KR101880481B1 - An air discharging unit - Google Patents

Abstract

The air discharge unit of the present invention comprises an outer body; A front inner body connected to a front portion of the outer body; A rear inner body connected to a rear portion of the outer body and forming an outer body and an air passage and forming a front inner body and a ring-shaped air outlet; The outer body is rotatably supported and the outer case for protecting the outer body is minimized so that the direct exposure of the outer body to the outside can be minimized and the damage and breakage of the outer body can be minimized.

Description

An air discharging unit

The present invention relates to an air discharging unit, and more particularly to an air discharging unit having a ring air discharging port.

Generally, the air discharge unit is installed in an air conditioner, a blower, or the like, and can blow air blown out from an air conditioner, a blower, or the like to the outside.

The air discharge unit can form various discharge airflows depending on the shape of the air discharge port, the opening direction, the number, and the like.

Conventionally, the air outlet is mainly formed in a quadrangle. In recent years, the shape of the air outlet has been diversified to improve the performance of the air conditioner, the blower, and the performance.

KR 10-2011-0086876 (2011.08.01)

The conventional air discharge unit has a problem that the outer circumferential surface of the nozzle is exposed to the outside and the nozzle is damaged or damaged.

According to an aspect of the present invention, there is provided an air discharge unit comprising: an outer body; A front inner body connected to a front portion of the outer body; A rear inner body connected to a rear portion of the outer body and forming an air passage with the outer body and forming the front inner body and the ring-shaped air outlet; And an outer case rotatably supported by the outer body and protecting the outer body.

And a rotating mechanism installed in the outer case to rotate the outer body about the vertical axis.

The rotation mechanism includes a motor provided in the outer case, a pinion provided in the motor, And may include a rack in which the pinion is engaged. The rack may be rounded to the outer body.

The outer body may include an air guide formed with an air inlet through which air flows into the outer case, and an air guide formed on the outer periphery of the outer body.

The rotating mechanism may include an upper rotating mechanism rotating the upper portion of the outer body and a lower rotating mechanism rotating the lower portion of the outer body.

The outer case may have an opening through which the air passes.

The outer case may have a receiving space in which the outer body is rotatably received.

The outer case includes a rear outer case having a rear opening formed therein; And a front outer case disposed in front of the rear outer case and having a front opening.

The outer case may further include an outer guide positioned inside the rear outer case and rotatably supporting the outer body together with the front outer case.

The present invention is advantageous in that the outer body is protected by the outer case to minimize damage and breakage of the outer body.

Further, there is an advantage that the entire outer body can be rotated with stability.

1 is a longitudinal sectional view of an air discharge unit according to an embodiment of the present invention,
FIG. 2 is a perspective view showing an embodiment of the air discharge unit according to the present invention, FIG.
3 is an exploded perspective view of an embodiment of the air discharge unit according to the present invention,
4 is a bottom view of an embodiment of the air discharge unit according to the present invention,
5 is a partially cut-away perspective view of an air discharge unit according to an embodiment of the present invention,
6 is a perspective view of one embodiment of an air conditioner having an air discharge unit according to the present invention,
7 is a front view of an air conditioner in which an air discharge unit according to the present invention is installed,
8 is an exploded perspective view of an air conditioner in which an air discharge unit according to the present invention is installed,
9 is a cross-sectional view of an air conditioner in which an air discharge unit according to the present invention is installed,
10 is a longitudinal sectional view of an air conditioner in which an air discharge unit according to the present invention is installed.

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

FIG. 2 is a perspective view showing an embodiment of the air discharging unit according to the present invention, and FIG. 3 is an exploded perspective view of an air discharging unit according to an embodiment of the present invention. 5 is a partially cut-away perspective view of an embodiment of the air discharge unit according to the present invention, and Fig. 6 is a cross-sectional view of an air discharge unit according to the present invention, And FIG.

The air discharge unit (2) is installed in the main body (4) and can discharge the air blown from the main body (4) to the outside.

The air discharge unit 2 may have discharge paths P1, P2, L, D and G for discharging and guiding the air blown from the main body 4 in the forward direction.

The air discharge unit 2 is provided on the side of the main body 4 and can discharge the air blown to the side in the main body 4 toward the front of the air discharge unit 2. [ The air discharge unit 2 can discharge the air blown upward from the main body 4 to the front of the air discharge unit 2 on the main body 4 as shown in Fig. The air discharge unit 2 is provided below the main body 4 and can discharge the air blown downward from the main body 4 to the front of the air discharge unit 2. [ The air discharge unit 2 is provided in front of the main body 4 and can discharge the air blown forward from the main body 4 to the front of the air discharge unit 2. [

The air discharging unit 2 may include a ring-shaped discharging unit 10 and an outer case 12 for protecting the ring-shaped discharging unit 10.

 The ring-shaped discharge unit (10) can be rotatably supported by the outer case (12). The ring-shaped discharge unit 10 can be rotated in the lateral direction about the vertical axis O in the outer case 12.

The ring-shaped discharge unit (10) includes an outer body (14), a rear inner body (30), and a front inner body (40).

The outer body 14 can form the appearance of the ring-shaped discharge unit 10. [ The outer body 14 can protect the rear inner body 30 and the front inner body 40. The outer body 14 may be formed with air inlets 15 and 16 through which air can be introduced into the outer body 14. A plurality of air inlets 15 and 16 may be formed in the outer body 14. [ The air inlets 15 and 16 include an upper air inlet 15 formed at an upper portion of the outer body 14 so as to allow air to pass downwardly and a lower air inlet 15 formed at the lower portion of the outer body 14, And an air inlet 16. The outer body 14 is disposed so as to surround the rear inner body 30 and the front inner body 40 so as to surround the rear inner body 30 and the front inner body 40 . The outer body 14 may be formed in a ball shape whose front and rear surfaces are open as a whole. The outer body 14 may include air guides 17 and 18 formed with air inlets through which air in the outer case 12 flows. The air guides 17 and 18 may include an upper air guide 17 in which an upper air inlet 15 is formed and a lower air guide 18 in which a lower air inlet 16 is formed. The upper air guide 17 and the lower air guide 18 may be hollow cylinders which are opened upward and downward to form an air inlet. Dispersing ribs 19 and 20 for dispersing air may be formed in the upper air guide 17 and the lower air guide 18, respectively. The outer body 14 includes a left outer body 21 which surrounds the left side of the rear inner body 30 and a left side of the front inner body 40 and a left side inner body 21 which surrounds the left inner side of the rear inner body 30, And a right outer body 22 surrounding the right side. The left outer body 21 may be formed to connect the left side of the upper air guide 17 and the left side of the lower air guide 18 and be convex in the left direction. The left outer body 21 may be formed to be round in the vertical direction and the front-rear direction. The right outer body 22 may be formed to connect the right side of the upper air guide 17 and the right side of the lower air guide 18 and be convex to the right side. The right outer body 22 can be formed to be rounded in the vertical direction and the front-rear direction.

The rear inner body 30 may be connected to the rear portion of the outer body 14. The rear inner body 30 forms the air passage P2 with the outer body 14 and forms the front inner body 40 and the ring air outlet L. [

The outer peripheral surface of the rear inner body 30 can form the outer body 14 and the air passage P2. The rear inner body 30 may have an inner space S1 formed therein. The rear inner body 30 can be inserted into the front inner body 40 with its front end 31 inserted therein. A rear end 32 of the rear inner body 30 may be connected to the outer body 14.

The rear inner body 30 includes rear air guides 33 and 34 which form the front inner body 40 and the ring air outlet L and guide the air in the air passage P2 to the ring air outlet L . The rear inner body 30 may further include a rear inner cover 35 to which the rear air guides 33 and 34 are installed and is connected to the outer body 14.

The rear air guides 33 and 34 can form the front inner body 40 and the ring-shaped air discharge opening L while the front part faces the front inner body 40. [ The rear air guides 33 and 34 may be installed such that their tips are positioned inside the front inner body 40. The rear air guides 33 and 34 can form a rear portion of the outer body 14 and the air passage P2. The rear air guides 33 and 34 include a left rear air guide 33 disposed on the left outer periphery of the rear inner cover 35 and a right rear air guide 34 disposed on the right outer periphery of the rear inner cover 35, . ≪ / RTI > When the left rear air guide 33 and the right rear air guide 34 are installed in the rear inner cover 34, the outer peripheral surface can be directed to the outer body 14 and the inner peripheral surface can be directed to the rear inner cover 35 .

A rear end of the rear inner cover 35 may be connected to the outer body 14. The rear inner cover 35 may have an inner space S1 opened in the front and rear direction inside thereof. The rear inner cover 35 may be formed in a cylindrical shape.

The inner peripheral surface of the rear inner cover 35 can be seen through the inner space S1 of the rear inner cover 35 when viewed from the outside. The rear inner cover 35 can function as an inner cover for preventing the rear air guides 33 and 34 from being seen from the outside. The rear inner cover 35 can function as a sealing member for preventing the air in the air passage P2 from flowing out into the gap between the rear air guides 33 and 34 and the outer body 14. [ Since the rear air guides 33 and 34 guide the air in the air passage P2, the shape may be complicated in consideration of the air flow. On the other hand, since the rear inner cover 35 does not directly guide the air in the air passage P2, the shape can be simplified compared with the rear air guides 33 and 34. [ The rear inner body 30 can be more advanced than when the rear air guides 33 and 34 are exposed to the outside as viewed from the outside.

  The outer body 14 and the rear inner body 30 can be coupled with each other by fitting into one of the fitting groove portions formed on any one of the two, and can be fastened with a fastening member such as a screw.

The left rear air guide 33 and the right rear air guide 34 may be formed with rear air guide engaging portions 37A and 37B which can be fastened by a fastening member such as a screw. The rear air guide engagement portions 37A and 37B may include a boss portion 37A formed in the left rear air guide 33 and a boss portion 37B formed in the right rear air guide 34. [ The screw passes through the boss portion 37A formed in the left rear air guide 33 and then is fastened to the boss portion 37B formed in the right rear air guide 34 to be engaged with the left rear air guide 33 and the right rear air guide 34).

The rear air guides 33 and 34 and the rear inner cover 35 may be formed with rear inner body engaging portions 38A and 38B which can be fastened by a fastening member such as a screw. The rear inner body coupling portions 38A and 38B may include a boss portion 38A formed in the rear air guides 33 and 34 and a boss portion 38B formed in the rear inner cover 35. [ The screw is passed through the boss portion 38A formed in the rear air guides 33 and 34 and then is fastened to the boss portion 38B formed in the rear inner cover 35 so that the rear air guides 33 and 34, The cover 35 can be engaged.

The front inner body 40 may be connected to the front portion of the outer body 14. The front inner body 40 may be provided with a front air flow forming portion 41 for guiding and discharging the air discharged to the ring air outlet L in the forward direction. The front airflow forming portion 41 may be formed with a guide space G in which air discharged to the ring-shaped air discharge port L is guided while being guided. The front airflow forming portion 41 may be a hollow cylindrical portion which is opened in the front-rear direction and in which the guide space G is formed inside. The front airflow forming portion 41 may have an air guide surface 42 that is rounded in the circumferential direction and straight in the front-rear direction. The inner air flow D1 of the front airflow forming portion 41 may be formed to be larger than the diameter D2 of the front end 31 of the rear inner body 30. [ The air having passed through the ring-shaped air outlet L is formed so that the inner diameter D1 of the front airflow forming portion 41 is larger than the front end diameter D2 of the rear inner body 30, And the air can be guided in the forward and backward directions along the guide surfaces 42 of the front airflow forming portion 41 so that the airflow can be directed in the forward direction. The front inner body 40 may have its front end protruding forward than the outer body 14.

  The front inner body 40 includes a front discharge body 43 forming a rear inner body 30 and a ring air discharge port L and a front discharge body 43 connected to the front discharge body 43, And may include an air guide 44.

The front discharge body 43 may include a cylindrical portion 45 and a circular plate portion 46 formed at the rear end of the cylindrical portion 45. The disc portion 46 may be formed orthogonally to the rear end of the cylindrical portion 45. The front discharge body (43) may be formed with a rear extension portion (47) having an increased opening area toward the rear. The rear extension portion 47 may be formed of a hollow cylindrical portion in which an air discharge space D through which the air in the air passage P2 is discharged is formed inside. The rear extension 47 may have a rear end larger than the front end. The rear extension 47 may have a smaller diameter toward the front and a larger diameter toward the rear. The front end of the rear extension portion 47 may be connected to the front airflow forming portion 41. The inner surface of the rear extension portion 47 can form the ring-shaped air outlet L together with the rear inner body 30. [ The rear extension portion 47 may be connected to the front airflow forming portion 41 so as to have an obtuse angle? With the front airflow forming portion 41. The front end of the rear extension portion 47 can contact the rear end of the front airflow forming portion 41. [ The front end of the rear extension portion 47 can be engaged with the rear end of the front airflow forming portion 41. It is possible that the fitting groove is formed in one of the front airflow forming portion 41 and the rear extending portion 47 and the other is inserted into the fitting groove portion to be fitted. The front end of the rear extension portion 47 can be adhesively bonded to the rear end of the front airflow forming portion 41.

  The front air guide 44 may be formed with a front extension portion 48 having a front opening at the front end of the front airflow forming portion 41 and having an opening area increased toward the front. The front extension part 48 may be formed of a hollow cylindrical part in which an extension space S2 for enlarging the opening area is formed. The distal end of the front extension 48 may be formed larger than the rear end. The front extension 48 may have a larger diameter toward the front and a smaller diameter toward the rear. The rear end of the front extension portion 48 may be connected to the front end of the front airflow forming portion 41. The front extension 48 may have a curved surface 49.

  The outer body 14 and the front inner body 40 can be coupled to each other through a fitting groove formed in any one of the two, and can be fastened with a fastening member such as a screw.

The front ejection body 43 and the front air guide 44 are provided with front inner body engaging portions 51A and 51B to which the front ejection body 43 and the front air guide 44 can be coupled by a fastening member such as a screw Respectively. The front inner body engaging portions 51A and 51B may include a boss portion 51A formed in the front air guide 44 and a boss portion 51B formed in the front discharge body 43. [ The screw is passed through the boss portion 51A formed in the front air guide 44 and then is fastened to the boss portion 51B formed in the front discharge body 43 so that the front air guide 44 and the front discharge body 43 are engaged can do.

The outer case 12 can form an appearance of the air discharge unit 2. [ The outer case 12 can protect the outer body 14. The outer case 12 can support the outer body 14 in a rotatable manner. The outer case 12 may be formed with guide surfaces 54 and 55 for rotatably guiding the outer surface of the outer body 14 therein. The outer case 12 may have an opening 56 through which at least one surface of the outer case 12 can pass air sucked into the outer case 12. The air discharge unit (2) can be installed on the upper side of the main body (4). The outer case 12 is installed on the upper side of the main body 4 and the opening 56 may be formed on the bottom surface thereof. The outer case 12 can protect the left, upper, and right sides of the outer body 14. Air blown from the main body 4 can be introduced into the outer case 12 through the opening 56 formed in the bottom surface of the outer case 12. [ The outer case 12 may be formed in a hexahedron shape. The outer case 12 may have a receiving space in which the outer body 14 is rotatably received.

 The outer case 12 includes a rear outer case 60; And a front outer case 70 disposed in front of the rear outer case 60.

The rear outer case 60 may constitute a rear portion of the outer case 12. [ The rear outer case 60 can be opened on the front face. The rear outer case 60 may have an opening 56 formed in its bottom surface. The rear outer case 60 may include a left side plate 61 and a right side plate 62 and an upper side plate 63 and a back plate 64. The rear outer case 60 may have a rear opening 65 formed in the rear plate 64. The rear opening 65 can be opened in the front-rear direction. The rear opening 65 can be communicated with the inner space S1 of the rear inner body 30 in the front-rear direction. The rear opening portion 65 can prevent a part of the rear portion of the ring-shaped discharge unit 10 from being restrained by the rear outer case 60 when the ring-shaped discharge unit 10 is rotated. When the ring-shaped discharge unit 10 is rotated in the leftward direction or the rightward direction, the rear portion thereof may protrude rearward of the rear opening portion 65.

The front outer case 70 may constitute a front portion of the outer case 12. [ The front outer case 70 is coupled to the front of the rear outer case 60, and the rear surface thereof can be opened.

The front outer case 70 may have a front guide surface 54 for guiding the outer surface of the outer body 14 and a front supporter 72 for supporting the lower air guide 18 to be rotatable .

The front outer case 70 may have a front opening 75 formed in its front surface. The front opening portion 75 can be opened in the front-rear direction. The front opening portion 75 can prevent the front portion of the ring-shaped discharge unit 10 from being constrained to the front outer case 70 when the ring-shaped discharge unit 10 is rotated. When the ring-shaped discharge unit 10 is rotated in the leftward direction or the rightward direction, the front portion thereof can protrude forward of the front opening portion 75.

The outer case 12 may further include an outer guide 80 for rotatably supporting the outer body 14. The outer guide 80 may be installed inside the rear outer case 60. The outer guide 80 can rotatably support the outer body 14 together with the front outer case 70.

The outer guide 80 may be formed with a rear guide surface 55 for guiding the outer surface of the outer body 14. The outer guide 80 may include a rear upper supporter 82 for rotatably supporting the upper air guide 17 at an upper portion thereof. The outer guide 84 may be formed at the lower portion of the outer guide 80 to rotatably support the lower air guide 18.

The outer guide 80 may be formed with a rear opening 65 of the rear outer case 60 and an inner opening 85 communicating with the front and rear direction at a rear portion thereof. The inner opening portion 85 can prevent the rear portion of the ring-shaped discharge unit 10 from being restrained by the outer guide 80 when the ring-shaped discharge unit 10 is rotated. When the ring-shaped discharge unit 10 is rotated in the leftward direction or the rightward direction, the rear portion thereof may protrude rearward of the inner opening portion 85.

The outer case 12 may have an air passage P1 through which the air that has flowed into the outer case 12 through the opening 56 of the outer case 12 is guided. The air passage P1 can be formed such that the air flowing through the opening 56 flows into the air passage P2 of the ring-shaped discharge unit 10. [ The air passage P1 may be formed between the rear outer case 60 and the outer guide 80.

The outer case 12 may be formed with a shielding portion 88 that prevents the air in the air passage P1 from flowing out into the gap between the front outer case 70 and the outer body 14. [ The shielding portion 88 may protrude from the outer guide 80.

 The air discharging unit 2 may include a rotating mechanism 90 or 92 installed on the outer case 12 to rotate the outer body 14 about the vertical axis O from side to side.

The rotation mechanisms 90 and 92 may include an upper rotation mechanism 90 for rotating the upper portion of the outer body 14 and a lower rotation mechanism 92 for rotating the lower portion of the outer body 14. [ The upper body of the outer body 14 is rotated by the upper rotation mechanism 90 and the lower portion is rotated by the lower rotation mechanism 92 so that the entire upper and lower parts can be rotated in a stable manner.

The rotating mechanisms 90 and 92 may include a motor 94 provided in the outer case 12, a pinion 96 provided in the motor 94, and a rack 98 in which the pinion 96 is engaged .

The rack 98 may be rounded to the outer body 14. The rack 98 may be rounded on the outer circumferential surface of the air guides 17 and 18 of the outer body 14.

The operation of the air discharge unit constructed as described above will be described below.

 First, when air is blown from the main body 4 to the air discharge unit 2, the air can flow into the air discharge unit 2 through the opening 56. A part of the air that has passed through the opening 56 flows into the lower portion of the air passage P2 of the ring-shaped discharge unit 10 through the lower air inlet 16 of the lower air guide 18, And then flows into the upper portion of the air passage P2 of the ring-shaped discharge unit 10. The upper air guide 15 is provided with an upper air guide 15,

The air introduced into the lower portion of the air passage P2 of the ring-shaped discharge unit 10 is discharged through the lower portion of the ring-shaped air discharge port L while being dispersed horizontally, The air is discharged through the upper portion of the ring-shaped air discharge opening L while being dispersed horizontally.

The air discharged to the ring-shaped air discharge port (L) is discharged and guided in the forward direction while being guided by the front inner body (40).

On the other hand, the rotating mechanisms 90 and 92 can stop the outer body 14 after rotating the outer body 14 in either the left or right direction. The rotary mechanisms 90 and 92 are capable of swinging the outer body 14 in the left and right direction.

When the motor 94 of the rotating mechanism 90 or 92 is driven, the pinion 96 is rotated and the lower air guide 18 in which the rack 98 is formed and the upper air guide 17 are rotated together. The left outer body 21 and the right outer body 22 are rotated together with the lower air guide 18 and the upper air guide 17 when the lower air guide 18 and the upper air guide 17 are rotated. The front inner body 40 and the rear inner body 30 are rotated together with the outer body 14. The air introduced into the air passage P1 of the outer case 12 during the rotation of the ring-shaped discharge unit 10 is formed in the upper air inlet 15 and the lower air guide 18 formed in the upper air guide 17 The air introduced into the air passage P2 of the ring-shaped discharge unit 10 through the lower air inlet 16 and then discharged through the ring-shaped air discharge port L is discharged to the front inner body And is discharged and guided in the forward direction while being guided by the discharge port (40).

FIG. 7 is an exploded perspective view of an air conditioner in which an air discharging unit according to the present invention is installed, FIG. 8 is an exploded perspective view of an air conditioner in which an air discharging unit according to the present invention is installed, 10 is a longitudinal sectional view of an embodiment of an air conditioner in which an air discharging unit according to the present invention is installed. FIG. 10 is a longitudinal sectional view of an air conditioner in which an air discharging unit is installed.

The main body 4 may be formed with an air inlet 102 through which external air is sucked. The main body 4 may include an air blowing unit 130 for sucking air into the air suction port 102 and blowing air to the air discharge unit 2. [ The main body 4 may further include a heat exchanger 140 for exchanging heat between the air sucked into the air inlet 102 and the refrigerant. The main body 4 may further include a purifying unit 146 for purifying the air.

The main body 4 can be constituted by a fan having the air inlet 102 formed therein and including the blowing unit 130. [ The main body 4 may be constituted by a radiator or a radiator in which an air intake port 102 is formed and includes a blowing unit 130 and a heat exchanger 140. [ The main body 4 can be constituted by an air purifier in which an air inlet 102 is formed and includes a blowing unit 130 and a purifying unit 146. Hereinafter, the main body 4 will be described as having the air inlet 102 formed therein and including both the air blowing unit 130, the heat exchanger 140, and the purifier unit 146.

The main body 4 may have an air inlet 102 formed at the rear of the main body. The air in the room can be sucked into the main body 102 through the air inlet 102 at the rear position of the main body 4. [ Hereinafter, the air inlet 102 will be referred to as a rear air inlet 102.

 The main body 4 may be formed with an air outlet 104 through which the air inside the main body 4 can be discharged separately from the ring-shaped air outlet L. A part of the air sucked into the rear air intake port 102 can be discharged from the main body 4 to the outside of the main body 4 through the air discharge port 104 and the remaining air flows into the air discharge unit 2, Can be discharged to the front of the discharge unit (2).

The main body 4 includes a suction panel 110 having a rear air inlet 102 formed therein; And a discharge panel 120 disposed in front of the suction panel 110 and having an air discharge port 104 formed therein.

The suction panel 110 may include a thick plate 111, a left plate 112 formed on the left side of the thick plate 111 and a right plate 113 formed on the right side of the thick plate 111. The suction panel 110 may be opened on the upper surface. The suction panel 110 may be formed in the rear plate 111 such that the rear air inlet 102 is opened in the front-rear direction. The suction panel 110 may include a heat exchanger accommodating space for accommodating the heat exchanger 140 between the left and right side plates 112 and 113. The suction panel 110 may further include a lower plate 114 on which the heat exchanger 140 is mounted.

The discharge panel 120 may include a front plate 121, a left plate 122 formed on the left side of the front plate 121 and a right plate 123 formed on the right side of the front plate 121. The discharge panel 120 can be opened on the upper surface. The discharge panel 120 can be clogged. The discharge panel 120 may have an air discharge opening 104 formed in at least one of the left side plate 122 and the right side plate 123. It is preferable that the discharge panel 120 is provided with an air discharge opening 104 in each of the left side plate 122 and the right side plate 123. The air discharge port 104 may be formed long in the discharge panel 120 in the vertical direction.

The air conditioner may be configured as a stand type air conditioner, and the air conditioner may further include a base 126 on which the suction panel 110 and the discharge panel 120 are lifted. The air conditioner may have a suction panel 110 installed on the rear side of the base 126 and a discharge panel 120 on the front side of the base 126. The base 126 may be open on the front side.

The air blowing unit 130 may be installed in front of the heat exchanger 140. The air blowing unit 130 may include a centrifugal blowing unit 130 that sucks air in the rear and blows air in the circumferential direction. The air blowing unit 130 is installed in the discharge panel 120 and can blow air to the air discharge port 104 and the air discharge unit 2. [

The air blowing unit 130 includes an upper blowing unit 131 for sucking air into the air suction port 102 and blowing air to the air discharge port 104 and the air discharge unit 2; And a lower air blowing unit 132 for sucking air into the air suction port 102 and blowing air to the air discharge port 104.

The upper air blowing unit 131 is connected to the upper motor 133 installed on the discharge panel 120 so as to be located at the upper front of the heat exchanger 140 and a rotary shaft connected to the upper motor 133, And an upper turbo fan 134 for blowing air to the upper turbo fan 134.

The lower air blowing unit 132 is connected to the lower motor 135 installed on the discharge panel 120 so as to be located in the lower front of the heat exchanger 140 and the lower motor 135 connected to the rotary shaft, (Not shown).

A partition guide 137 for partitioning the flow path of the upper air blowing unit 131 and the flow path of the lower air blowing unit 132 and guiding air can be disposed inside the main body 4. [ The uppermost surface of the partition guide 137 guides the air to be flowed by the upper air blowing unit 131, and the lower surface thereof guides air flowing by the lower air blowing unit 132. The partitioning guide 137 may be formed between the left side plate 122 and the right side plate 123 of the discharge panel 120. [

The blowing unit 130 may include an orifice 138 for guiding the air that has passed through the heat exchanger 140 to the blowing unit 130. The orifice 138 may be formed with an upper guide hole 139A for guiding the air passing through the upper portion of the heat exchanger 140 to the upper air blowing unit 131. The orifice 138 may be formed with a lower guide hole 139B for guiding the air that has passed through the lower portion of the heat exchanger 140 to the lower air blowing unit 132

The heat exchanger 140 may be installed in front of the rear air inlet 102. The heat exchanger 140 may be installed vertically at a position between the left and right side plates 112 and 113 of the suction panel 110 and may be mounted on the lower plate 114 of the suction panel 110 .

The purifier unit 146 may be installed in the suction panel 110 and may include at least one filter disposed in front of the air inlet 102 to purify the air sucked into the air inlet 102, It is possible to purify the air sucked toward the air inlet 102 by including at least one filter disposed behind the air inlet 102.

The air discharge unit 2 can be installed so that the opening 56 of the outer case 6 communicates with the inside of the main body 4. [ The air discharge unit 2 may be installed above the suction panel 110 and above the discharge panel 120. The air blown upward in the suction panel 110 and in the upward direction of the discharge panel 120 can flow into the air discharge unit 2 through the opening 56 in the body 4. The rear outer case 60 may be mounted on the upper portion of the suction panel 110 and the upper portion of the suction panel 110. The rear outer case 60 may be installed on the suction panel 110 with a fastening member such as a screw. The front outer case 70 may be mounted on the upper part of the discharge panel 120 and installed on the upper part of the discharge panel 120. The front outer case 70 may be provided on the upper portion of the discharge panel 120 with a fastening member such as a screw.

 The main body 4 may include a side cover 150 that covers the side surface of the discharge panel 120 and the side surface of the outer case 12 together. The side cover 150 may cover the boundary between the side surface of the discharge panel 120 and the side surface of the outer case 12. [ The side cover 150 may be formed long in the vertical direction and may cover the front side surface of the base 126 together with the side surface of the discharge panel 120 and the side surface of the outer case 12. The side cover 150 may include a vertical plate 154 formed to be vertically elongated and a horizontal plate 156 bent at an upper portion of the vertical plate 154. The vertical plate 154 may cover the front side surface of the base 126, the side surface of the discharge panel 120, and the side surface of the outer case 12. The horizontal portion 156 may cover a part of the upper surface of the outer case 12. The side cover 150 may be formed with an air discharge hole 152 communicating with the air discharge opening 104. The main body 4 may include a wind direction adjusting member 158 and a wind direction adjusting motor (not shown) on one of the discharge panel 120 and the side cover 150. The airflow direction control member 158 can control the airflow direction of the air discharged to the air discharge port 104, and can open and close the air discharge port 104. The wind direction adjusting motor can rotate the wind direction adjusting member 158.

 The main body 4 may include a front cover 160 that covers the front surface of the discharge panel 120 and the front surface of the outer case 12 together. The front cover 160 may cover the boundary between the front surface of the discharge panel 120 and the front surface of the outer case 12. The front cover 160 may be elongated in the vertical direction and may cover the front surface of the base 126 together with the front surface of the discharge panel 120 and the front surface of the outer case 12. The front cover 160 may have an opening hole 162 larger than the ring-shaped air outlet L. The opening hole 162 may be formed larger than the front airflow forming portion 41. The opening hole 162 may be formed larger than the front extension portion 48. The front cover 160 may be provided so as to cover other than the front extension portion 48 of the air discharge unit 2.

 Hereinafter, the operation of the air conditioner will be described.

First, when the air blowing unit 130 is driven, the air in the room is sucked to the rear of the rear air intake port 102, and is sucked into the main body 4 through the rear air intake port 102. The air sucked into the main body 4 is heat-exchanged with the refrigerant while passing through the heat exchanger 140 in the front-rear direction, and then sucked into the air blowing unit 130. The air sucked by the air blowing unit 130 is blown in the circumferential direction by the air blowing unit 130. A part of the air blown in the circumferential direction of the air blowing unit 130 is blown to the side of the air blowing unit 130 and flows to the air discharge port 104 and is discharged to the outside of the main body 4 through the air discharge port 104 . The rest of the air blown in the circumferential direction of the air blowing unit 130 is blown upward between the suction panel 110 and the discharge panel 120 and sucked into the air discharge unit 2 through the opening 56 . The air sucked into the air discharge unit 2 passes through the ring-shaped air discharge port L and the air discharge space D in order and is discharged to the front airflow forming portion 41. The front airflow forming portion 41 Is guided by the air guide surface (42) of the front airflow forming portion (41) while being guided through the guide space (G), and is discharged and guided in the direction toward the guide space (G).

2: air discharge unit 12: outer case
14: outer body 15, 16: air inlet
17, 18: Air guide 56:
60: rear outer case 65: rear opening
70; Front outer case 75: front opening
80: outer guide 90, 92:
94: motor 96: pinion
98: rack L: ring air outlet
P2: Air passage

Claims (9)

An outer body;
A front inner body connected to a front portion of the outer body;
A rear inner body connected to a rear portion of the outer body and forming an air passage with the outer body and forming the front inner body and the ring-shaped air outlet;
And an outer case which is rotatably supported around the vertical axis and protects the outer body,
Wherein the outer body comprises:
A left outer body surrounding the left side of the rear inner body and the left side of the front inner body,
A right outer body surrounding the right side of the rear inner body and the right side of the front inner body,
The upper air guide is disposed between the upper end of the left outer body and the upper end of the right outer body and has an upper air inlet through which the air passes downward and is rotatable around the vertical axis. Wow,
A lower air inlet is disposed between the lower end of the left outer body and the lower end of the right outer body so as to be opposed to the upper air guide and through which the air passes upwardly and is rotatable about the vertical axis, And a lower air guide supported by the lower air guide. The method according to claim 1,
And a rotating mechanism installed in the outer case and rotating the outer body in the left-right direction about a vertical axis. 3. The method of claim 2,
The rotating mechanism
A motor provided in the outer case,
A pinion installed in the motor;
And a rack in which the pinion is engaged,
Wherein the rack is roundly formed on the outer body. The method of claim 3,
Wherein the rack is formed on an outer peripheral surface of each of the upper air guide and the lower air guide. 3. The method of claim 2,
The rotation mechanism includes an upper rotation mechanism for rotating the upper portion of the outer body,
And a lower rotating mechanism for rotating the lower portion of the outer body. The method according to claim 1,
Wherein the outer case has an opening through which air passes on a bottom surface thereof. The method according to claim 6,
Wherein the outer case has a receiving space in which the outer body is rotatably accommodated. The method according to claim 1,
The outer case includes a rear outer case having a rear opening formed therein;
And a front outer case disposed in front of the rear outer case and having a front opening formed therein. 9. The method of claim 8,
Wherein the outer case further includes an outer guide disposed inside the rear outer case and rotatably supporting the upper air guide and the lower air guide together with the front outer case.

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