KR20090043232A - Air conditioner - Google Patents

Abstract

Air conditioner according to the present invention and the air inlet is formed; An ejection opening unit disposed to be elevated on an upper portion of the main body and having an air discharge opening; A motor mounted to the discharge port unit to move up and down together with the discharge port unit; A moving gear mounted to the motor to be rotated by the motor; Since the moving gear is moved up and down with the discharge port unit, including a fixed gear installed in the vertical direction so that the moving gear is vertically lifted up and down with the motor and the discharge port unit when the moving gear rotates, the discharge port unit The lifting width of the can be maximized, and there is an advantage that no interference between the fixed gear and the peripheral parts occurs.

Air conditioner, main body, air outlet, outlet unit, motor, moving gear, fixed gear

Description

Air Conditioner

The present invention relates to an air conditioner, in particular, a motor is installed in the discharge port unit and a fixed gear which is fixed to the position is installed in the main body, the moving gear installed in the motor is rotated along the fixed gear while the air conditioning is elevated with the motor and the discharge port unit It is about the flag.

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 installs the indoor unit of cooling / heating function on the indoor side and the outdoor unit of heat dissipation / cooling and compression function on the outdoor side to connect the two separated devices with refrigerant piping. The one-piece type integrates the function of cooling heat dissipation compression, and is directly installed by drilling a hole in the wall of the house or hanging the device on the window.

In the air conditioner as described above, an air inlet for opening indoor air is formed in the lower part of the front part of the cabinet, and an air outlet is formed in the upper part of the front part of the cabinet.

Korean Patent Laid-Open Publication No. 10-2005-0054185 discloses an indoor unit of an air conditioner having a diffuser that is raised above a cabinet and lowered into an inside of a cabinet. The indoor unit of the air conditioner equipped with the diffuser disclosed in Korean Patent Laid-Open Publication No. 10-2005-0054185 is provided with a pinion installed at the motor and a pinion installed at the lower portion of the rear side of the diffuser. A rack is formed which is engaged and lifted with the diffuser when the motor is driven.

However, the air conditioner according to the prior art is formed so that the rack is protruded in the lower portion of the diffuser can be operated while the rack is shaken with the diffuser when the motor is driven, and because the long rack in the vertical direction is elevated with the diffuser, If the lifting width is large, the rack is likely to interfere with other peripheral parts, so the length of the diffuser cannot be lengthened, and the lifting width of the diffuser is difficult to increase.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide an air conditioner that can maximize the lifting width of the discharge port unit.

Another object of the present invention is to provide an air conditioner capable of raising and lowering the discharge port unit more stably.

Air conditioner according to the present invention for solving the above problems and the air inlet is formed; An ejection opening unit disposed to be elevated on an upper portion of the main body and having an air discharge opening; A motor mounted to the discharge port unit to move up and down together with the discharge port unit; A moving gear mounted to the motor to be rotated by the motor; And a fixed gear disposed to be perpendicular to the main body so that the moving gear moves up and down in a vertical direction together with the motor and the discharge port unit when the moving gear rotates.

The motor is installed such that the rotating shaft on which the moving gear is installed is arranged horizontally, the moving gear is a pinion connected to the rotating shaft, and the fixed gear is a gear in which the pinion is meshed on one surface such that the pinion is linearly elevated along one surface. The rack is formed.

The main body includes a lift guide through which the discharge port unit is lifted and guided, and the fixed gear is fixed to the lift guide.

The motors are respectively installed at the lower left and right sides of the discharge port unit, and the fixed gears are respectively disposed at the left and right sides of the lifting guide.

The fixed gear is disposed to protrude toward the inner side of the elevating guide on the inner wall of the elevating guide, and the discharge port unit has a guide portion guided along the fixed gear in a vertical direction.

The guide portion is formed of a groove portion of which the upper end is blocked and the lower end is opened.

The guide part has an opening through which the fixed gear passes.

The motor is installed at a position where a part of the moving gear protrudes into the groove portion.

The discharge port unit includes a motor accommodating part in which a part of the motor is inserted and accommodated in a bottom surface, and a gear accommodating part in which the moving gear is rotatably positioned and communicated with the groove part.

The discharge port unit further includes a motor cover coupled to a lower portion of the discharge port unit and covering the rest of the motor.

The motor accommodating part and the motor cover are respectively formed with shaft through parts through which the rotating shaft of the motor passes.

The fixed gear includes a gear part engaged with the moving gear and a receiving part protruding on an inner wall of the lifting guide so that the gear part is installed.

The gear portion and the receiving portion are fastening holes are formed in the corresponding position, respectively, the gear portion and the receiving portion is coupled by a fastening member which is fastened to the other fastening hole through one of the fastening holes.

In the air conditioner according to the present invention configured as described above, the motor is mounted on the discharge port unit, the moving gear is installed on the motor, and the fixed gear allowing the moving gear to rise and fall in the vertical direction together with the motor and the discharge port unit is perpendicular to the main body. Since the motor is moved up and down together with the discharge port unit, the motor is lifted up and down in the direction, thereby maximizing the lifting width of the discharge port unit, and there is an advantage that interference between the fixed gear and the peripheral parts does not occur.

In addition, the air conditioner according to the present invention, the guide portion which is guided along the fixed gear in the discharge port unit is formed long in the vertical direction, the fixed gear serves to guide not only the lifting and lowering of the discharge port unit, the discharge port unit more stably without shaking There is an advantage of lifting operation.

In addition, the air conditioner according to the present invention has an advantage that the guide portion is made of a groove portion is blocked the upper end, the lower end is opened, the discharge port unit is not inserted into the lower side of the main body.

Hereinafter, embodiments of the present invention will be described in detail 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 through which air-conditioned air such as heated, cooled, or purified are discharged are formed.

The main body 2 may be applied to any case such as a stand-type air conditioner, a wall-mounted air conditioner, or a ceiling-type air conditioner, but will be described below by taking a stand-type air conditioner as an example.

Hereinafter, 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 which discharges air-conditioned air through an upper part, and includes the base 12, the cabinet 20, the lower panel 30, 40, and the upper panel 50 largely.

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, and includes a cleaning unit (to be described later) installed on the lower panel 30, 40. A foreign matter treatment apparatus for treating the foreign matters cleaned at 46 and 46 is installed.

As shown in FIG. 3, the foreign matter treatment apparatus is connected to the left cleaning unit 36 and the left hose 13, the foreign matter separator 15 connected to the right cleaning unit 46 and the right hose 14, and the foreign matter. A suction force generating unit 16 connected to the separator 15 to generate suction power to the foreign matter separator 15 and the hoses 13 and 14 and the left cleaning unit 36 and the right cleaning unit 46, and a foreign matter separator ( And a cleaning controller 18 for controlling the foreign matter container 17 in which the foreign matter separated in 15) is contained, the left cleaning unit 36, the right cleaning unit 46, and the suction force generating unit 16.

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 plate part 24, and the right plate part 26, and is located above the rear part of the base 12. Is installed.

In the cabinet 20, the seat plate 24 and the right plate portion 26 may be bent at right angles to the rear plate portion 22. The cabinet 20 may be bent at an angle to the rear plate portion 22 in a direction in which the width thereof gradually increases away from the front plate portion 24. Of course it is also 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 seat plate portion 24 of the cabinet 20, and the left air inlet 4 is formed to be opened in the left and right directions or left side. It is formed to open in the forward direction.

The left lower panel 30 is provided with a left filter case 34 on which the left filter 32 is mounted. In the space between the left lower panel 30 and the left filter case 34, the left lower panel 30 and the left side are disposed. A left cleaning unit 36 which is lifted along at least one of the filter 32 and the left filter case 34 to clean the foreign matter of the left filter 32 is disposed to be liftable.

The lower right panel 40 is disposed to be disposed on the right side of the front part of the base 12, which is the lower front position of the right plate part 26 of the cabinet 20, and the right air inlet 8 is formed to be opened in the left or right direction or is formed on the right side. It is formed to open in the forward direction.

The right lower panel 40 is provided with a right filter case 44 on which the right filter 42 is mounted, and the right lower panel 40 and the right in the space between the right lower panel 40 and the right filter case 44. A right cleaning unit 46 for lifting up and down along the at least one of the filter 42 and the right filter case 44 to clean the foreign matter of the right filter 42 is arranged to be liftable.

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

The upper panel 50 has a left discharge portion 55 inclined with respect to the front plate portion 52 and the left plate portion 53 between the front plate portion 52 and the left plate portion 53, and the left discharge portion 55. ), The left air discharge port 8 is formed in the left and right directions or is formed in the left front direction.

Here, the left discharge part 55 is recessed in the inner direction of the main body 2 so that the left wind direction control unit 92 provided to protrude into the left vane 90 is inserted and received when the left vane 90 is closed. Is formed.

The upper panel 50 has a right discharge part 56 inclined with respect to the front plate part 52 and the right plate part 54 between the front plate part 52 and the right plate part 54, and the right discharge part. The right air discharge port 10 is formed in the opening 56 in the left-right direction or the opening in the right front direction.

Here, the right discharge part 56 is recessed in the inward direction of the main body 2 so that the right wind direction control unit 102 provided to protrude in the right vane 100 is inserted when the right vane 100 is closed, which will be described later. Is formed.

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, and is formed in a generally rectangular plate shape so that a portion 62 on the left side shields the front of the left discharge part 55, and the right side. A portion 64 of shields the front of the right discharge portion 56.

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 to be guided toward the left vane 90 and the right vane 100 without going straight ahead. It serves as an air guide, and when the left vane 90 and the right vane 100 are in the closed position, a kind of shield member which 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.

On the other hand, the main body 2 may be installed so that the front cover 60 covers only the front of the upper panel 50, the front cover 60 is not only the front of the upper panel 50 but also the left and right lower panels ( It is also possible to cover the front between the front of the 30 and 40 and the left and right lower panels 30 and 40 together. Hereinafter, the front cover 60 covers only the front of the upper panel 50.

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 fixedly mounted 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. It is also possible to include at least one of the base 12 and the left lower panel 30 and the right lower panel 40 and the upper panel 50 to open and close the space between the lower left panel 40 and the lower right panel 50. Of course, one can be rotatably connected to one side of the left and right.

Hereinafter, the front panel 70 is rotatably connected to at least one of the base 12, the lower left panel 30, the lower right panel 40, and the upper panel 50, and thus, the upper panel 50 and the front panel 70. It will be described as opening and closing between the upper end of the cover 60 and the front portion of the base 12.

Here, the front panel 70 has a plurality of structures in which a plurality of members 71 and 72 positioned inside, outside or before and after the closing time is coupled to each other to form a front aesthetic appearance of the air conditioner. And an outer member 71 positioned outside on the basis of the main body 2, an inner member 72 positioned inside, and a holder 73 for coupling the outer member 71 with the inner member 72. do.

The outer member 71 may be made transparent, and a plate, a sheet or a layered decoration may be formed on the rear surface thereof, and the outer member 71 may be configured to have a color, a pattern, or the like so as to be translucent.

The outer member 71 is formed of a material such as glass, fabric or ceramic.

At least one opening hole 72a is formed in the inner member 72, and a display for displaying operation information of the air conditioner through the outer member 71 in the rear position of the opening hole 72a or the opening hole 72a. 74 is installed.

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 and sucks air in front or rear of the main body and blows the air upwards. The blower is connected to a fan motor 76 and a fan shaft 76 provided with a rotating shaft protruding in the front-rear direction. An opening is formed at one side of the front side and the rear side of the blower fan 77, the blower fan 77, and the fan motor 76, and a discharge hole is formed in the upper portion of the fan housing 78 and the opening of the fan housing 78. Disposed orifice 79.

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 vanes 90 and 100 for guiding air while opening and closing at least one of the air intake ports 4 and 6 and the air discharge ports 8 and 10.

Hereinafter, the vanes 90 and 100 open and close both the air inlets 4 and 6 and the air outlets 8 and 10 simultaneously, and guide both the intake air and the discharge air, and are generally long in the vertical direction. Is formed.

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

The left vane 90 is moved to the right direction about the center of rotation perpendicular to the outside of the main body 2, in particular to the front left side of the main body 2, so that the left air inlet 4 and its periphery and the left air outlet 8 ) And the surroundings 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.

The left vane 90 is a kind of front left side panel which, when closed, forms a front left side appearance of the front side of the air conditioner, and both the left side of the lower left panel 30 and the left side of the top panel 50 are closed. It is formed in a size and shape to cover, and is rotated next to the left side of the left lower panel 30 and the left side of the upper panel 50 while the left side of the left lower panel 30 and the left side of the upper panel 50 as a whole. Open and close.

The left vane 90 adjusts the wind direction of the air discharged through the left air discharge port 4 when the vane 90 is opened at a position corresponding to the left air discharge port 8, and is inserted into the left discharge part 55 when the vane 90 is closed. The left wind direction control unit 92 is provided to protrude.

On the other hand, the right vane 100 is moved to the left side around the center of rotation perpendicular to the outside of the body 2, in particular at the front right side of the body 2, so that the right air intake 6 and its surroundings and right air 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 the vertical rotation is performed at a position covering the right air inlet 6 and the right air outlet 10. It is moved to the right centered around the center to open the right air inlet 6 and the right air outlet 10 together, and is arranged to guide the intake air and the discharged air.

The right vane 100 is a kind of front right side panel which forms the front right side appearance of the front side of the air conditioner when it is closed, and has a size and shape covering both the right side surface of the lower right panel 40 and the right side surface of the upper panel 50. It is formed as, the right side of the lower right side panel 40 and the right side of the upper panel 50 is rotated while opening the entire right side of the right side of the lower right panel 30 and the upper panel 50.

In addition, the right vane 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 is accommodated is provided to protrude.

On the other hand, each of the left vane 90 and the right vane 100 is not easy to produce and transport when composed of one member long in the up and down direction, and is partly shaken when installed on the main body 2 or moving 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 vane 90 and the right vane 100 will be described as being composed of a combination of a plurality of members.

In addition, when the left vane 90 and the right vane 100 are each composed of a member having high aesthetics such as glass, wood, metal, or a synthetic resin having a metal or a decorative part, the outer member 120, which is a part mainly visible from the outside, is made of glass or wood. B. The aesthetics of metals or synthetic resins can be improved, and new designs can be realized by replacing glass, wood, or synthetic resins.

The left vane 90 and the right vane 100 may be configured such that both the inner member 110 and the outer member 120 are formed in a plate shape, and the inner member 110 and the outer member 120 are in close contact with the whole. At least one of the inner member 110 and the outer member 120 is formed in a three-dimensional shape instead of a plate body so as to have empty spaces 94 and 104 inside the inner member 110 and the outer member 120. Of course it is also possible.

On the other hand, the left vane 90 and the right vane 100 have an empty space 94, 104 formed between the inner member 110 and the outer member 120, that is, the inner member 110. However, when at least one of the outer member 120 and the outer member 120 is formed in a three-dimensional shape instead of a plate shape, the thickness becomes thick. However, the empty spaces 94 and 104 form a thermal insulation layer. It is possible to prevent dew condensation on the outer surface of the outer member 120, which may be generated when guided to the member 110, and also because the thickness of the vanes 90 and 100 is thick, the shaking and bending during the driving are minimized. It becomes possible.

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 has a discharge part structure which descends to the inner side of the main body 2 from the main body 2. As shown in FIG.

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 an elevating guide 82 through which the ejection opening unit 80 is elevated. The ejection opening unit 80 is elevated to the upper position of the elevating guide 82 while being guided by the elevating 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 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 and the elevating guide 82 and the cabinet An upper decorative member 84 having a predetermined height is provided so as to cover the gap between the gaps 20 and the gap between the lifting guide 82 and the upper panel 50.

Here, the ejection opening unit 80 is moved up and down by the ejection opening unit driving mechanism (not shown). The ejection opening unit driving mechanism will be described later.

6 is an exploded perspective view of main parts of the discharge port unit and the elevating guide according to the present invention, and FIG. 7 is an enlarged longitudinal sectional view of the discharge port unit driving mechanism when the discharge port unit of the embodiment of the air conditioner according to the present invention is lowered. 8 is an enlarged longitudinal sectional view of the discharge unit unit driving mechanism when the discharge unit of the air conditioner according to the embodiment of the present invention is in an elevated state, and FIG. 9 is a discharge port of the air conditioner according to the embodiment of the present invention. Figure 10 is a front sectional view showing a unit and a discharge port unit driving mechanism, and Figure 10 is a plan sectional view showing a discharge port unit driving mechanism of an embodiment of the air conditioner according to the present invention.

6 to 9, the upper and lower surfaces of the elevating guide 82 are opened 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.

On the other hand, the discharge unit unit driving mechanism 150 for elevating the discharge port unit 80 is composed of a drive source and a power transmission unit for raising and lowering the discharge port unit 80 in conjunction with the drive source, the drive source and the power transmission portion is part of the discharge port unit 80, and the rest is installed in the main body 2, in particular the lifting guide 82.

Discharge port unit driving mechanism 150 is a drive source is made of a motor 152, the power transmission unit is made of a drive gear 160 connected to the motor 152, and a driven gear 170 meshed with the drive gear 160, Hereinafter, the drive gear 160 is composed of a pinion connected to the rotation shaft of the motor 152, the driven gear 170 will be described as being a rack meshed with the pinion and formed long in the vertical direction.

The discharge port unit driving mechanism 150 may include a motor 152 installed in the lifting guide 82 and a driven gear 170 installed in the discharge port unit 80, and conversely, the motor 152 may include the discharge port unit 80. It is also possible that the driven gear 170 is installed in the lifting guide 82, but the lifting guide 82 is fixed in position, the discharge port unit 80 is variable in position, so that the long driven gear 170 is It is preferable to be installed in the lifting guide 82 and fixed in position, and the motor 152 is installed in the discharge port unit 80 so that the driving gear 170 is elevated along the driven gear 170.

When the driven gear 170 is installed in the discharge port unit 80, the motor 152 is installed in the lifting guide 82, and the driven gear 170 moves up and down together with the discharge port unit 80, the driven gear ( While the shaking of the 170 and the discharge port unit 80 becomes large, the long driven gear 170 is installed in the lifting guide 82 and the motor 152 is installed in the discharge port unit 80 to drive the drive gear 170. ) And the motor 152 are lifted and operated together with the discharge port unit 80, the shaking of the drive gear 152 and the discharge port unit 80 is relatively small, so that the motor 152 and the drive gear 160 are the discharge port unit. It is preferable to be installed on the (80) side to be elevated together with the discharge port unit 80, and the driven gear 170 is fixed to the lifting guide 82 to raise and lower the drive gear 160.

In addition, when the drive gear 160 is the pinion and the driven gear 170 is a rack, the lifting width of the discharge port unit 80 is determined according to the length of the driven gear 170 which is the rack, and the driven gear 160 is fixed in position. When installed in the lifting guide 82 and the motor 152 is installed in the discharge port unit 80, the lifting width of the discharge port unit 80 is increased while the height of the driven gear 160 is larger than the height of the discharge port unit 80. Since the discharge port unit 80 can be at least the entire height, the motor 152 and the drive gear 160 are preferably provided on the discharge port unit 80 side.

In addition, when the driven gear 170 is installed in the discharge port unit 80 having a variable position, and the motor 152 is installed in the lifting guide 82, the lifting width of the discharge port unit 80 is set to the discharge port unit 80. In order to be larger than the height, a part of the driven gear 170 should protrude to the upper side or the lower side of the discharge port unit 80. In this case, a part of the driven gear 170 protruding to the upper side or the lower side of the discharge port unit 80 is shaken. It may be separated from the drive gear 160, when a part of the driven gear 170 is projected to the upper side of the discharge port unit 80, the aesthetic appearance is not good, and a part of the driven gear 170 is the lower side of the discharge port unit 80 In the case of protruding, the discharge gear unit 80 may interfere with other components located at the lower side of the discharge port unit 80, so that the driven gear 170 is installed to be fixed to the lifting guide 82, and the motor 152 is discharged to the discharge unit. It is preferable that it is provided in the 80, hereinafter, discharge The old unit driving mechanism 150 includes a motor 152 mounted to the discharge port unit 80 to move up and down together with the discharge port unit 80; A driven gear 160 (hereinafter, referred to as a 'moving gear') installed in the motor 152 to be rotated by the motor 152 and a moving gear 160 when the moving gear 160 is rotated are provided with the motor 152 and the discharge port unit. It will be described as including a driven gear 170 (hereinafter, referred to as a fixed gear) provided to be vertically disposed on the main body 2, in particular, the discharge guide 82 so as to linearly move up and down in the vertical direction.

 In addition, the motor 152, the drive gear 160 and the driven gear 170 is at least four corners of the discharge port unit 80 and the lifting guide 82, the left and right sides of the position that does not interfere with the flow of air at least It is preferable to be installed at one side, and it is preferable that a plurality of sets are provided so that the discharge port unit 80 can be elevated up and down more stably, and the motor 152 is installed in the lower left and right sides of the discharge port unit 80, respectively, The moving gears 160 are installed at each of the 152, and the fixed gear 170 is installed at both the left and right sides of the lifting guide 82.

In addition, the motor 152 is installed so that the rotating shaft 153 is arranged horizontally, the moving gear 160 is made of a pinion connected to the rotating shaft 153, the fixed gear 170 is a linear lift in a straight line along one surface It consists of a rack formed with gear teeth meshed with pinions on one surface.

Hereinafter, the discharge port unit 80, the motor 152, the moving gear 160 and the fixed gear 170 will be described in detail.

In the discharge port unit 80, the guide part 85 guided along the fixed gear 170 is elongated in the vertical direction.

Discharge port unit 80 is the guide portion 85 is made of an open surface of the lower end and the groove is blocked the upper end, when the guide unit 85 is lowered when the discharge port unit 80 descends fixed to the fixed gear 170 Avoid the gears 170.

Here, the guide portion 85 is slightly larger than the cross-sectional area of the fixed gear 170 to be in contact with at least two of the peripheral surfaces of the fixed gear 170 is formed in the same shape as a whole.

The guide portion 85 has an opening 85a formed at a side thereof so that the fixing gear 170 protruding from the lifting guide 82 may be disposed therethrough.

The guide part 85 may be guided to the fixed gear 170 without shaking when the front and rear portions of the opening 85a come into contact with the front and rear surfaces of the fixed gear 170 when the discharge port unit 80 is elevated. It is preferable that the front-back direction width of the opening part 85a is formed a little larger than the front-back width of the fixed gear 170, and is contacted.

In addition, the guide portion 85 has an upper end of the fixed gear 170 when the discharge port unit 80 is lowered to limit the over-movement in the downward direction of the discharge port unit 80, and the The upper end of the groove portion guide portion 85 is blocked so that air does not leak through the upper side.

On the other hand, the discharge port unit 80 is formed in a box shape with a lower surface of the motor accommodating portion 86 in which a part of the motor 152 is inserted and accommodated.

A motor cover 87 is coupled to the discharge port unit 80 to cover and protect the rest of the motor 152 in which a part of the motor accommodating part 86 is accommodated.

The motor cover 87 includes a box portion 87a having an upper surface open to cover the lower portion of the motor 152, and protrudes from the box portion 87a so as to cover the front and rear portions of the motor accommodating portion 86. And it includes a plurality of hooks (87b, 87c) elastically engaged to the upper end of the motor receiving portion (86).

On the other hand, the motor accommodating part 86 and the motor cover 87 are each formed in the semicircle shape which the axial through parts 86a and 87d which the rotating shaft 153 of the motor 152 penetrates in the part which opposes face each other.

Here, the motor cover 87 is formed so that a plurality of the shaft through portion 87d is spaced apart before and after so that the motor cover 87 can be commonly installed on both left and right sides of the discharge port unit 80.

In addition, the discharge port unit 80 has a box shape in which the moving gear 160 is rotatably positioned and the gear receiving portion 88 that protects the moving gear 160 by surrounding the moving gear 160 is opened. Is formed.

Here, the gear receiving portion 88 is formed so that a portion of the moving gear 160 toward the groove portion 85 so as to protrude into the groove portion 85 so as to communicate with the groove portion 85, in particular the lower portion of the groove portion 85.

As shown in FIGS. 7 and 8, the motor 152 is installed at a position where a portion of the moving gear 160 protrudes into the groove portion 85.

The fixed gear 170 is positioned to protrude toward the inner side of the elevating guide 82 on the inner wall of the circumferential portion of the elevating guide 82, and penetrates through the opening 85a of the groove 85 formed in the discharge port unit 80.

The fixed gear 170 may also be integrally protruded from the inner wall of the circumference of the elevating guide 82, and is coupled to the inner wall of the elevating guide 82 by a fastening means such as a screw or a hook or an adhesive means such as an adhesive. It is also possible, hereinafter, the receiving portion 172 formed to protrude on the inner wall of the elevating guide 82; It will be described as including a gear unit 180 installed in the receiving unit 172 and the moving gear 160 is engaged.

The receiving portion 172 is formed in a long box shape formed long in the vertical direction, the lower surface is opened, the opening portion 173 which is a guide portion for guiding the sliding portion of the gear 180 up and down is formed on one of the rear and front surfaces.

Gear portion 180 is a body 181 formed in a long rod shape in the vertical direction to be inserted into the interior of the receiving portion 172 through the open lower surface of the receiving portion 172, protruding from the body 181 receiving portion Vertical sliding along the opening 173 of 172

Includes a protrusion 182 and a gear tooth 183 formed on the protrusion 182 to which the moving gear 160 is actually engaged.

The fastening holes 174, 175, 184, and 185 are respectively formed at the corresponding positions of the accommodation part 172 and the gear part 180, and the accommodation part 172 and the gear part 180 may be any one. It is coupled by the fastening members 191 and 192 that are fastened to the other fastening holes 184 and 185 through the fastening holes 174 and 175.

 The accommodating part 172 is formed with a fastening hole 174 at an upper side thereof, and a fastening hole 175 is formed at a side plate in an opening direction in a left and right direction, and the gear unit 180 has a fastening hole 184 at an upper side thereof. It is formed in the vertical direction and the fastening hole 185 is formed in the side portion to be opened in the left and right direction, any one of the fastening members 191, 192 is fastened in the vertical direction, of the fastening members 191, 192 The other is fastened in the left and right directions.

In addition, the fixed gear 170 is preferably formed with the receiving portion 172 and the gear portion 180 as long as possible to maximize the lifting width of the discharge port unit 80, the height of the lifting guide 82 is low In this case, it is disposed to protrude to the lower portion of the lifting guide 82.

11 is a partial longitudinal cross-sectional view of the air conditioner unit in the embodiment of the air conditioner according to the present invention in a lowered state, and FIG. 12 is a part of the air outlet unit of the embodiment of the air conditioner according to the present invention in a raised state. Longitudinal section.

6 and 11 and 12, the discharge port unit 80, as shown in Figures 6 to 9, the discharge port body 210 and the left and right wind direction control member ( 220, 230, 240, 250, the supporter 270, and up and down wind direction control member 300.

The discharge port body 210 is to discharge in at least one of the front, rear, left, right of the upper side of the main body after the air blown to the inner upper portion of the main body 2, the front, left, right, etc. It is also possible to have a flow path structure for dispersing discharge in the direction, and to have a flow path structure for discharging in one direction such as the front, and the like.

The discharge port 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 toward the front of the discharge port unit 80. In addition, the left, right, rear, the upper surface is blocked and a flow path through which air passes between the bottom and the front surface is formed.

Discharge port body 210 is provided with a flow path guide 211 to guide the air raised from the bottom to the rear side of the inside.

When the 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 portion of the air conditioner covering the upper surface of the main body 2, in particular the upper surface of the elevating guide 82 The outer surface of the air conditioner is formed on the upper part of which the upper surface of the electric field part 212 in which various electric parts such as a motor and a PCB are installed is opened, and the upper surface of the electric part 212 covers the upper surface of the electric part 212. The top cover 213 is formed to form an upper appearance.

The left and right wind direction control members 220, 230, 240, 250 are disposed to be left and right rotatable about a rotation axis perpendicular to the inside of the discharge port body 210 to arrange the air conditioning air passing through the discharge port body 210. As a guide in the direction, the plurality is arranged to be spaced apart in the left and right directions so as to diffuse the air conditioning air from side to side.

Up and down wind direction control member 300 is formed with a plurality of up and down wind direction control unit (301, 302) spaced apart up and down, and the left, right end portion 303 at both ends of the plurality of up and down wind direction control unit (301, 302) 304 is formed to form a plurality of up and down wind direction control unit 301, 302 and the left and right side ends 303, 304 integrally, the horizontal formed on the left and right side ends 303, 304 A plurality of legs 271, 272, 273 and 274 are rotated up and down about one rotation axis.

   On the other hand, the supporter 270 of the legs (271) (272) (273) (274) for supporting the rotating shaft (not shown) formed in the lower portion of the plurality of left and right wind direction control members (220, 230, 240, 250) A passage is formed between the plurality of legs 271, 272, 273 and 274, including a plurality and allowing air to pass between the plurality of legs 271, 272, 273 and 274.

The supporter 270 has a plurality of legs 271, 272, 273 and 274 spaced apart in the left and right directions to form a passage.

The supporter 270 may be formed such that the rear ends of the plurality of legs 271, 272, 273 and 274 protrude to the inner rear surface of the discharge port body 210, that is, the length contacting the flow path guide 211. It is also possible to protrude to the inner rear of the body 210, that is, a length spaced apart from the flow path guide 211, a plurality of legs (271) (272) (273) 274 can have a sufficient strength and is blown from the bottom In order to smoothly flow air, it is preferable to protrude only as long as supporting the lower portions of the plurality of left and right wind direction adjusting members 220, 230, 240, 250.

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

First, when the motor 152 of the discharge port unit elevating mechanism 150 is operated in the ascending mode, the rotating gear 160 is engaged with the fixed gear 170, the rotational force is applied, at this time, the moving gear 160 Since the fixed gear 170 is fixed to the main body 2, in particular, the lifting guide 82, the fixed gear 170 is raised while rotating along the fixed gear 170.

When the moving gear 160 rotates and rises as described above, the discharge port unit 80 is raised together with the motor 152 while being guided by the fixed gear 170 and the lifting guide 82.

Since the discharge port unit 80 guides the discharge port unit 80 in a state where the fixed gear 170 is fixed as above, the discharge port unit 80 is stably raised without shaking, and the lifting guide 82 is positioned at an inner position of the lifting guide 82. ), The air discharge port 78 is exposed to the upper side of the elevating guide 82, that is, the upper side of the main body 2.

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 fan motor 76 of the blower is driven to rotate the blower fan 77. The indoor air is sucked into the main body 2 through the left and right lower air inlets 4 and 6, and after being heat exchanged 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 outlet body 210 through the opened bottom of the outlet body 210, and then is discharged to the front of the air outlet 78 through the outlet body 210. do.

On the other hand, when the motor 152 of the discharge port unit lifting mechanism 150 is operated in the lowering mode, the moving gear 160 is engaged with the fixed gear 170, the rotational force is applied, at this time, the moving gear 160 Since the fixed gear 170 is fixed to the position of the main body 2, in particular the lifting guide 82, it is lowered while rotating along the fixed gear 170.

When the moving gear 160 rotates and descends as described above, the discharge port unit 80 is lowered together with the motor 152 while being guided by the fixed gear 170 and the lifting guide 82.

Since the discharge port unit 80 guides the discharge port unit 80 in a state where the fixed gear 170 is fixed at the time of the lowering as described above, the discharge port unit 80 is stably raised without shaking as in the case where the discharge port unit 80 is raised, and the lifting guide 82 is lowered. It descends to the inner position of the elevating guide 82 at the upper position of and winds up the air discharge port 78 to the inner side of the elevating guide 82, ie, the inner side of the main body 2.

On the other hand, the discharge port unit 80 is not lowered any more when the upper end of the groove portion 85 is raised to the upper end of the fixed gear 170 when the lowering as described above, the discharge port unit 80 is limited to over-insertion.

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;

6 is an exploded perspective view of main parts of the discharge port unit and the lifting guide according to the present invention;

7 is an enlarged longitudinal sectional view of the discharge unit driving mechanism when the discharge unit is lowered in an embodiment of the air conditioner according to the present invention;

8 is an enlarged longitudinal sectional view of the discharge unit driving mechanism when the discharge unit is raised in the air conditioner according to the embodiment of the present invention;

9 is a front sectional view showing the discharge unit and the discharge unit driving mechanism of the air conditioner according to the embodiment of the present invention;

10 is a plan sectional view showing an outlet unit driving mechanism of an embodiment of an air conditioner according to the present invention;

11 is a partial longitudinal cross-sectional view when the discharge port unit of the embodiment of the air conditioner according to the present invention is lowered;

12 is a partial longitudinal cross-sectional view of the air outlet unit of the embodiment according to the present invention in an elevated state.

<Explanation of symbols on main parts of the drawings>

2: base 4: left air intake

6: right air inlet 8: left air outlet

10: right air outlet 12: base

14: inclined portion 20: cabinet

30: lower left panel 40: lower right panel

50: upper panel 55: left discharge part

56: right discharge part 60: front cover

70: front panel 80: discharge port unit

82: lifting guide 85: groove

85a: opening 86: motor accommodating part

87: motor cover 88: gear housing

90: left vane 100: right vane

150: discharge port unit lifting mechanism 153: rotating shaft

152: motor 160: moving gear

170: fixed gear 172: gear portion

173: opening 180: receiving portion

181: body 182: protrusion

183: gear tooth 210: discharge port body

211: air guide 212: electric book

213: top cover

Claims (13)

A main body having an air inlet; An ejection opening unit disposed to be elevated on an upper portion of the main body and having an air discharge opening; A motor mounted to the discharge port unit to move up and down together with the discharge port unit; A moving gear mounted to the motor to be rotated by the motor; And a fixed gear disposed to the main body in a vertical direction so that the moving gear moves up and down linearly together with the motor and the discharge port unit when the moving gear rotates. The method of claim 1, The motor is installed so that the rotating shaft in which the moving gear is installed is arranged horizontally, The moving gear is a pinion connected to the rotating shaft, The fixed gear is an air conditioner consisting of a rack formed with gear teeth in which the pinion is meshed on one surface such that the pinion is linearly elevated along one surface. The method of claim 1, The main body includes a lift guide through which the discharge port unit is elevated, The fixed gear is an air conditioner disposed to be fixed to the lifting guide position. The method of claim 3, wherein The motors are respectively installed at the lower left and right sides of the discharge port unit, The fixed gear is an air conditioner, respectively disposed on the left and right sides of the lifting guide. The method of claim 3, wherein The fixed gear is disposed to protrude toward the inner side of the lifting guide on the inner wall of the lifting guide, The discharge port unit is an air conditioner, the guide portion is guided along the fixed gear is formed long in the vertical direction. The method of claim 5, wherein The guide unit is an air conditioner of which the top is blocked and the bottom is a groove. The method of claim 6, The guide unit is an air conditioner having an opening through which the fixed gear passes. The method of claim 6, And the motor is installed at a position where a part of the moving gear protrudes into the groove portion. The method of claim 6, The air discharging unit is provided with a motor accommodating portion in which a part of the motor is inserted and accommodated in the bottom surface, the moving gear is rotatably positioned and a gear accommodating portion formed in communication with the groove portion. The method of claim 9, The outlet unit further comprises a motor cover coupled to the lower portion of the outlet unit and covering the rest of the motor. The method of claim 10, And a shaft through portion through which the rotating shaft of the motor penetrates at an opposite portion of the motor receiving portion and the motor cover. The method of claim 3, wherein The fixed gear is a gear portion meshed with the moving gear, And an accommodation portion formed to protrude from an inner wall of the elevation guide so that the gear portion is installed. The method of claim 12, The gear unit and the receiving portion are fastening holes are formed in a corresponding position, respectively, the gear unit and the receiving portion is coupled to the air conditioning unit is coupled by a fastening member which is fastened to the other fastening hole.

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