharge unit 26 may include an upper wind direction control vane 29 for adjusting the wind direction of the air discharged through the upper discharge unit 26, and the upper wind direction control vane 29 may include the upper discharge unit 26. Is disposed horizontally inside the can be rotated up and down about the horizontal axis.

An upper wind direction control motor (not shown) for rotating the upper wind direction control vane 29 may be installed at the upper discharge unit 26.

In the air conditioner, the left and right sides of the blower unit 10 may be exposed to the outside of the air conditioner, and the left side of the blower unit 10 is covered by the left panel 30 and the blower unit 10 It is possible for the right side of) to be covered by the right panel 32.

A left air outlet through which air is blown to the left side of the blower unit 10 may be formed in the left panel 30 so as to communicate with the left air outlet 12 of the blower unit 10. The left panel 30 may be installed to cover the left side of the blowing unit 10 and a part of the left side of the base 2.

In the right panel 32, a right air outlet through which air is blown to the right side of the blower unit 10 may be formed to communicate with the right air outlet 14 of the blower unit 10. The right panel 32 may be installed to cover the right side of the blower unit 10 and a part of the right side of the base 2.

The air conditioner may be rotatably disposed with a left wind direction control member 34 for adjusting the wind direction of the air discharged to the left air outlet 12, and a left wind direction control motor 36 for rotating the left wind direction control member 34. ) Can be installed.

The left wind direction control member 34 may be rotatably disposed on the left side of the blowing unit 10 when the air conditioner does not include the left panel 30, and the air blower may be blown when the air conditioner includes the left panel 30. It may be rotatably disposed on the left side or the left panel 30 of the unit 10.

In the air conditioner, a right wind direction control member 38 that adjusts the wind direction of the air discharged to the right air outlet 14 may be rotatably disposed, and a left wind direction control motor 40 that rotates the right wind direction control member 38. ) Can be installed.

The right wind direction control member 38 may be rotatably disposed on the right side of the blowing unit 10 when the air conditioner does not include the right panel 32, and the air conditioner includes the right panel 32. It may be rotatably installed on the right side or the right side panel 32 of the blowing unit 10.

The air conditioner may further include a left door 42 that opens and closes the left air outlet 12, and a right door 44 that opens and closes the right air outlet 12.

Figure 5 is a cross-sectional view during operation of one embodiment of the air conditioner according to the present invention, Figure 6 is a longitudinal sectional view during operation of one embodiment of the air conditioner according to the present invention, Figure 7 is an embodiment of an air conditioner according to the present invention Figure 8 is a longitudinal cross-sectional view when stopped, Figure 8 is an exploded perspective view showing a blowing unit of an embodiment of an air conditioner according to the present invention.

The blowing unit 10 includes a fan housing 50 disposed in front of the suction panel 6; An orifice 70 disposed between the fan housing 50 and the heat exchanger 8; An upper centrifugal fan 80 rotatably disposed on an upper portion of the fan housing 50; And a lower centrifugal fan 90 rotatably disposed under the fan housing 50.

The fan housing 50 may have a left air outlet 12 formed on the left side, a right air outlet 14 formed on the right side thereof, and a rear surface, an upper surface, and a lower surface thereof may be opened.

The fan housing 50 may include a front plate 51, a left plate 52 formed at the left side of the front plate 51, and a right plate 53 formed at the right side of the front plate 51.

The fan housing 50 may have a left air outlet 12 formed in the left side plate 52, and a right air outlet 14 formed in the right side plate 53.

 The fan housing 50 may include a partition guide 54 that divides the upper flow path P1 of the upper centrifugal fan 80 and the lower flow path P2 of the lower centrifugal fan 90.

The partition guide 54 may be formed long in the horizontal direction between the left side plate 52 and the right side plate 53 of the fan housing 50.

The partition guide 54 has an upward rounded portion 55 whose upper surface is upwardly rounded toward either one of the left plate 52 and the right plate 53, and the other of the left plate 52 and the right plate 53. A downward rounded portion 56 may be formed on the lower surface toward the lower side.

The partition guide 54 may have a horizontal portion formed between the upper round portion 55 and the lower round portion 56.

In the fan housing 50, the front plate 51 may form a front surface of the upper flow path P1 and a front surface of the lower flow path P2.

The fan housing 50 may have a lower air outlet 16 formed on a lower surface thereof, and include a lower guide 57 for guiding air discharged to the lower air outlet 16 while forming the lower air outlet 16. Can be.

The lower air discharge port 16 may be formed to be positioned above the open surface 22 of the lower discharge unit 20, and the air passing through the lower air discharge port 16 may open the opening surface 22 of the lower discharge unit 20. ) And the lower discharge unit 20 and the lower front air discharge port 21 may be sequentially discharged to the outside of the lower discharge unit 20.

The lower guide 57 is a lower left guide 58 formed at the lower left of the fan housing 50, and a lower right guide formed at the lower right of the fan housing 50 and spaced apart from the left lower guide 58 in left and right directions. Guide 58 may be included.

The fan housing 50 may be provided with an upper motor 60 for rotating the upper centrifugal fan 80 and a lower motor 62 for rotating the lower centrifugal fan 90.

The upper motor 60 may be installed above the front plate 51 of the fan housing 50 so as to be positioned in the upper flow path P1, and the rotation shaft connected to the upper centrifugal fan 80 may protrude rearward. .

The upper motor 60 may be installed by the upper motor mounter 64 fastened to the front plate 51 of the fan housing 50 by a fastening member such as a screw.

The lower motor 62 may be installed below the front plate 51 of the fan housing 50 so as to be positioned in the lower flow path P2, and the rotary shaft connected to the lower centrifugal fan 80 may protrude rearward. .

The lower motor 62 may be installed by the lower motor mounter 66 fastened to the front plate 51 of the fan housing 50 by a fastening member such as a screw.

  The orifice 70 may be formed with an upper hole 72 through which air is sucked into the upper centrifugal fan 80 and a lower hole 74 through which air is sucked into the lower centrifugal fan 90.

The orifice 70 may have an upper portion forming a front surface of the upper passage P1 and a lower portion forming a front surface of the lower passage P2.

The orifice 70 may include a vertical plate 76 in which the upper hole 72 and the lower hole 74 are vertically spaced apart from each other, and a horizontal plate 78 formed on the vertical plate 76.

The horizontal plate 78 may cover the upper side of the heat exchanger 8 to prevent the air blown upward in the blower unit 10 from flowing in the direction of the heat exchanger 8.

The upper centrifugal fan 80 may be formed of a turbo fan whose center of rotation is horizontal in the front-rear direction, and passes between the top of the fan housing 50 and the top of the orifice 70 while passing through the top of the heat exchanger 8. Air can be blown in a left direction, a right direction and an upward direction.

The lower centrifugal fan 90 may be formed of a turbo fan whose rotation center is horizontal in the front and rear direction, and passes between the lower part of the heat exchanger 8 while rotating between the lower part of the fan housing 50 and the lower part of the orifice 70. Air can be blown in a left direction, a right direction and a downward direction.

The blower unit 10 includes the fan housing 50, the upper and lower motors 60 and 62, and the orifice 70, and the upper and lower centrifugal fans 80 and 90 are configured as 1: 2: 1: 2. Can be.

Blowing unit 10 can minimize the front and rear thickness than the case of using one motor and one centrifugal fan, it is possible to minimize the noise.

 The air blowing unit 10 includes a wind direction control vane 100 rotatably installed at a lower portion of the fan housing 50 about a horizontal axis; It further includes a wind direction control motor 102 installed in the lower portion of the fan housing 50 to rotate the wind direction control vane (100).

The wind direction control vane 100 may adjust the wind direction of the air flowing through the lower air discharge port 16 into the lower discharge panel 20, and may be rotatably disposed on the lower guide 57.

 The wind direction control vane 100 may be located between the lower left guide 58 and the lower right guide 58 of the lower guide 57, the lower left guide 58 by the wind direction control motor 102, The right lower guide 58 may be disposed horizontally or inclined toward the front lower portion.

The wind direction control motor 102 may be installed at one of the lower left guide 58 and the lower right guide 58 of the lower guide 57.

When the wind direction control vane 100 is horizontally disposed under the fan housing 50, one surface A faces the lower centrifugal fan 90 and the other surface B faces downward, and When disposed downwardly inclined downward toward the front lower side, one surface A may be exposed to guide the air while being exposed from the front of the air conditioner, and the other surface B may be covered.

 The orifice 70 may be provided with an air guide 79 for guiding air to one surface A of the wind direction control vane 100 and preventing air from flowing to the other surface B of the wind direction control vane 100.

  The air guide 79 may protrude forward from the bottom of the orifice 70.

 The air guide 79 may protrude upward from the rotation center of the wind direction control vane 100 at the front of the orifice 70.

The air guide 79 may be formed to protrude further in the forward direction toward the lower side, the front end may be located above one surface (A) of the wind direction control vane (100).

Hereinafter, the operation of the present invention will be described.

First, during operation of the air conditioner, the upper centrifugal fan 80 and the lower centrifugal fan 90 are rotated, and the rear air is caused by the suction force generated by the rotation of the upper centrifugal fan 80 and the lower centrifugal fan 90. It passes through the inlet 4 and is sucked between the rear air inlet 4 and the heat exchanger 8. The air passes through the heat exchanger 8 and heat exchanges with the refrigerant, which is then sucked between the heat exchanger 8 and the orifice 70.

Part of the air behind the orifice 70 is sucked into the upper centrifugal fan 80 and the other is sucked into the lower centrifugal fan 90.

The air sucked into the upper centrifugal fan 80 is blown in the up, down, left and right directions by the upper centrifugal fan 80, and the air blown in the downward direction of the upper centrifugal fan 80 is divided into the guides 54. It is flowed in the left and right direction while being guided by the upper surface of the, and is discharged through at least one side of the left air outlet 12 and the right air outlet (14). The air blown to the left side of the upper centrifugal fan 80 is discharged through the left air discharge port 12, and the air blown to the right side of the upper centrifugal fan 80 is discharged through the right air discharge port 14. The air discharged to the upper side of the upper centrifugal fan 80 is discharged upwardly between the upper portion of the fan housing 50 and the upper portion of the orifice 70.

When the air conditioner is operated and the upper discharge unit 26 is lowered by the lifting mechanism, the air discharged upward through the upper part of the fan housing 50 and the upper part of the orifice 70 is transferred to the upper discharge unit 26. It is blocked and cannot be discharged through the upper discharge unit 26, and flows along the upper portion of the fan housing 50 and the upper portion of the orifice 70 and discharges through at least one of the left air discharge port 12 and the right air discharge port 14. do.

In operation of the air conditioner, when the upper discharge unit 26 is lifted by the elevating mechanism, the air discharged upward through the upper part of the fan housing 50 and the upper part of the orifice 70 is discharged from the upper discharge unit 26. The discharge is guided to the front of the upper discharge unit 26 while being guided.

Meanwhile, the air sucked into the lower centrifugal fan 90 is blown in the up, down, left and right directions by the lower centrifugal fan 90, and the air blown in the upward direction of the lower centrifugal fan 90 is divided into a guide ( 54 is flowed in the left and right direction while being guided by the lower surface, and is discharged through at least one of the left air outlet 12 and the right air outlet 14. The air blown to the left of the lower centrifugal fan 90 is discharged through the left air discharge port 12, and the air blown to the right of the lower centrifugal fan 90 is discharged through the right air discharge port 14. Air discharged to the lower side of the lower centrifugal fan 90 is discharged downwardly between the lower portion of the fan housing 50 and the lower portion of the orifice 70.

In the air conditioner, when the wind direction control vane 100 is horizontally rotated upward by the wind direction control motor 102, the air is discharged downward through the lower part of the fan housing 50 and the lower part of the orifice 70. Is blocked by the wind direction control vane 100 and flows along the lower portion of the fan housing 50 and the lower portion of the orifice 70 and is discharged through at least one of the left air outlet 12 and the right air outlet 14.

In the air conditioner, when the wind direction control vane 100 is rotated obliquely downward by the wind direction control motor 102, the air discharged downward through the lower portion of the fan housing 50 and the lower portion of the orifice 70 is The discharge direction is guided to the front of the wind direction control vane 100 while being guided by the wind direction control vane 100.

Meanwhile, some of the air blown downward from the lower centrifugal fan 90 may flow toward the gap between the wind direction control vane 100 and the orifice 70, between the wind direction control vane 100 and the orifice 70. The air flowing toward the air is guided to one surface of the wind direction control vane 100 is guided by the air guide formed in the orifice 70, the air blown downward from the lower centrifugal fan 90 is the wind direction control vane 100 and the orifice It can be discharged and guided by the wind direction control vane 100, without leaking into the gap between the 70. If air leaks into the gap between the wind direction control vane 100 and the orifice 70, dew condensation may occur in the temperature difference between the air located below the gap and the air leaking through the gap. It does not leak, and dew condensation can be prevented.

In the air conditioner, when the upper centrifugal fan 80 and the lower centrifugal fan 90 rotate simultaneously, four directions of three-dimensional three-dimensional air flows are formed, and the lower centrifugal fan 80 rotates when the upper centrifugal fan 80 rotates. If 90) is stopped, three-way three-dimensional air flow of the upper, left, right is formed, and if the lower centrifugal fan 90 is rotated when the upper centrifugal fan 80 is stopped, three-way three-dimensional airflow of the lower, left, and right is Can be formed.

2: base 4: rear air intake
6: suction panel 8: heat exchanger
12: left air discharge port 14: right air discharge port
50: fan housing 54: compartment guide
70: orifice 72: upper hole
74: lower hole 79: air guide
80: upper centrifugal fan 90: lower centrifugal fan
100: wind direction control vane 102: wind direction control motor
P1: upper flow path P2: lower flow path

Claims (6)

A base;
A suction panel installed on the base and having a rear air inlet;
A heat exchanger disposed in front of the rear air inlet;
A fan housing disposed in front of the suction panel, a left air outlet is formed on the left side, and a right air outlet is formed on the right side, and the rear, top and bottom surfaces thereof are opened;
An orifice disposed between the fan housing and the heat exchanger;
An upper centrifugal fan rotatably disposed on an upper portion of the fan housing;
A lower centrifugal fan rotatably disposed below the fan housing,
The fan housing is provided with a partition guide for partitioning the upper flow path of the upper centrifugal fan and the lower flow path of the lower centrifugal fan. The method of claim 1,
The orifice is an air conditioner having an upper hole in which air is sucked into the upper centrifugal fan and a lower hole in which air is sucked into the lower centrifugal fan. 3. The method of claim 2,
A wind direction control vane rotatably installed about a horizontal axis in a lower portion of the fan housing;
And a wind direction control motor installed under the fan housing to rotate the wind direction control vanes. The method of claim 1,
And an air guide formed in the orifice to guide air to one surface of the wind direction control vane and to prevent air from flowing to the other surface of the wind direction control vane. The method of claim 4, wherein
The air guide protrudes forward from the lower portion of the orifice. The method of claim 4, wherein
The air guide is an air conditioner protruding from the front of the orifice above the rotation center of the wind direction control vane.

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