KR20150049210A - Air conditioner - Google Patents

Abstract

The present invention comprises: an air conditioning unit performing air conditioning; a discharge body including a pair of separated curved outlets and a pair of linear outlets located between a pair of curved outlets; and a ventilation device blowing air in which air conditioning is performed in the air conditioning unit to the curved outlets and the linear outlets, thereby uniformly discharging air up and down and left and right at the front of the discharge body.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly to an air conditioner that discharges air forward.

Generally, the air conditioner sucks air into the air intake port, changes the temperature, humidity, and cleanliness, and then discharges the air to the room through the air outlet, thereby changing the environment into a comfortable environment.

The air conditioner may have a front portion and an air outlet, and an air conditioning unit such as a heat exchanger or a filter that can change the temperature, humidity or cleanliness of the air may be installed therein. .

The air conditioner can form various airflows in the room according to the shape of the air outlet, the opening direction, the number, and the like.

The air conditioner can be formed so that a plurality of air outlets discharge air in different directions at different positions, and air can be discharged three-dimensionally.

KR 10-1234065 B (2013.02.15)

Since the air conditioner according to the related art discharges air in three different directions in the upper front direction, the left direction and the right direction, it is difficult to concentrate and discharge the air with a wide discharge area on the front side of the air conditioner, There is a problem in that the front direct air that is concentratedly discharged forward through a wide discharge area of the front discharge port can not be appropriately adapted to the desire of the user.

The present invention relates to an air conditioning unit for air conditioning; An ejection body including a pair of spaced curved ejection openings and a pair of linear ejection openings positioned between the pair of curved ejection openings; And an air blowing device for blowing air conditioned by the air conditioning unit to the curved discharge port and the linear discharge port.

  The discharge body may include the pair of curved discharge openings and a discharge grill portion located in the pair of linear discharge openings.

The discharge body may include a first body and a second body positioned outside the first body and between the first body and the curved discharge port and the linear discharge port, The first body and the second body may be connected between the first body and the second body.

The first body may include a thick plate and an inner discharging guide protruding from the thick plate to guide air to be discharged.

The discharge grill portion may include a plurality of grills spaced apart from each other between the first body and the second body.

The discharge grill portion may further include a grill connection rib connecting the plurality of grilles.

The plurality of grills may gradually increase in size in a direction from the first body to the second body.

The plurality of grills may be longer than the length of the grill closest to the second body, the length of the grill closest to the second body.

The plurality of grills may have a larger width in the air flow direction toward the second body from the first body.

The discharge grill portion may include an inner grill portion to which the air blown by the blowing device is guided and an outer grill portion that is bent at the inner grill portion and guides the air guided by the inner grill portion to the outside of the discharge body .

  Each of the pair of curved ejection openings may be semicircular.

  Each of the pair of linear discharge ports may be long in the longitudinal direction.

The pair of curved discharge openings include an upper curved discharge opening; And a lower curved discharge port spaced apart from the upper curved discharge port in a longitudinal direction of the discharge body, wherein the pair of linear discharge ports are located on the left side of the upper curved discharge port and the left side of the lower curved discharge port And a right linear discharge port positioned between the right side of the upper curved discharge port and the right side of the lower curved discharge port.

The discharge body may include a curved grill positioned at the curved discharge port and a linear grill connected to the curved grill and positioned at the linear discharge port.

Wherein the fan unit comprises: a first turbo fan for blowing air to one of the pair of curved discharge openings and the pair of linear discharge openings; And a second turbo fan for blowing air to the other one of the pair of curved discharge openings and the pair of linear discharge openings.

And each of the first turbo fan and the second turbo fan may have a diameter larger than a shortest distance between the pair of linear discharge ports.

The air blowing device includes a first bell mouth for guiding the air ventilated by the air conditioning unit to the first turbo fan, a first flow path portion surrounding the upper and lower sides of the first turbo fan, A second bell mouth for guiding the second turbo fan to the second turbo fan, and an air guide having a second flow path surrounding upper, lower, right, and left sides of the second turbo fan.

The air guide may include a barrier that defines a space for accommodating the first turbo fan and a space for accommodating the second turbo fan.

The discharge body may be coupled to the air guide.

   A first motor installed in the discharge body and rotating the first turbo fan; And a second motor installed in the discharge body and rotating the second turbo fan.

The present invention is advantageous in that air can be uniformly discharged to a large area on the front side, the lower side, the left side, and the right side of the discharge body through a pair of curved discharge openings and a pair of linear discharge openings.

Further, the width of the air discharge area is larger than that in the case of discharging air to one discharge port having a height of the air discharge area higher than that of the discharge port formed only on either the upper part or the lower part, There is an advantage that air can be discharged to the air discharge area having a wide left and right width.

Further, there is an advantage that a uniform and comfortable airflow can be provided to the entire body of the user located in front of the air conditioner.

  In addition, there is an advantage that the air discharged to the outside can be uniformly discharged to a large area in front of the air conditioner, while minimizing the deviation of the air in the specific direction.

1 is a perspective view of an embodiment of an air conditioner according to the present invention,
2 is a front view of an embodiment of an air conditioner according to the present invention,
3 is an exploded perspective view of an air conditioner according to an embodiment of the present invention,
FIG. 4 is a front view showing an ejection body of an air conditioner according to an embodiment of the present invention, FIG.
5 is a vertical sectional view of a discharge body and a blower in an air conditioner according to an embodiment of the present invention,
6 is a cross-sectional view of one embodiment of an air conditioner according to the present invention,
7 is a partially cutaway perspective view 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.

FIG. 1 is a perspective view of an air conditioner according to an embodiment of the present invention, FIG. 2 is a front view of an air conditioner according to the present invention, FIG. 3 is an exploded perspective view of an air conditioner according to an embodiment of the present invention, 4 is a front view showing an ejection body of an air conditioner according to an embodiment of the present invention, FIG. 5 is a vertical cross-sectional view of an ejection body and a blower in an air conditioner according to an embodiment of the present invention, 1 is a cross-sectional view of one embodiment of an air conditioner.

The air conditioner of the present embodiment includes a discharge body 2 and a blowing device 4 for blowing air to the discharge body 2. The air conditioner is capable of blowing air to the discharging body 2 when the blowing device 4 is driven and air blown by the blowing device 4 is blown through the discharging body 2 And can be discharged to the outside of the harmonizer.

The air conditioner includes an air conditioning unit for air-conditioning. The air conditioning unit can change the temperature, humidity, cleanliness, etc. of the air. The air conditioner may include a suction body (6) through which the air passes. The air conditioning unit can air-inhook the air sucked by the suction body (6). The air blowing device (4) can blow air ventilated by the air conditioning unit to the discharge body (2). The air outside the air conditioner can be sucked into the air conditioner through the suction body 6 and the temperature, humidity, cleanliness, etc. can be changed by the air conditioning unit, The air can be blown to the discharge body 2 by the air blowing device 4 and can be discharged to the outside of the air conditioner through the discharge body 2. [ The air conditioning unit may include at least one of a heat exchange unit that changes at least one of the temperature and the humidity of the air, and a purification unit that purifies the air. The heat exchanging unit includes a heat exchanger (8) for exchanging heat between the refrigerant and the air while passing through the refrigerant, an electric heater for heating the air to generate heat when current flows, a heat dissipating unit and a heat absorbing unit, The thermoelectric module may include at least one of the thermoelectric modules. The purifying unit may include at least one of a filter (9) for filtering foreign substances as air passes, an electrostatic precipitator for collecting foreign substances in the air electrostatically, and an ion generator for generating ions in the air. Hereinafter, the air conditioning unit will be described in detail later.

The discharge body (2) is formed with an air discharge port through which the air conditioned by the air conditioning unit is discharged to the outside of the air conditioner. The air discharge port includes a curved discharge port R1 (R2) and a linear discharge port L1 (L2). The curved discharge ports R1 and R2 and the linear discharge ports L1 and L2 may be formed on the same surface of the air conditioner. The curved discharge ports R1 and R2 and the linear discharge ports L1 and L2 can discharge air in a direction parallel to each other. The curved discharge ports R1 and R2 and the linear discharge ports L1 and L2 may be formed together on the front surface of the air conditioner. The air discharge opening includes at least one curved discharge opening and at least one linear discharge opening. The discharge body 2 may be formed with curved grills RG1 and RG2 in the curved discharge port and linear grills LG1 and LG2 may be formed in the linear discharge port. The straight grill LG1 (LG2) may be connected to the curved grill RG1 (RG2). The discharge body 2 may be formed long in the longitudinal direction of the air conditioner. The discharge body 2 may be formed into a long rectangular shape in the longitudinal direction. The air outlet may be formed in a shape of a closed loop as a whole, and the air outlet may be formed in the longitudinal direction of the air conditioner. The air outlet may be formed in the front portion of the air conditioner so as to open in the front-rear direction. The air discharge port may be a track-shaped air discharge port that is long in the longitudinal direction of the discharge body (2). The air outlet may be formed so that air is uniformly and concentratedly discharged upward, downward, leftward, and rightward of the air conditioner.

The curved grills RG1 and RG2 may include an upper curved grill RG1 formed on the upper portion of the discharge body 2. [ A plurality of the upper curved grills RG1 may be formed and a plurality of the upper curved grills RG1 may be formed to be gradually increased in size toward the outside of the air conditioner. The curved grills RG1 and RG2 may include a lower curved grill RG2 formed on the lower portion of the discharge body 2. [ A plurality of lower curved grills RG2 may be formed and a plurality of lower curved grills RG2 may be formed so as to be gradually increased in size toward the outside of the air conditioner. The straight grill LG1 (LG2) may include a left straight grill LG1 connecting the left side of the upper curved grill RG1 and the left side of the lower curved grill RG2. A plurality of left straight grilles LG1 may be formed, and a plurality of left linear grilles LG1 may be formed to be spaced apart from each other in the horizontal direction. The straight grill LG1 (LG2) may include a right straight grill LG2 that connects the right side of the upper curved grill RG1 and the right side of the lower curved grill RG2. A plurality of right straight grilles LG2 may be formed, and a plurality of right straight grilles LG2 may be formed to be spaced apart from each other in the horizontal direction.

One linear discharge port L1 can be formed in one curved discharge port R1 and one curved discharge port R1 and one pair of linear discharge ports L1 and L2 can be formed in the discharge body 2 And it is possible to form a pair of curved discharge ports R1 and R2 and a pair of linear discharge ports L1 and L2.

When one curved discharge port R1 and one linear discharge port L1 are formed in the discharging body 2, one linear discharge port L1 is connected to one of the one end and the other end of one curved discharge port R1 As shown in FIG. One curved discharge port R1 may be formed in the upper part of the upper part and the lower part of the discharge body 2 and one linear discharge port L2 may be formed to be longer in the longitudinal direction of the air conditioner.

When one curved discharge port R1 and one pair of linear discharge ports L1 and L2 are formed in the discharge body 2, one of the linear discharge ports L1 is connected to one end of one curved discharge port R1 And the other linear discharge port L2 may be continuously formed at the other end of one curved discharge port R1. One curved discharge port R1 may be formed at the upper part of the upper part and the lower part of the discharge body 2 and one linear discharge port L1 may be formed at one end of one curved discharge port R1, And the other linear discharge port L2 may be elongated in the longitudinal direction of the air conditioner at the other end of one curved discharge port R1. In this case, the air discharge ports formed by one curved discharge port R1 and the pair of linear discharge ports L1 and L2 may have a cross-sectional shape of '∩' shape as a whole. In contrast, one curved discharge port R1 may be formed at the lower part of the upper and lower parts of the discharge body 2, and one of the linear discharge ports L1 may be connected to one end of one curved discharge port R1, And the other linear discharge port L2 may be formed long in the longitudinal direction of the air conditioner at the other end of one curved discharge port R1. In this case, the air discharge ports formed by one curved discharge port R1 and the pair of linear discharge ports L1 and L2 may have a U-shaped sectional shape as a whole.

  When a pair of curved discharge ports R1 and R2 and a pair of linear discharge ports L1 and L2 are formed in the discharge body 2, the pair of curved discharge ports R1 and R2 are spaced apart from each other . The pair of curved discharge ports R1 and R2 can be spaced apart in the longitudinal direction of the air conditioner. Each of the pair of curved discharge ports R1, R2 may be formed in a semicircular shape. The pair of curved discharge ports R1 and R2 includes an upper curved discharge port R1; And may include an upper curved discharge port R1 and a lower curved discharge port R2 spaced in the longitudinal direction of the discharge body 2. [ The upper curved discharge port R1 may be formed in the upper part of the discharge body 2 and the upper part of the discharge body 2. The upper curved discharge port R1 may be curved in a convex shape toward the upper side. The lower curved discharge port R2 may be formed at the lower part of the upper and lower parts of the discharge body 2. [ The lower curved discharge port R2 may be curved in a convex shape toward the lower side.

The pair of linear discharge ports L1 and L2 may be positioned between the pair of curved discharge ports R1 and R2. One linear discharge port L1 may be formed continuously at one end of each of the pair of curved discharge ports R1 and R2 and the other linear discharge port L2 may be formed at a pair of curved discharge ports R1, (R2). When the air conditioner is formed long in the longitudinal direction, each of the pair of the linear discharge ports L1 and L2 is formed in the longitudinal direction of the air conditioner, As shown in FIG. The pair of linear discharge ports L1 and L2 includes a left linear discharge port L1 positioned between the left side of the upper curved discharge port R1 and the left side of the lower curved discharge port R2, And a right-side linear discharge port L2 positioned between the right side and the right side of the lower curved discharge port R2. The left linear discharge port L1 and the right linear discharge port L2 may be formed long in the vertical direction across the upper and lower portions of the discharge body 2. [ The air discharge port may be an upper discharge port O1 having an upper curved discharge port R1 and a pair of linear discharge ports L1 and L2 having a cross section of an ∩ shape and a lower curved discharge port R2, And the remaining part of the pair of the linear discharge ports L1 and L2 can be a lower discharge port O2 having a U-shaped cross section, and the upper discharge port O1 having a cross- The lower discharge port O2 having a shape of 'U' may be continuous in the longitudinal direction of the discharge body 2. [

Each of the curved discharge ports R1 and R2 and the linear discharge ports L1 and L1 may be formed so as to be open in the front and rear direction and the discharging body 2 may be disposed in the front portion of the air conditioner. The air discharged through the curved discharge ports R1 and R2 and the linear discharge ports L1 and L1 of the air conditioner 2 can be discharged in the forward direction of the air conditioner.

  The discharge body 2 may include a pair of curved discharge ports R1 and R2 and a discharge grill portion 10 located in a pair of the linear discharge ports L1 and L1. The discharging body 2 may include a first body 20 and a second body 30 located outside the first body 20. The second body 30 may be spaced apart from the first body 20 on the outside of the first body 20. The discharging body 2 may be formed with curved discharging ports R1 and R2 and rectilinear discharging ports L1 and L2 between the first body 20 and the second body 30. The discharge grill portion 10 may be positioned between the first body 20 and the second body 40. The discharge grill portion 10 can connect the first body 20 and the second body 30 to each other.

The discharge grill portion 10 may include a plurality of grilles 11, 12 and 13 that are spaced apart from each other between the first body 20 and the second body 30. Air blown from the air blowing device 4 can be discharged to the outside of the discharge body 2 through a gap between the plurality of grilles 11, 12, The air blown from the air blowing device 4 can be guided to the grilles 11, 12 and 13 when passing through the discharge grill part 10 and can be evenly aligned and discharged have. That is, the air blown from the air blowing device 4 can be guided while being aligned by the plurality of grilles 11, 12 and 13, and the air can be guided in a direction in which the plurality of grilles 11, 12, Can be discharged.

Each of the plurality of grills 11, 12 and 13 is connected to the curved grilles RG1 and RG2 located at the curved discharge ports R1 and R2 and the curved grilles RG1 and RG2, And a straight grill LG1 (LG2) positioned at the discharge port L1 (L2). Each of the plurality of grilles 11, 12 and 13 includes an upper curved grill RG1, a left linear grill LG1, a lower curved grill RG2 and a right linear grill LG2, .

The plurality of grilles 11, 12, and 13 may be gradually increased in size from the first body 20 toward the second body 30. The length of the grill 13 closest to the second body 30 may be longer than the length of the grill 11 closest to the first body 20. As shown in FIG. 6, the plurality of grills 11, 12, and 13 have widths P1, P2, and P3 in the air flow direction toward the second body from the first body 20 It can be long.

The discharge grill portion 10 may further include grill connecting ribs 14 and 15 connecting a plurality of grilles 11, 12 and 13. The grill connecting ribs 14 and 15 include an inner grill connecting rib 14 connecting the center grill located at a relatively center among the plurality of grilles 11, 12 and 13 to an inner grill positioned inside thereof, And an outer grill connecting rib 15 connecting the central grill to the outer grill located on the outer side thereof. The plurality of grilles 11, 12 and 13 may be formed so that one of the grilles 11 protrudes from the first body 20 or the second body 30. At least one of the plurality of grills 11, 12 and 13 may be formed to protrude from the outer circumference of the first body 20 or the inner circumference of the second body 30. [ The discharge grill portion 10 may further include a first body connection grill 16 connecting the first body 20 to one of the plurality of grills 11, 12,

  The discharge grill portion 10 includes an inner grill portion 17 to which air blown out from the air blowing device 4 is guided and an air blowing portion 16 which is bent at the inner grill portion 17 and guided by the inner grill portion 17 to the discharge body 2) and an outer grill portion 18 for guiding discharge to the outside. Each of the plurality of grills 11, 12 and 13 of the discharge grill portion 10 may include an inner grill portion 17 and an outer grill portion 18.

  The discharge grill portion 10 may include at least two grills, and it is possible to include three or more grills. Hereinafter, an example will be described in which the discharge grill portion 10 includes three grills.

The discharge grill portion 10 may include a first grill 11, a second grill 12, and a third grill 13.

The first grill 11 may have a smallest size among the plurality of grilles 11, 12 and 13 and may have the shortest overall length. May be located closest to the body (20). The first grill 11 may be an inner grill positioned at the innermost one of the plurality of grilles 11, 12, The first grill 11 may be connected to the first body 20 and the first body connecting grill 16.

The second grill 12 may be formed to surround the first grill 11. The second grill 12 may be larger in size than the first grill 11 and may have an overall length greater than the first grill 11 and may be positioned between the first grill 11 and the third grill 13 can do. The second grill 12 may be a central side grill positioned between the first grill 11 and the third grill 13 when the discharge grill portion 10 includes at least three grills. The second grill 12, which is a center grill, may be positioned apart from each other between the first grill 11 and the second grill 12 in a plurality of different sizes and lengths. The second grill 12 may be connected to the first grill 11 and the inner grill connection ribs 14 and may be connected to the third grill 13 and the outer grill connection ribs 15.

The third grill 13 may be formed to surround the second grill 12. The third grill 13 may be larger than the second grill 12 and the overall length may be longer than the second grill 12. The third grill 13 may be an outermost grill positioned outermost among the plurality of grilles 11, 12 and 13. The second grill 11 may be the second grill 11, the second grill 11, . ≪ / RTI > The third grill 13 is separated from the second body 30 and connected to the second body 40 through a second body connection grill. And the third grill 13 can directly protrude from the second body 30. The third grill 13 may protrude from a plate body 34, which will be described later, of the second body 30.

  The first body 20 may include a thick plate 22 and an inner discharge guide 24 protruding from the thick plate 22 to guide the air to be discharged. The first body 20 may be formed with a space S1 having an open front and the space S1 may be formed with a shape recessed with the first body 20. [

Motor mounting portions 23A and 23B in which the motor of the blowing device 4 described later is installed may be formed on the thick plate 22. [ The thick plate 22 may be a motor mount on which the motor of the blower 4 is mounted. The blowing device 4 may include one motor, and the motor mounting portion may be provided in the rear plate 22 in a single number. The blower unit 4 may include a plurality of motors, and the motor mounting unit may be provided on the rear plate 22 so as to be spaced apart from each other. The blower may include a first motor 62 and a second motor 64. The motor mount includes a first motor mount 23A on which the first motor 62 is mounted, The second motor mounting portion 23B may be formed.

The inner discharge guide 24 may have a closed loop cross-sectional shape and may be formed long in the longitudinal direction of the discharge body 2. [ The inner discharge guide 24 can form a space S with its inner circumferential surface and the discharge guide surface through which the outer circumferential surface 25 discharges air. A part of the air passing through the discharge body 2 can be discharged and guided to the outside of the discharge body 2 while being guided by the outer circumferential surface 25 of the inner discharge guide 24. [

The second body 30 may be formed larger than the first body 20 and the inner circumference may be spaced apart from the outer circumference of the first body 20. [ The discharging body 2 may be formed with curved discharge ports R1 and R2 and linear discharge ports L1 and L2 respectively between the inner circumference of the second body 30 and the outer circumference of the first body 20 have. The second body 30 may be formed to be larger than the discharge grill portion 10. The second body 30 may be formed with a fastening portion 32 for fastening the discharge body 2. The second body 30 may be formed with a plate body 34 connected to the discharge grill portion 10. The fastening portion 32 may be formed in the plate body 34. The fastening portion 32 can be formed on the plate body 34 itself and can be formed to protrude from the plate body 34. [ The fastening portion 32 may include a fastening hole through which the fastening member such as a screw passes. The fastening part 32 may include a fastening boss formed with a fastening hole. The fastening portion 32 may include a hook protruding rearward. The fastening portion 32 may include a fastening hole or a fastening boss formed on the plate body 34 and a hook formed to protrude from the plate body 34. [

The air blowing device 6 is capable of blowing the air conditioned in the air conditioning unit to the curved discharge ports R1 and R2 and the linear discharge ports L1 and L2. The air blowing device 6 is capable of blowing the air conditioned in the air conditioning unit to both of the pair of curved discharge ports R1 and R2 and the pair of the linear discharge ports L1 and L2. The fan unit 4 includes a first turbo fan 42 for blowing air to one of the pair of curved discharge ports R1 and R2 and the pair of linear discharge ports L1 and L2, ; And a second turbo fan 44 for blowing air to the other one of the pair of curved discharge ports R1 and R2 and the pair of linear discharge ports L1 and L2.

The air blowing device (4) further includes an air guide (50) for guiding the air ventilated in the air conditioning unit. The air guide 50 includes a first bell mouth 51 for guiding the air ventilated by the air conditioning unit to the first turbo fan 42, A second bell mouth 53 for guiding the air ventilated by the air conditioning unit to the second turbo fan 44 and a second flow channel portion 54 surrounding the upper and lower sides of the second turbo fan 44, Can be formed. The air guide 50 may include a barrier 55 that defines a space S2 in which the first turbo fan 42 is received and a space S3 in which the second turbo fan 44 receives the air. The air guide 50 may include a thick plate 56, a left plate 57, a right plate 58, an upper guide 59, and a lower guide 60.

The barrier 55 may be a separating wall that blocks the air flowed by the first turbo fan 42 and the air flowed by the second turbo fan 44 from intermixing. The barrier 55 may be formed in a shape protruding forward from the thick plate 56. The barrier 55 may protrude from between the first turbo fan 42 and the second turbo fan 44. The barrier 55 includes an upper barrier 55A positioned below the first turbo fan 42 and a lower barrier 55B located above the second turbo fan 44. [ The barrier 55 may further include a barrier connecting portion 55C connecting the front end of the upper barrier 55A and the front end of the lower barrier 55B. The rear portion of the upper barrier 55A may be formed to be rounded upward toward the rear plate 56 and the rear portion of the lower barrier 55B may be formed to be rounded down toward the rear plate 56. [

The left side plate 57 can function as a first turbo fan guide for guiding the air blown to the left side from the first turbo fan 42 to the left linear discharge port L1, The second fan-guided fan guiding the air blown to the left side to the left linear discharge port L1.

The right side plate 58 can function as a first turbo fan guide for guiding the air blown to the right side from the first turbo fan 42 to the right straight discharge port L2, ) To guide the air blown to the right side to the right linear discharge port (L2).

  The rear portion of the upper guide 59 may be formed to be rounded down toward the thick plate 56. The upper guide 59 can guide the air blown upward from the first turbo fan 42 to the upper curved discharge port Rl.

And the rear portion of the lower guide 60 may be formed to be rounded upward toward the rear plate 56. The lower guide 60 may guide the air blown downward from the second turbo fan 44 to the lower curved discharge port R2.

The air guide 50 can be provided with a first bell mouth 51 on the upper plate 56 and the upper guide 55 and the upper plate 55A and the right plate 58, May be the first flow path portion 52. The air guide 50 may include a second bell mouth 53 formed under the thick plate 56 and a lower guide 55 and a lower plate 55B and a right plate 58, The second flow path portion 54 may be a lower portion.

  The air guide 50 surrounds the first turbo fan 42 and the second turbo fan 44 and includes air flowing by the first turbo fan 42 and air flowing by the second turbo fan 44 And can function as fan housings for guiding respectively.

The air blowing device includes a first motor (62) installed in the discharge body (2) and rotating the first turbo fan (42); And a second motor (64) installed in the discharge body (2) and rotating the second turbo fan (44).

The first motor 62 may be installed as a motor bracket 63 on the first motor mounting portion 23A of the discharging body 2 so that the rotating shaft projects rearward. The first motor mounting portion 23A of the discharging body 2 may include a plurality of ribs radially protruding from the rear surface of the discharging body 2 and the motor bracket 63 may be provided on at least one of the plurality of ribs, Or the like.

The second motor 64 may be installed as a motor bracket 65 on the second motor mounting portion 23B of the discharging body 2 so that the rotating shaft protrudes rearward. The second motor mounting portion 23B of the discharging body 2 may include a plurality of ribs radially protruding from the rear surface of the discharging body 2 and the motor bracket 65 may be fixed to at least one of the plurality of ribs Or the like.

The first turbo fan 42 sucks the air in the rear and blows in the circumferential direction in the centrifugal direction. The air blown in the circumferential direction by the first turbo fan 42 can be guided to the upper portion of each of the upper curved discharge port R1 and the pair of linear discharge ports L1 and L2 by the air guide 50, The air is supplied to the upper portion of one of the pair of linear discharge ports L1 and L2 and the upper portion of the other one of the pair of linear discharge ports L1 and L2 As shown in FIG. Air circulated through the air conditioning unit can be discharged through the upper discharge port O1 having a cross-sectional shape of an ∩ -shape, and can be discharged to a large area in front of the upper part of the discharge body 2 And can be discharged while being spread. The first turbo fan 42 can blow air toward the upper curved grill GR1 and the upper portions of the pair of straight grilles LG1 and LG2.

The second turbo fan 44 can blow air in the circumferential direction, which is the centrifugal direction, by sucking the rear air. The air blown in the circumferential direction by the second turbo fan 44 can be guided to the lower portion of each of the lower curved discharge port R2 and the pair of linear discharge ports L1 and L2 by the air guide 50, The air is supplied to the lower portion of one of the pair of linear discharge ports L1 and L2 and the lower portion of the other one of the pair of linear discharge ports L1 and L2 As shown in FIG. When the second turbo fan 44 is rotated, the air ventilated in the air conditioning unit can be discharged through the lower discharge port O2 having a "U" shaped cross section, and can be spread over a wide area in front of the lower portion of the discharge body 2 And can be discharged while being spread. The second turbo fan 44 can blow air toward the lower portion of the pair of straight grilles LG1 and LG2 and the lower curved grill GR2.

  Each of the first turbo fan 42 and the second turbo fan 44 may have a diameter D larger than the shortest distance L3 between the pair of linear discharge ports L1 and L2.

  The discharge body 2 can be coupled to the air guide 50. [ The discharge body 2 can be disposed in front of the air guide 50 when the fastening portion 34 is engaged with the air guide 50 and when engaged with the air guide 50. [ When the discharge body 2 is coupled to the air guide 50, the upper part of the discharge body 2 can cover the space S2 in which the first turbo fan 42 of the air guide 50 is accommodated, The second turbo fan 44 can cover the space S3 accommodated therein.

The air blowing device 4 does not include the air guide 50 in which the two turbo fans 42 and 44, the two motors 62 and 64 and the two bell mouths 51 and 53 are formed A turbo fan 42, a motor 62, and an air guide 50 having a bell mouth 51 formed therein. That is, the blowing device 4 includes a motor 62 provided in the discharge body 2; A turbo fan 42 installed on the rotary shaft of the motor 62 for blowing air to the curved discharge ports R1 and R2 and the linear discharge ports L1 and L2; It is also possible to include an air guide 50 in which a bell mouth 51 for guiding air to the turbo fan 42 is formed and is coupled to the discharge body 2. [

When the length of the linear discharge ports L1 and L2 is long, the fan 4 is connected to the first turbo fan 42, the second turbo fan 44, the first motor 62, 64 and the air guide 50 in which the first bell mouth 51 and the second bell mouth 53 are formed so as to blow the air through the two air flow paths and the linear discharge ports L1 And the air guide 50 in which one motor 62, one turbo fan 42 and one bell mouth 51 are formed when the length of the bell mouth 51 is short, .

  The suction body 6 may include a case 62 having an opening through which air is sucked into the air conditioner. The case 62 may be formed with a space in which the heat exchanger 8 is accommodated. The case 62 may be formed in a box shape whose front surface is opened, and the heat exchanger 8 may be installed inside the case 62. The case 62 can be engaged with the air guide 50, and its front surface can be covered by an air guide. A heat exchange space may be formed between the case 62 and the air guide 50 to receive the heat exchanger 8 and exchange heat with the heat exchanger 8. The case 62 can form an outer appearance of the rear side of the air conditioner. The case 62 may be a rear case of the air conditioner. The case 62 may surround the outer circumference of the air guide 50. [ The suction body 6 may further include a suction grill 64 attached to and detached from the case 62. The suction grill 64 may be a suction panel through which the outside air of the air conditioner passes to be sucked into the air conditioner and an air inlet port through which the outside air passes to be sucked into the air conditioner is formed . The purifier unit 9 may be disposed in the suction grill 6. [ The suction grille 6 may be provided with a purifying unit attaching / detaching section for attaching / detaching the purifying unit 9 thereto. The suction grill 64 can be integrally formed with the case 62 and can be formed with an inlet and an outlet through which the purifier unit 9 can be inserted and removed. The suction grill 64 is separately formed in the case 62 and can be attached to and detached from the case 62. The suction grill 64 may be disposed on the air conditioner in a single or plural numbers. The suction grill 64 can be arranged in the same number as the purifier unit 9 and if the purifier unit 9 is plural, the suction grill 64 can also be plural. When the purifying unit 9 includes the first purifying unit 9A and the second purifying unit 9B, the suction grill 64 is connected to the first suction grill 64A in which the first purifying unit 9A is disposed, And a second suction grill 64B in which the second purifying unit 9B is disposed.

The heat exchanger 8 can be installed such that one heat exchanger faces the first bell mouth 51 and the second bell mouth 53 and is connected to the first bell mouth 51 via a first heat exchanger 8A , And a second heat exchanger (8B) facing the second bell mouth (53). The first heat exchanger 8A and the second heat exchanger 8B may be spaced apart from each other in the vertical direction. The first heat exchanger 8A may be installed between the first purifying unit 9A and the first bell mouth. And the second heat exchanger 8B may be installed between the second purifying unit 9B and the second bell mouth. The temperatures of the refrigerant passing through the first heat exchanger 8A and the second heat exchanger 8B may be different from each other.

On the other hand, in the air conditioner, a heat exchanger 8 is disposed between the first bell mouth 51 and the first suction grill 64A, and a heat exchanger 8 is disposed between the second bell mouth 53 and the second suction grill 64B. (9) can be arranged. The air conditioner includes a purifier unit 9 disposed between the first bell mouth 51 and the first suction grill 64A and a heat exchanger 8 disposed between the second bell mouth 53 and the second suction grill 64B. Of course, be disposed.

The purifier unit 9 is capable of purifying the air flowing from the outside of the air conditioner toward the heat exchanger 8. The purification unit 9 may be provided in the air conditioner in a single number or a plurality of purification units 9 may be provided. When a plurality of purifying units 9 are provided, a first purifying unit 9A for purifying the air flowing to the inside upper part of the air conditioner, a second purifying unit 9A for purifying the air flowing to the inner lower part of the air conditioner, (9B). The first purifying unit 9A and the second purifying unit 9B may have the same air purifying method or different air purifying methods. It is possible that the first purifying unit 9A and the second purifying unit 9B are constituted by a filter in which foreign matter in the air is filtered by one of them and the other is composed of an ion generator which generates ions.

The air conditioner may further include a first body cover (80) covering a front surface of the first body (20). The first body cover 80 may cover the space S of the first body 20.

The air conditioner may further include a front outer cover (90). The front outer cover 90 may be disposed so as to surround the outer periphery of the discharge body 2. The front outer cover 90 may cover the fastening portion 34 of the discharge body 2. The front outer cover 90 can be formed with an opening 92 in which a pair of curved discharge ports R1 and R2 and a pair of linear discharge ports L1 and L2 are exposed to the outside. The front outer cover 90 can form a left side outer appearance and a right side appearance of the air conditioner. The front outer cover 90 may surround the outer periphery of the discharge body 2. [ The front outer cover 90 may be a front case of the air conditioner.

7 is a partially cutaway perspective view of an embodiment of an air conditioner according to the present invention.

The discharging body 2 may be provided with a wire penetration portion 27 through which a wire (not shown) connected to the first motor 62 and the second motor 64 is passed through the first body 20. The wire through hole 27 may be formed in the thick plate 22 of the first body 20.

The air guide 50 may be formed with a wire passage portion 61A through which the wire passes and protects the wire. The wire passage portion 61A of the flow guide 50 can be connected to the wire passage portion 27 of the discharge body 2 and the electric wire can be connected to the wire passage portion 27 of the discharge body 2 and the air guide portion 50 of the air guide 50 And can be routed through the wire passage portion 61A.

On the other hand, the air conditioner may include a drain mechanism (not shown) for receiving and draining the condensed water generated in the heat exchanger 8, and the drain mechanism may be located below the heat exchanger 8.

One of the discharge body 2 and the air guide 50 is provided with an air hole for blowing a part of the air blown by the first turbo fan 42 or a part of the air blown by the second turbo fan 44 to the drain mechanism side 61B may be formed, and some air blown through the air hole 610 to the drain mechanism may prevent the smell from flowing backward from the outside through the drain mechanism.

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

First, when the blower unit 4 is driven, the air outside the air conditioner can be sucked into the air conditioner through the suction body 6. When the first turbo fan 42 is rotated by the driving of the first motor 62, the air outside the air conditioner passes through the suction body 6 and is supplied to the air conditioner 5 through the filter 9 and the heat exchanger 8, . The air that has passed through the filter 9 and the heat exchanger 8 can be sucked into the first turbo fan 42 through the first bell mouth 51 and the first turbo fan 42 can be sucked by the first turbo fan 42, Can be blown in the centrifugal direction of the fan (42). The air blown by the first turbo fan 42 is guided to the upper portion of each of the pair of linear discharge ports L1 and L2 and the upper curved discharge port R1 by the first flow path portion 52 of the air guide 50, And air can be guided to the upper portion of one of the pair of linear discharge ports L1 and L2 and the upper portion of one of the pair of linear discharge ports L1 and L2 And one portion of the upper part of the second line L2.

On the other hand, when the second turbo fan 44 is rotated by the driving of the second motor 64, the air outside the air conditioner passes through the suction body 6 and passes through the filter 9 and the heat exchanger 8 Lt; / RTI > The air that has passed through the filter 9 and the heat exchanger 8 can be sucked into the second turbo fan 44 through the second bell mouth 53 and the second turbo fan 44 can be sucked into the second turbo fan 44, Can be blown in the centrifugal direction of the fan (44). The air blown by the second turbo fan 44 is guided to the lower portion of each of the pair of linear discharge ports L1 and L2 and the lower curved discharge port R2 by the second flow path portion 54 of the air guide 50, And the air can be guided to the lower portion of one of the pair of linear discharge ports L1 and L2 and the lower portion of one of the pair of linear discharge ports L1 and L2 And the lower part of one (L2).

The air flowing by the first turbo fan 42 and the air flowing by the second turbo fan 44 are aligned by the plurality of grilles 11, And the second body 30, and the discharge direction thereof can be concentrated in the forward direction of the air conditioner. That is, when the two turbo fans 42 and 44 rotate, the air conditioner sucks the air in the rear of the air conditioner and cools it, and then, the air conditioner can concentrically eject the air in a front wide area of the air conditioner forward.

2: Discharge body 4:
6: Suction body 8: Heat exchanger
9: filter 10: discharge grill part
11, 12, 13: Grill 20: First body
24: Inner ejection guide 30: Second body
42: 1st turbo fan 44: 2nd turbo fan
50: air guide 62: first motor
64: second motor R1, R2: curved discharge port
L1, L2: Linear outlet RG1, RG2: Curved grill
LG1, LG2: Straight grill

Claims (20)

An air conditioning unit for air conditioning;
An ejection body including a pair of spaced curved ejection openings and a pair of linear ejection openings positioned between the pair of curved ejection openings;
And an air blowing device for blowing the air conditioned by the air conditioning unit to the curved discharge port and the linear discharge port. The method according to claim 1,
Wherein the discharge body includes the pair of curved discharge openings and a discharge grill portion located in the pair of linear discharge openings. 3. The method of claim 2,
The discharge body
A first body,
And a second body located outside the first body and between the first body and the curved discharge port and the linear discharge port,
Wherein the discharge grill portion connects the first body and the second body between the first body and the second body. The method of claim 3,
Wherein the first body includes a thick plate and an inner discharge guide protruding from the thick plate to guide air to be discharged. The method of claim 3,
Wherein the discharge grill portion includes a plurality of grills spaced apart from each other between the first body and the second body. 6. The method of claim 5,
Wherein the discharge grill portion further comprises a grill connection rib connecting the plurality of grilles. 6. The method of claim 5,
Wherein the plurality of grills gradually increase in size toward a direction from the first body to the second body. 6. The method of claim 5,
Wherein the plurality of grills has a length of a grill closest to the second body is longer than a length of a grill closest to the first body. 6. The method of claim 5,
Wherein the plurality of grills have a larger width in the direction of air flow from the first body toward the second body. 3. The method of claim 2,
Wherein the discharge grill portion includes an inner grill portion for guiding air blown from the air blowing device,
And an outer grille portion bent at the inner grille portion and guiding air guided by the inner grille portion to the outside of the discharge body. The method according to claim 1,
Wherein each of the pair of curved ejection openings is a semicircular shape. The method according to claim 1,
Wherein each of the pair of linear discharge ports is longitudinally long. The method according to claim 1,
The pair of curved discharge openings include an upper curved discharge opening;
And a lower curved discharge port and a lower curved discharge port spaced apart from each other in the longitudinal direction of the discharge body,
Wherein the pair of linear discharge ports include a left linear discharge port positioned between a left side of the upper curved discharge port and a left side of the lower curved discharge port,
And a right linear discharge port positioned between a right side of the upper curved discharge port and a right side of the lower curved discharge port. The method according to claim 1,
Wherein the discharge body comprises a curved grille located at the curved discharge opening,
And a straight grill connected to the curved grill and positioned at the linear discharge port. The method according to claim 1,
Wherein the fan unit comprises: a first turbo fan for blowing air to one of the pair of curved discharge openings and the pair of linear discharge openings;
And a second turbo fan for blowing air to the other one of the pair of curved discharge openings and the pair of linear discharge openings. 16. The method of claim 15,
Wherein each of the first turbo fan and the second turbo fan has a diameter that is larger than a shortest distance between the pair of linear discharge ports. 16. The method of claim 15,
The air blowing device includes a first bell mouth for guiding the air ventilated by the air conditioning unit to the first turbo fan, a first flow path portion surrounding the upper and lower sides of the first turbo fan, Further comprising: a second bell mouth for guiding the second turbo fan to the second turbo fan; and an air guide having a second flow path surrounding the upper and lower sides of the second turbo fan. 18. The method of claim 17,
The air guide
And a barrier that defines a space for accommodating the first turbo fan and a space for accommodating the second turbo fan. 18. The method of claim 17,
And the discharge body is coupled to the air guide. 16. The method of claim 15,
A first motor installed in the discharge body and rotating the first turbo fan;
And a second motor installed in the discharge body and rotating the second turbo fan.

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