KR20090047225A - Air conditioner - Google Patents

Abstract

Air conditioner according to the present invention and the air inlet is formed; An elevating discharge opening body disposed to be elevated on the main body and having an air discharge opening for discharging air blown from the main body to the outside; An elevating mechanism for elevating the elevating discharge port body; A diffuser body disposed on the elevating discharge body so as to rotate in a left and right direction, and a plurality of left and right vanes rotated in a left and right direction; A vane rotating mechanism provided on the diffuser body to rotate the plurality of left and right vanes left and right; Including a diffuser body rotating mechanism installed on the lifting discharge port body to rotate the diffuser body to the left and right, it is possible to discharge the air-conditioning air to the front side as possible, and the right and left wind direction control range is increased to spread the air-conditioning air as wide as possible , More three-dimensional cooling and heating is possible advantage.

Air conditioner, indoor unit, discharge, vane, rotation, solid

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which a three-dimensional cooling / heating can be more effectively performed by expanding a discharge range of heat-exchanged air.

In general, an air conditioner is used to cool or heat a room or purify the air by using a refrigeration cycle of a refrigerant consisting of a compressor, a condenser, an expansion mechanism, and an evaporator to create a more comfortable indoor environment for a user. .

The separate type and the integrated type are functionally the same, but the separate type connects the indoor unit and outdoor unit separated by refrigerant pipes by installing a cooling / heating unit in an indoor unit and a heat radiating / cooling and compression unit in an outdoor unit. The function is integrated by drilling holes in the walls of the building or by installing the device on the window.

20 is a perspective view showing an air conditioner according to the prior art.

Referring to FIG. 20, an indoor unit 600 of a conventional air conditioner includes a main body, a blower installed inside the main body to suck and discharge air, and a heat exchanger to heat or cool the air blown by the blower. do.

The main body includes a cabinet 601 having an open front, a front upper panel 602 coupled to an upper front of the cabinet 601, a front lower panel 603 coupled to a lower front of the cabinet 601, and a cabinet ( A base 604 on which the 601 and the front lower panel 603 are mounted, and a suction panel 605 coupled between the cabinet 101 and the front lower panel 603 and formed with an air inlet.

A front air outlet 602a is formed on the front surface of the front upper panel 602, and side air outlets 602b are formed on both inclined sides.

21 is a cross-sectional view taken along the line B-B in FIG. 20. Referring to FIG. 21, a plurality of vanes 610 to be discharged are mounted in the front air outlet 602a and the side air outlet 602b.

The air conditioner 600 as described above, after the air sucked through the air inlet is heated / cooled by the heat exchanger when the blower is driven, the air conditioner 600 of the indoor unit through the front air outlet 602a and the side air outlet 602b. Discharged to the top. At this time, the vane 610 is rotated to adjust the discharge direction of air.

However, since the indoor unit of the air conditioner according to the related art is controlled only by the rotation of the vane 610, the discharge direction of the air is limited, so there is a problem in that the three-dimensional cooling / heating is limited.

An object of the present invention is to provide an air conditioner that can be more efficiently made three-dimensional cooling / heating.

The present invention and the air inlet is formed; An elevating discharge opening body disposed to be elevated on the main body and having an air discharge opening for discharging air blown from the main body to the outside; An elevating mechanism for elevating the elevating discharge port body; A diffuser body disposed on the elevating discharge body so as to rotate in a left and right direction, and a plurality of left and right vanes rotated in a left and right direction; A vane rotating mechanism provided on the diffuser body to rotate the plurality of left and right vanes left and right; And a diffuser body pivoting mechanism provided at the elevating discharge port body to pivot the diffuser body left and right.

The diffuser body rotating mechanism includes a rotating shaft provided perpendicular to the diffuser body, and a diffuser body motor installed at the lifting discharge body and coupled to the rotating shaft to rotate the rotating shaft.

The lifting outlet body has a lower surface and a front surface and is formed to block left, right sides, and a rear surface thereof, and the diffuser body is disposed to be located inside the lifting body of the lifting outlet body and is narrower than the lifting outlet body. do.

 The present invention is the air inlet and the air discharge port formed body; A diffuser body disposed to be rotated in the left and right directions at the air discharge port and having a plurality of left and right vanes rotated; A vane rotating mechanism provided on the diffuser body to rotate the plurality of left and right vanes left and right; And a diffuser body pivoting mechanism installed in the main body to pivot the diffuser body left and right.

The diffuser body rotating mechanism includes a rotating shaft provided perpendicular to the diffuser body and a diffuser body motor installed on the main body and coupled to the rotating shaft to rotate the rotating shaft.

The diffuser body pivoting mechanism includes a rack provided in one of the main body and the diffuser body, a pinion provided in the other of the main body and the diffuser body and engaged with the rack, and a motor for rotating the pinion. .

In the air conditioner according to the present invention, the vane is rotatably disposed on the diffuser body and the diffuser body itself is rotated in the left and right directions so that the diffuser is fixedly installed and the vane is rotatably disposed or the diffuser is rotatable. When installed and the vanes are fixedly installed, air conditioning air can be discharged to the front side as much as possible, and the left and right wind direction control range can be increased to spread the air conditioning air as broadly as possible, thereby providing more three-dimensional cooling and heating.

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

1 is a perspective view when an embodiment of the air conditioner according to the present invention is stopped, FIG. 2 is a perspective view when an embodiment of the air conditioner according to the present invention is in operation, and FIG. 3 is an air conditioner according to the present invention. 4 is a bottom exploded cross-sectional view of an embodiment of an air conditioner according to the present invention, and FIG. 5 is a top plan cross-sectional view of an embodiment of an air conditioner according to the present invention.

In the air conditioner according to the present embodiment, as shown in FIGS. 1 to 5, the air inlets 4 and 6 through which the air in the room is sucked are formed in the main body 2 and inside the main body 2. Air outlets 8 and 10 are provided for discharging air-conditioned air such as heated, cooled, or purified air, and can be applied to any case such as a stand-type air conditioner, a wall-mounted air conditioner, or a ceiling-type air conditioner. For convenience, the stand type air conditioner will be described as an example.

The main body 2 has air inlets 4 and 6 formed at the lower part, and air outlets 8 and 10 formed at the upper part thereof. It has a flow path for discharging the air conditioned through the base, and includes a base 12, a cabinet 20, a lower panel 30, 40, and an upper panel 50.

The base 12 forms an outer appearance of the bottom of the main body 2 and supports the cabinet 20, the lower panel 30, 40, and the like.

The cabinet 20 forms the exterior of the rear part of the main body 2, and is composed of the rear plate part 22, the left part 24, and the right part 26, and is installed to be located above the rear part of the base 12. do.

In the cabinet 20, the left part 24 and the right part 26 may be bent at right angles to the rear plate part 22, and the cabinet 20 may be bent at an angle to the rear plate part 22 in a direction in which the width thereof gradually increases away from the front part. Of course it is possible.

The lower panel 30, 40 is composed of a left lower panel 30 having a left air inlet 4 and a right lower panel 40 having a right air inlet 6.

The lower left panel 30 is disposed to be disposed above the left side of the front portion of the base 12, which is the lower front position of the left portion 24 of the cabinet 20, and the left air intake port 4 is formed in an opening in the left-right direction or the left front side. It is formed to open in the direction, the left filter case 34 to which the left filter 32 is mounted.

The lower right side panel 40 is installed to be disposed on the right side of the front side of the base 12, which is the lower front position of the right side 26 of the cabinet 20, and the right air inlet 8 is formed to be opened in the left and right directions or to the right side. The right filter case 44 is formed to be opened in the forward direction and to which the right filter 42 is mounted.

The upper panel 50 is disposed at the front upper part of the cabinet 20, and consists of approximately the front plate portion 52, the left portion 53, and the right portion 54.

The upper panel 50 has a left discharge part 55 inclined with respect to the front plate part 52 and the left part 53 between the front plate part 52 and the left part 53, and is provided on the left discharge part 55. The left air outlet 8 is opened in the left or right direction, or is formed in the left front direction, and the left wind direction adjusting unit 92 is provided to protrude into the left panel 90 when the left panel 90 is described later. It is recessed in the inward direction of the main body 2 so that it may be received.

The upper panel 50 has a right discharge part 56 inclined with respect to the front plate part 52 and the right part 54 between the front plate part 52 and the right part 54, and the right discharge part. The right air discharge opening 10 is formed in the right air discharge port 10 in the left and right directions or is formed in the right front direction, and the right wind direction adjusting part provided to protrude in the right panel 100 when the right panel 100 is closed, which will be described later. 102 is recessed in the inward direction of the main body 2 to be inserted and received.

The main body 2 is provided with a front cover 60 in front of the upper panel 50.

Here, the front cover 60 is installed to shield the front of the upper panel 50, is formed in a rectangular plate shape as a whole, a part of the left side shields the front of the left discharge unit 55, a part of the right side discharges the right The front of the part 56 is shielded.

Here, the front cover 60 is a kind of preventing the air passing through the left air outlet 8 and the right air outlet 10 from being directed toward the left panel 90 and the right panel 100 without going straight ahead. It serves as an air guide, and when the left panel 90 and the right panel 100 are in the closed position, a kind of shield member that prevents the left wind direction control unit 92 and the right wind direction control unit 102 from being visible from the front. Play a role.

In addition, the front panel 70 is connected to the front of the main body 2 to be rotated to the center to one side of the left and right.

 The front panel 70 forms a front side appearance of the air conditioner, and is rotatably connected to at least one of the base 12 and the lower left panel 30 and the lower right panel 40 and the upper panel 50. The top panel 50 and the front cover 60 are disposed to open and close between the front portion of the base 12.

The inside of the main body 2 includes a blower for generating a blowing force to suck the indoor air into the main body 2 and to be discharged to the outside of the main body 2, and the air blown from the blower 310 to the refrigerant. And a heat exchanger 75 for heat exchange.

The blower is a centrifugal blower installed in the inner lower portion of the main body 2 and sucks air in front or rear of the blower and blows it upwards, and includes a fan motor 76 and a fan motor 76 having the rotating shaft protruding in the front-rear direction. A fan housing 78 connected to a rotating shaft of the fan housing, a fan housing 78 having an opening formed at one side of the front and rear surfaces, surrounding the blower fan 77 and the fan motor 76, and having a discharge port formed thereon, and a fan housing ( Orifice 79 disposed in the opening of 78).

The heat exchanger 75 is installed to be located above the blower, in particular the fan housing 78.

On the other hand, the main body 2 is provided with side panels 90 and 100 for guiding air while opening and closing at least one of the air inlets 4 and 6 and the air outlets 8 and 10.

Hereinafter, the side panels 90 and 100 open and close the air inlets 4 and 6 and the air outlets 8 and 10 at the same time, and guide both the intake air and the discharge air. It is formed long.

That is, the side panels 90 and 100 serve as suction vanes for opening and closing the air inlets 4 and 6 and guide the air sucked into the air inlets 4 and 6, respectively. It opens and closes the air discharge ports 8 and 10 and serves as a discharge vane for guiding the air discharged to the air discharge ports 8 and 10 and is formed to be long in the vertical direction as a whole.

The side panels 90 and 100 simultaneously open and close the left air inlet 4 and the left air inlet 8, guide the air sucked into the left air inlet 4, and discharge through the left air inlet 8. The left panel 90 and the right air inlet 6 and the right air outlet 10 are opened and closed at the same time, guide the air sucked into the right air inlet 6, and the right air outlet 10 It consists of a right panel 100 for guiding the air discharged through.

The left panel 90 is moved to the right side around the center of rotation perpendicular to the outside of the main body 2, in particular at the front left position of the main body 2, so that the left air inlet 4 and its periphery and the left air outlet 8 ) And the periphery thereof together to close the left air inlet 4 and the left air outlet 8 together, and at the position to cover both the left air inlet 4 and the left air outlet 8, It is moved to the left side toward the center to open the left air inlet 4 and the left air outlet 8 together, and is arranged to guide the sucked air and the discharged air.

In addition, the left panel 90 adjusts the wind direction of the air discharged through the left air discharge port 4 when opened at a position corresponding to the left air discharge port 8, and inserts it into the left discharge part 55 when closed. The left wind direction control unit 92 to be received is provided to protrude.

On the other hand, the right panel 100 is moved to the left side around the center of rotation perpendicular to the outside of the main body 2, especially at the front right side of the main body 2, so that the right air intake 6 and its surroundings and right air are moved. By covering both the outlet 10 and its periphery together, the right air inlet 6 and the right air outlet 10 are closed together and rotated vertically at a position covering the right air inlet 6 and the right air outlet 10. It is moved to the right around the center to open the right air inlet 6 and the right air outlet 10 together, and is arranged to guide the sucked air and the discharged air.

In addition, the right panel 100 adjusts the wind direction of the air discharged through the right air outlet 10 when opened at a position corresponding to the right air outlet 10, and is inserted into the right outlet 56 when closed. The right wind direction control unit 102 to be received is provided to protrude.

On the other hand, each of the left panel 90 and the right panel 100 is not easy to produce and transport when composed of a single member long in the up and down direction, a part is shaken when installed on the main body (2) On the other hand, when the entire body is vertically long and composed of an assembly in which a plurality of members are coupled to each other, the production and transportation of each member is easy, and the shaking and bending of parts are minimized when installed on the main body 2. Hereinafter, each of the left panel 90 and the right panel 100 will be described as being composed of a plurality of members 120, 130, and 140.

Meanwhile, in the air conditioner according to the present embodiment, as shown in FIGS. 2 and 3, the discharge unit 80 having the air discharge port 78 is raised above the main body 2 from the inner upper part of the main body 2. It is installed to descend to the inside of the main body 2 from the main body 2.

Here, the main body 2 has an opening surface in which the entire upper surface thereof is opened in the vertical direction, or an opening opening in the upper and lower direction is formed on the upper surface thereof, and the discharge port unit 80 is used to open the opening surface or the opening of the main body 2. Driven up and down.

The main body 2 is provided with a lifting guide 82 through which the discharge port unit 80 is lifted and guided, and the discharge port unit 80 is lifted and guided up and down by the lift guide 82 to raise the air to the upper position of the lift guide 82. The discharge port 78 is opened / exposed or lowered to the inside of the lifting guide 82 to cover the upper surface of the lifting guide 82, that is, the upper surface of the main body 2, and seal the air discharge port 78.

Here, the elevating guide 82 is installed so as to be located above the upper part of the space between the cabinet 20 and the upper panel 52, in particular, the heat exchanger 310, the elevating guide 82 is the cabinet of the elevating guide 82 An upper decorative member 84 covering the portion projecting upward between the 20 and the upper panel 52 is provided.

Here, the discharge port unit 80 is operated by the lifting mechanism (not shown), so that the lifting mechanism will be described later.

FIG. 6 is an exploded perspective view showing an outlet unit of an embodiment of an air conditioner according to the present invention, and FIG. 7 is a partial longitudinal cross-sectional view of the outlet unit of an embodiment of the air conditioner according to the present invention in an elevated state. 8 is a front sectional view of the discharge port unit shown in FIG.

As shown in FIGS. 6 to 8, the elevating guide 82 has an upper surface and a lower surface open so that the air outlet unit 80 is lowered therein and the air blown to the upper portion of the main body 2 passes therethrough. It consists of a box body opened up and down.

The lifting mechanism 150 is composed of a drive source and a power transmission unit which moves up and down the discharge port unit 80 in conjunction with the drive source. The drive source and the power transmission unit are partially installed in the discharge port unit 80, and the rest is provided in the main body 2. It will be described below, provided in the discharge port unit 80 and the lifting guide 82.

The lifting mechanism 150 includes a driving source formed of a motor 152, a driving gear 154 connected to a power transmission unit of the motor 152, a driven gear 156 in which the driving gears are engaged, and a driving gear 154. ) Is composed of a pinion connected to the pivot of the motor 152, and the driven gear 156 is composed of a rack formed long in the vertical direction.

The lifting mechanism 150 may include a motor 152 installed in the lifting guide 82 and a driven gear 156 installed in the discharge port unit 80. On the contrary, the motor 152 is installed in the discharge port unit 80. It is also possible that the driven gear 156 is installed in the lifting guide 82, and the following gear 156 is installed in the lifting guide 82, the motor 152 is installed in the discharge port unit 80 It demonstrates only that it raises and falls with the discharge port unit 80 at the time of the drive.

  The driven gear 156 may be integrally protruded from the inner wall of the circumferential portion of the elevating guide 82, or may be installed to protrude by being fastened by a fastening member such as a screw to the inner wall of the circumferential portion of the elevating guide 82. , Hereinafter, the receiving portion 157 formed to protrude on the inner wall of the elevating guide 82; It will be described as including a gear portion 158 slidingly inserted into the receiving portion 157 and fastened with a fastening member such as the receiving portion 157 and a screw and to which the driving gear 160 is engaged.

 The discharge port unit 80 has a groove 86 which is guided along the driven gear 156 or the driven gear 156 is avoided and is formed long in the vertical direction, and a motor cover 159 covering the motor 152 is coupled to the lower portion thereof. do.

The discharge port unit 80, as shown in Figs. 6 to 8, the elevating discharge port body 210, the left and right vanes 220, 230, 240, 250, and the left and right vane rotating mechanism 260 and And a diffuser body 270, upper and lower vanes 300, upper and lower vane rotating mechanisms 310, and a diffuser body rotating mechanism 400.

The elevating discharge opening body 210 discharges air in at least one of the front, rear, left, and right sides of the main body after the air blown through the inner upper portion of the main body 2 passes, such as the front, left, and right sides. It is also possible to have a flow path structure for discharging and discharging in various directions, and it is also possible to have a flow path structure for discharging in one direction such as the front and the like. Hereinafter, the front and lower surfaces are opened, and both left and right sides and the rear surface are clogged. It demonstrates that it has a flow path structure which discharges the raised air to the front direction.

The elevating discharge opening body 210 has a flow path structure in which the air blown from the inside of the main body 2 rises from the bottom and the flow direction is bent in the forward direction, and then discharged to the front of the discharge opening unit 80. In addition, the left, right, rear, upper surface is blocked, and a flow path through which air passes between the bottom and front is formed.

The elevating discharge opening body 210 is provided with a flow path guide 211 at the rear side of the inside for guiding air from below.

When the elevating discharge port body 210 is lowered to the inside of the main body 2, in particular to the inside of the elevating guide 82, the upper surface of the elevating guide 82 while covering the upper surface of the main body 2, in particular, the upper surface of the air conditioner. The external appearance of the bar is formed, the upper portion of the electric field unit 212 in which various electric components such as a motor, a PCB, etc. are installed is formed so that the upper surface is opened, the upper surface of the air conditioner while covering the upper surface of the electric unit 212 The top cover 213 is formed to form the upper appearance of the.

The left and right vanes 220, 230, 240, 250 and the upper and lower vanes 300 are positioned before and after the inside of the lifting outlet body 210, and the flow path structure of the lifting outlet body 210 is the main body 2. Since the flow path structure for converting the air blown from the inside in the forward direction to discharge to the front of the discharge port unit 200, the left and right vanes 220, 230, 240, 250 having a vertical guide surface is located in the rear Up and down vanes 280 with horizontal guide surfaces are positioned in front.

The left and right vanes 220, 230, 240, and 250 are arranged to be left and right pivotable about a rotation axis perpendicular to the inside of the elevating discharge body 210, and the air is passed through the elevating discharge body 210. As a guide in the arrangement direction, a plurality of them are arranged to be spaced apart in the left and right directions so as to diffuse the air conditioning air from side to side.

The left and right vanes 220, 230, 240, 250 are rotated about one of the plurality of 230 (230) around the vertical axis by the left and right vane rotating mechanism 260, the remaining 220, 240, 250 It is rotated about a vertical axis in conjunction with the left and right vanes 230 that are rotated. Hereinafter, the left and right vanes directly rotated by the left and right vane rotating mechanism 260 are referred to as drive vanes 230, and the other left and right wind direction vanes rotated in association with the drive vanes 230 are driven vanes 220, 240, and 250. Explain.

Here, the driving vane 230 is provided with a rotating shaft 232 connected to the left and right vane rotating mechanism 260 on one side of the upper and lower sides, and the rotating shaft 234 rotatably supported by the diffuser body 270 on the other side of the upper and lower sides. ) Is provided, and a connecting shaft 236 for connecting the driven vanes 220, 240, 250 and the interlocking member 264 is formed.

In addition, the driven vanes 220, 240, and 250 are provided with rotating shafts 222, 224, 242, 244, 252, and 254, respectively, on the upper side and the lower side, and interlock with the driving vane 230. Connecting shafts 226, 246, 256 for connecting to the member 264 are formed.

Here, the interlocking member 264 causes the driven vanes 220, 240, 250 to rotate in the same direction together with the driving vanes 230 when the driving vanes 230 are rotated by the left and right vane rotating mechanisms 260. As a kind of connecting link, the left and right vane rotating mechanism 260 is configured together with the left and right wind direction control motors to be described later.

The interlocking member 264 is disposed long in the lateral direction at the lower rear position of the left and right vanes 220, 230, 240, 250, and the connecting shafts of the left and right vanes 220, 230, 240, 250 ( The connection holes 265, 266, 267 and 268 to which 226, 236, 246 and 256 are inserted are connected so as to be spaced apart by the left and right vanes 220, 230, 240 and 250. Is formed.

The left and right vanes 220, 230, 240, 250 are rotatably supported by the upper pivot shafts 222, 242, 252 of the driven vanes 220, 240, 250 with the diffuser body 270. The lower pivot shaft 234 of the driving vane 230 and the lower pivot shafts 224, 244, 254 of the driven vanes 220, 240, 250 are rotatably supported by the diffuser body 270. do.

The left and right vane rotating mechanism 260 rotates the driving vane 230 at the lower position or the upper position of the elevating discharge body 210, since the structure of the elevating discharge body 210 is open at the lower surface thereof. It is preferable that the 260 is disposed to be positioned above the inside of the elevating discharge opening body 210, and will be described below to be located to the upper plate of the diffuser body 270 which will be described later.

The left and right vane rotating mechanism 260 is composed of a left and right wind direction control motor installed so that the pivot shaft 261 protrudes downward, and is fastened to the fastening member 292 with a fastening boss 292 having fastening holes formed in the diffuser body 270. A fastening part 263 to be fastened is formed, and is installed to be positioned above the rotating shaft through hole 288 of the diffuser body 270 which will be described later.

The diffuser body 270 supports legs 271, 272 and 273 supporting the lower pivot shafts 224, 234, 244 and 254 of the plurality of left and right vanes 220, 230, 240 and 250. A passage 276 between the plurality of legs 271, 272, 273 and 274 so as to allow air to pass between the plurality of legs 271, 272, 273 and 274. 277 and 278 are formed.

The diffuser body 270 is formed so that the plurality of legs 271, 272, 273 and 274 protrude rearwards and is spaced apart in the left and right directions to form the passages 276, 277 and 278.

 The diffuser body 270 has a left side passage 275 on the left side of the left leg 271 spaced apart from the left side portion 281 described later of the diffuser body 270, and the leftmost leg 271 is located on the leftmost side. The right leg 274 positioned at is spaced apart from the right side 282, which will be described later, of the diffuser body 270 and has a right passage 279 on the right side of the right leg 274.

 The diffuser body 270 includes a left portion 282 located on the inner side of the left side of the elevating discharge body 210 and a right portion 283 located on the inner side of the right side plate of the elevating discharge body 210. 282 and the upper end of the right side 283, and further includes an upper plate portion 284 located below the upper plate portion of the elevating discharge opening body 210, the legs 271 (272) (273) 274 is the left portion A left and right spaced apart is formed between 282 and the lower portion of the right portion 283.

In the diffuser body 270, the air passing through the sides and rear of the legs 271, 272, 273, and 274 is guided to the left side 282, the right side 283, and the top plate 284, and passes through the front side thereof. It is a kind of flow guide which guides so that it may be installed so that it may be located in front of the flow guide 211.

The diffuser body 270 has a space between the left side and the right side of the elevating discharge port body 210 in order for the left side 282 and the right side 283 to install the upper and lower vane rotating mechanisms 310 and support the upper and lower vanes 300. The upper plate portion 284 has a structure having a space with the upper plate portion of the elevating discharge port body 210 for the installation of the left and right vane rotating mechanism 260 and the support of the left and right vanes 220, 240 and 250.

The diffuser body 270 is a rotation shaft of the rotating shaft 305 and the upper and lower vane rotating mechanism 310 which protrude on one side of the left and right sides of the upper and lower vanes 300 on either of the left portion 282 and the right portion 283. A shaft through hole 285 through which at least one of the 311 passes through is formed, and a rotation shaft protruding to the other of the left and right sides of the upper and lower vanes 300 in the other of the left side 282 and the right side 283 ( A shaft support 286 is formed to rotatably support 306.

The diffuser body 270 has a rotating shaft through hole 288 through which the upper plate portion 284 penetrates at least one of the upper rotating shaft 232 of the driving vane 230 and the rotating shaft 261 of the left and right vane rotating mechanism 260. And, the upper support shaft 222, 242, 252 of the driven vanes 220, 240, 250, the shaft support (287, 289, 290) is formed to be rotatable.

The upper and lower vanes 300 may be provided with a plurality of adjusting members such as left and right vanes, and the plurality of adjusting members may be interlocked by an interlocking member, and the plurality of upper and lower wind direction adjusting units 301 and 302 may be spaced up and down. In addition, the left and right end portions 303 and 304 are formed at both side ends of the plurality of up and down wind direction control units 301 and 302 so that the plurality of up and down wind direction control units 301 and 302 and the left and right side ends ( 303) 304 may be formed integrally, and will be described as integrally hereinafter.

The upper and lower vanes 300 may be manually rotated by a user or the like, or may be rotated by an upper and lower vane rotating mechanism 300 installed in the air conditioner, in particular, the discharge port unit 80, and the upper and lower vane rotating mechanisms 300 It is explained that it is rotated by).

The upper and lower vanes 300 are pivoted about the horizontal axis, and the rotating shaft 305 to which the rotating shaft of the upper and lower vane rotating mechanism 310 is connected is protruded on one side of the left and right sides, and is provided on the other side of the left and right sides. A pivot shaft 306 rotatably supported by the diffuser body 270 is provided to protrude.

The upper and lower vane rotating mechanism 310 is installed on the outer wall of the diffuser body 210 so as to be located between the inner wall of the elevating discharge port body 210 and the outer wall of the diffuser body 210, and the rotating shaft 311 is rotated in the horizontal direction. Up and down wind direction control motor is installed to protrude.

The vertical wind direction control motor, which is a vertical vane rotation mechanism 310, has a fastening member 312 such as a screw on the fastening boss 282a having a fastening hole formed in one of the left side 282 and the right side 283 of the diffuser body 210. The fastening part 313 is fastened to the) is formed.

On the other hand, the discharge port unit 80, the diffuser body 270 is arranged to be rotated in the left and right direction to the lifting discharge outlet body 210, the diffuser body rotating mechanism 400 is installed on the upper or lower portion of the lifting discharge outlet body 210. To rotate the diffuser body 270.

The diffuser body 270 is disposed to be positioned inside the elevating discharge opening body 210 and is formed to be smaller than the left and right widths of the elevating discharge opening body 210 so that the diffuser body 270 can be rotated left and right inside the elevating discharge opening body 210. do.

The diffuser body rotating mechanism 400 includes a rotating shaft 402 and 404 provided perpendicular to the diffuser body 270 and a diffuser body rotating motor 410 for rotating the rotating shafts 402 and 404.

The diffuser body 270 has an upper pivot shaft 402 upwardly protruding substantially at the center of the upper plate portion 284, and a lower pivot shaft 404 protruding downwardly at an approximately center of the lower portion is vertically formed.

The diffuser body pivot motor 410 has a flow path structure for guiding the air discharged from the lower portion of the elevating discharge body 210 forward, is installed so as to be positioned above the elevating discharge body 210, in particular by air conditioning air It is installed in the electrical unit 212 to minimize the impact.

The diffuser body pivot motor 410 is installed in the electrical equipment 212 so as to be positioned above the pivot shaft through-hole 214 to be described later, and has a fastening boss having a fastening hole formed in the upper plate portion 212a of the elevating discharge body 210. A fastening part 413 is fastened to the fastening member 412 at 214a.

On the other hand, the elevating discharge port body 210 is formed in the upper plate portion 212a, the rotating shaft through hole 214 through which at least one of the upper rotating shaft 402 and the rotating shaft 411 of the diffuser body rotating motor 410 is formed. The lower support shaft 216 is rotatably supported by the lower rotation shaft 404.

Hereinafter, the operation of the present invention configured as described above is as follows.

First, when the motor 152 of the discharge port unit lifting mechanism 150 is operated in the raising mode, the discharge port unit 80 is located above the lifting guide 82 at the inner position of the lifting guide 82, that is, the main body 2. Raised upwards, the air discharge port 78 of the discharge port unit 80 is exposed to the outside at the upper side of the lifting guide 82, that is, the upper position of the main body (2).

As described above, when the discharge port unit 80 is raised and the left and right vanes 90 and 100 are rotated to the side and open, the motor 76 of the blower is driven to rotate the blower fan 77. Of the air is sucked into the inside of the main body 2 through the left and right lower air inlets 4 and 6, and after heat exchange with the heat exchanger 75, a part of the air flows to the left and right air outlets 8 Is discharged through 10), and the rest flows upward.

The air flowing upward as described above is introduced into the inner space of the elevating discharge port body 210 through the opened bottom surface of the elevating discharge port body 210.

At this time, the air raised from the inner rear of the main body 2 to the upper side of the air raised inside the lifting outlet body 210 is changed to the front by the flow path guide 211, and then the plurality of left and right vanes 220 and 230 The left and right sides of the 240 and 250 guide the left and right sides of the plurality of left and right vanes 220, 230, 240 and 250, and the left and right wind directions are adjusted to flow into the diffuser body 270. do. The guided air is guided on both sides of the upper plate 301 and the lower plate 302 of the upper and lower vanes 300 to adjust the upper and lower wind directions in the arrangement direction of the upper and lower vanes 300, thereby opening the diffuser body 270. And the air is blown in the forward direction of the discharge port unit 250 by passing through the opened front surface of the discharge front and bottom discharge body 210.

And, the air raised from the inner front of the main body 2 to the upper side of the air raised inside the lifting outlet body 210 is passages 275 and 276 next to the legs 271, 272, 273 and 274 ( 277, 278, and 279 are introduced into the diffuser body 270 and mixed with the air introduced from the rear of the diffuser body 270, and in particular, the upper and lower vanes 300 are guided by the upper and lower vanes 300. Up and down wind direction is adjusted in the direction of arrangement.

On the other hand, the discharge port unit 80 in the above operation, the wind direction is adjusted according to the rotation of the left and right vanes 220, 230, 240, 250 according to the driving of the left and right vane rotating mechanism 260, the diffuser body According to the rotation of the diffuser body 270 according to the driving of the rotation mechanism 400, the wind direction of the discharged air guided to the inner surface of the diffuser body 270 is adjusted.

In addition, the discharge port unit 80 has the left and right vanes 220, 230, 240, 250 inclined toward one side of the left and right, and the diffuser body 270 has the left and right vanes 220, 230, 240, 250. When inclined in the same direction as), the inclination arrangement angles of the left and right vanes 220, 230, 240, and 250 are further increased, and the discharge port unit 80 is left and right vanes by the rotation of the diffuser body 270. The right and left rotation angle ranges of the 220, 230, 240, and 250 are increased.

9 is a cross-sectional plan view of the left and right vanes and the diffuser body of the air conditioner according to an embodiment of the present invention when guided to discharge the air conditioning forward, Figure 10 is a left and right vanes of the air conditioner according to an embodiment of the present invention FIG. 11 is a plan sectional view when guiding the discharge of air to the right, and FIG. 11 is a plan sectional view of the left and right vanes and the diffuser body of the air conditioner according to the embodiment of the present invention guiding the discharge of air conditioning to the right, and FIG. The left and right vanes of one embodiment of the air conditioner according to the present invention are flat shavings when the air conditioning air is discharged to the left, and FIG. 13 shows the left and right vanes and the diffuser body of the embodiment of the air conditioner according to the present invention. Fig. 1 is a plan sectional view of the discharge guide.

As shown in FIG. 9, the diffuser body 270 is disposed side by side in the elevating discharge unit 210, and the left and right vanes 220, 230, 240, 250 are moved forward like the diffuser body 270. When arranged side by side, the air passing through the elevating discharge unit 210 is discharged and guided forward while being guided by the left and right vanes 220, 230, 240, 250 and the diffuser 270.

As shown in FIGS. 10 and 12, the diffuser body 270 is disposed side by side in the elevating discharge unit 210, and the left and right vanes 220, 230, 240, 250 are disposed in the diffuser body 270. When disposed inclined with respect to the air, the air passing through the elevating discharge unit unit 210 is guided by the left and right vanes 220, 230, 240, 250, the left and right vanes 220, 230, 240, 250 are The discharge is guided in an inclined direction (eg 30 °).

 As shown in FIGS. 11 and 13, the diffuser body 270 is inclined with respect to the elevating discharge unit 210, and the left and right vanes 220, 230, 240 and 250 are disposed on the diffuser body 270. When disposed inclined with respect to the left and right vanes (220, 230, 240, 250) is moved with the diffuser body 270 while the diffuser body 270 is placed side by side in the elevating discharge unit unit 210 than More inclined, the air passing through the elevating discharge unit 210 is guided by the left and right vanes 220, 230, 240, 250, the diameter of the left and right vanes 220, 230, 240, 250 The discharge is guided in the inclined direction (eg, 60 °) by the sum of the photographic direction (eg, 30 °) and the inclined direction (eg, 30 °) of the diffuser body 270.

That is, the air discharged through the elevating discharge port unit 210 is primarily controlled by the left and right vanes 220, 230, 240 and 250, and the left and right wind directions are controlled by the diffuser body 270. The left and right wind direction is adjusted, and the left and right discharge range and diffusion of the air conditioning air is maximized when the multi-stage adjustment of the left and right wind directions as described above.

14 is a perspective view showing another embodiment of the air conditioner according to the present invention, Figure 15 is a partially exploded perspective view of the air conditioner shown in FIG.

As shown in FIGS. 14 and 15, the air conditioner according to the present exemplary embodiment includes a main body 510 for sucking and coordinating indoor air and a blower 520 installed inside the main body 510 to suck and discharge air. And a heat exchanger 522 installed in the main body 510 to cool or heat air passing through the main body 510 through heat exchange with the refrigerant.

The main body 510 includes a cabinet 511 having open front and bottom surfaces, a front upper panel 512 coupled to an upper front of the cabinet 511, and a front lower panel 513 coupled to a lower front of the cabinet 511. ), A base 514 on which the cabinet 511 and the front lower panel 513 are mounted, and a suction panel 15 coupled between the cabinet 511 and the front lower panel 513. In addition, a display panel 518 including a display window for displaying operation information of the air conditioner is installed between the front upper panel 512 and the front lower panel 513.

At least one air discharge port through which the heat-exchanged air is discharged is formed in the front upper panel 512. The air discharge port is formed with a front air discharge port 530 formed on the front upper portion of the front upper panel 512, and side air discharge ports 531 formed on both inclined side surfaces of the front upper panel 512.

The front upper panel 512 is provided with a vertical driving panel 516 that can open and close the front air discharge port 530. The vertical driving panel 516 may be installed to be slidable in the vertical direction by a lifting mechanism (not shown) including a gear and a motor.

In addition, when the vertical drive panel 516 is raised, the front and rear drive panels 17 may be moved forward and backward on the front surface of the front upper panel 512 to eliminate the step difference between the front upper panel 512 and the vertical drive panel 16. Is installed. The front and rear drive panels may be installed to be able to move forward and backward by a retraction mechanism (not shown) including a gear and a motor.

The side discharge vane 532 is rotatably installed at the side air discharge port 531 to open and close the side air discharge port 531. The side discharge vane 532 is rotatably installed by a side vane driving motor (not shown) mounted on the front upper panel 512.

In addition, an air suction port is formed at the suction panel 515 to suck air in the room, and a suction grill 519 is installed at the air suction port. A suction filter (not shown) may be installed on the rear surface of the suction grill 19 to filter foreign substances in the air passing through the air suction port.

On the other hand, the discharge port unit 540 is installed in the front air discharge port 530.

The discharge port unit 540 includes a diffuser body 541 in which a plurality of vanes are rotatably installed.

The diffuser body 541 is formed in a rectangular shape corresponding to the front air discharge port 530, and the width of the diffuser body 541 toward the inside of the cabinet 511 so as to minimize interference with the front upper panel 512 and the cabinet 511 during rotation. This gradually shrinks and is formed stepped.

A plurality of vanes are disposed in the vertical air discharge port 530 in the vertical direction to adjust the left and right wind direction of the discharge air, and a plurality of vertical vanes 542 are disposed in the horizontal direction in the front air discharge port 30 in the vertical direction. A plurality of horizontal vanes 543 to adjust the wind direction. Both ends of the vertical vane 542 and the horizontal vane 543 have hinge protrusions protruding from each other so as to be hinged to the rotation hole formed in the diffuser body 541. 15 and 16, the lower ends of the plurality of vertical vanes 542 are connected to each other by the first link 544, and one side of the first link 544 moves the first link 544 to the left and right directions. The first vane motor 545 is coupled to the plurality of vertical vanes 542 to rotate integrally. 14 to 16, one end of each side of the plurality of horizontal vanes 543 is connected to each other by a second link 546, and a second link 546 is connected to one side of the second link 546. The second vane motor 547 is coupled to rotate the plurality of horizontal vanes 543 integrally by moving in the vertical direction.

FIG. 16 is a cross-sectional view taken along the line A-A in FIG. 14, and FIG. 17 is a cross-sectional view showing a state in which the discharge port unit is returned to the initial position in FIG.

14 to 16, a rotation means 550 is provided between the front upper panel 512 and the discharge port unit 540 to rotate the discharge port unit 540 in the horizontal direction from the main body 510.

The rotation means 550 is coupled to the rotation shafts 551 and 552 connecting the front upper panel 512 and the support frame 541, and the rotation shafts 551 and 552 to be coupled to the rotation shafts 551 and 552. It may include a diffuser body rotation motor 553 for rotating the.

That is, the pivot shafts 551 and 552 are provided on the upper surface of the diffuser body 541 and are provided on the lower surface of the diffuser body 541 and the first pivot shaft 551 coupled to the front upper panel 12. It may include a second rotation shaft 552 coupled with the diffuser body rotation motor 553.

The first pivot 551 may be inserted into a boss formed in the front upper panel 512, and the second pivot 552 may be coupled to the pivot of the diffuser body pivot motor 553.

The diffuser body rotating motor 553 may be a DC motor to enable the forward / reverse rotation.

Looking at the operation of the indoor unit according to an embodiment of the present invention configured as described above are as follows.

First, when the first vane motor 545 is driven, the vertical vane 542 is rotated while the first link 544 is moved left and right. In addition, when the second vane motor 547 is driven, the horizontal vanes 543 are rotated while the second link 546 is moved up and down.

Therefore, it is possible to adjust the wind direction in the left and right and up and down directions by the vertical vane 542 and the horizontal vane 543.

In addition, when the diffuser body rotation motor 553 is driven, the diffuser body 541 rotates about the rotation shafts 51 and 52 by the rotational force of the diffuser body rotation motor 553. The diffuser body 541 may rotate left and right in accordance with the rotation direction of the diffuser body rotating motor 553.

Therefore, more efficient three-dimensional heating and cooling can be achieved since the discharge direction and the discharge range of air can be enlarged when only the vertical vanes and the horizontal vanes are operated.

18 is a cross-sectional view showing another embodiment of the air conditioner according to the present invention, and FIG. 19 is a cross-sectional view showing a state in which the discharge port unit is returned to its initial position in FIG.

As shown in FIGS. 18 and 19, the air conditioner according to the present exemplary embodiment includes a rack 561 provided in the diffuser body 571 of the discharge port unit 570, and a cabinet ( And a pinion 562 provided at 511 to engage with the rack 561, and a pinion motor 563 to rotate the pinion 562. According to the air conditioner according to the other embodiments, the same reference numerals are used and detailed description thereof will be omitted.

The rack 561 is formed in the diffuser body 571, and may protrude from the lower surface of the diffuser body 571 toward the cabinet 511. In addition, the rack 561 may be formed such that a portion engaged with the pinion 562 has an arc shape so as to smoothly rotate the diffuser body 571.

Therefore, when the pinion motor 563 is driven during the operation of the air conditioner, the pinion 562 rotates in the forward or reverse direction. In addition, the diffuser body 571 provided with the rack 561 may be rotated by the rotation of the pinion 562. As the diffuser body 571 rotates, the discharge angle of the discharged air is further enlarged, and thus three-dimensional cooling / heating can be achieved.

1 is a perspective view when one embodiment of the air conditioner according to the present invention stops operation,

2 is a perspective view when an embodiment of the air conditioner according to the present invention is in operation;

3 is a schematic exploded perspective view of an embodiment of an air conditioner according to the present invention;

4 is a bottom plan view of an air conditioner according to an embodiment of the present invention;

5 is a top plan cross-sectional view of an embodiment of an air conditioner according to the present invention;

Figure 6 is an exploded perspective view showing an outlet unit of an embodiment of the air conditioner according to the present invention,

FIG. 7 is a partial longitudinal sectional view of the air conditioner in one embodiment of the air conditioner according to the present invention in an elevated state; FIG.

FIG. 8 is a front sectional view of the discharge port unit shown in FIG. 7;

9 is a plan sectional view when the left and right vanes and the diffuser body of the air conditioner according to the present invention discharge the air conditioning air forward;

10 is a plan sectional view when the left and right vanes of the air conditioner according to the present invention guide discharge of air conditioning air to the right;

11 is a plan sectional view when the left and right vanes and the diffuser body of the air conditioner according to the present invention discharge the air conditioning air to the right;

12 is a plan sectional view when the left and right vanes of the air conditioner according to the present invention guide discharge of air conditioning air to the left;

13 is a cross-sectional plan view when the left and right vanes and the diffuser body of the air conditioner according to the present invention guide discharge of air conditioning air to the left;

14 is a perspective view showing another embodiment of the air conditioner according to the present invention;

15 is an exploded perspective view of a part of the air conditioner illustrated in FIG. 14;

16 is a cross-sectional view taken along the line A-A in FIG. 14;

17 is a cross-sectional view showing a state in which the discharge port unit is returned to the initial position in FIG.

18 is a sectional view showing another embodiment of an air conditioner according to the present invention;

19 is a cross-sectional view showing a state in which the discharge port unit is returned to the initial position in FIG. 18;

20 is a perspective view showing an air conditioner according to the prior art,

21 is a cross-sectional view taken along the line B-B in FIG. 20.

<Simple description of the code for the main part of the drawing>

511: cabinet 512: front top panel

513: base 514: front lower panel

530: front air outlet 531: side air outlet

532: side discharge vane 540,570: discharge port unit

41,71: support frame 542: vertical vane

543: horizontal vane 544: first link

545: first vane motor 546: second link

547: second vane motor 550, 560: rotation means

551: first hinge axis 552: second hinge axis

553,563: frame motor 561: rack

562: pinion 563: pinion motor

Claims (6)

A main body having an air inlet; An elevating discharge opening body disposed to be elevated on the main body and having an air discharge opening for discharging air blown from the main body to the outside; An elevating mechanism for elevating the elevating discharge port body; A diffuser body disposed on the elevating discharge body so as to rotate in a left and right direction, and a plurality of left and right vanes rotated in a left and right direction; A vane rotating mechanism provided on the diffuser body to rotate the plurality of left and right vanes left and right; And a diffuser body rotating mechanism provided in the elevating discharge opening body to rotate the diffuser body left and right. The method according to claim 1, The diffuser body rotating mechanism includes a rotating shaft provided perpendicular to the diffuser body, and a diffuser body motor installed at the lifting discharge body and coupled to the rotating shaft to rotate the rotating shaft. The method according to claim 1, The elevating discharge opening body has a lower surface and a front surface is opened and the left and right sides and the rear surface are blocked. The diffuser body is disposed to be located in front of the inner side of the elevating discharge port body and the air conditioner formed in a narrower left and right than the elevating outlet body. A main body having an air inlet and an air outlet; A diffuser body disposed to be rotated in the left and right directions at the air discharge port and having a plurality of left and right vanes rotated; A vane rotating mechanism provided on the diffuser body to rotate the plurality of left and right vanes left and right; And a diffuser body pivoting mechanism installed on the main body to pivot the diffuser body left and right. The method according to claim 1, The diffuser body rotating mechanism includes a rotating shaft provided perpendicular to the diffuser body and a diffuser body motor installed on the main body and coupled to the rotating shaft to rotate the rotating shaft. The method according to claim 1, The diffuser body pivoting mechanism includes a rack provided in one of the main body and the diffuser body, a pinion provided in the other of the main body and the diffuser body and engaged with the rack, and a motor for rotating the pinion. Air conditioner.

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