KR101529223B1 - Air conditioner and Control method of the same - Google Patents

Abstract

A ventilator of the present invention comprises: a first ventilating unit in which a first motor rotates a first blower, and a hardness reinforcing unit is formed on a collecting plate of a first fan housing which surrounds the first blower; and a second ventilating unit in which a second motor rotates a second blower, and second fan housing which surrounds the second blower is formed. The second ventilating unit has a protruding discharge guide facing the collecting plate and blows air between the discharge guide and the collecting plate. At least a part of the hardness reinforcing unit faces the discharge guide. An inner cover in which one surface covers the hardness reinforcing unit, and the other surface guides air flowed by the second blower is arranged on at least one of the discharge guide and the collecting plate. Accordingly, turbulence generated when air flowed by the second blower flows into the hardness reinforcing unit can be minimized, and air can be rapidly sent.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner,

The present invention relates to a blower and an air conditioner having the blower, and more particularly to a blower including two blowers and an air conditioner having the blower.

A blower is a mechanism that causes air to flow.

The blower is installed in various devices such as an air conditioner and is capable of flowing air, and includes a wing car and a casing guiding a flow entering and leaving the wing car.

The blower may be classified into an axial fan and a centrifugal fan. The axial fan may generate the air in a direction parallel to the axis of rotation of the impeller. The centrifugal fan may rotate in the direction of the axis of rotation, Can be generated in a right angle direction.

The blower may include a blower having a bladder, a motor for rotating the blower, and a fan housing that forms a flow path for the blower and guides the air that has flowed by the blower.

A plurality of blowers may be provided in the air conditioner.

KR 10-1316427 B1 (Announcement of October 08, 2013)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner that minimizes the occurrence of turbulence by means of a strength reinforcing portion formed in a fan housing, and an air conditioner having the fan.

The first motor includes a first blowing part having a strength reinforcement formed on a front plate part of a first fan housing rotating the first blower and surrounding the first blower; Wherein the second motor includes a second blower having a second fan housing rotating the second blower and surrounding the second blower, wherein the second blower has a discharge guide protruding from the discharge guide facing the front plate, Wherein at least one of the discharge guide and the front plate part covers the strength reinforcing part and the other surface of the discharge guide and the front plate part has air flowed by the second blower, An inner cover is disposed.

The present invention relates to an image forming apparatus comprising: a first discharge unit; A second discharge unit; A discharge unit holder for supporting the first discharge unit and the second discharge unit; And a blower having a first blowing unit for blowing air to the first blowing unit and a second blowing unit for blowing air to the second blowing unit, wherein the first blowing unit is configured such that the first motor rotates the first blower And a second reinforcing portion is formed on a front plate portion of the first fan housing surrounding the first blower, and the second blowing portion includes a second fan housing that rotates the second blower and surrounds the second blower, Wherein at least one of the ejection guide and the front plate portion is provided with an ejection guide protruding from the ejection guide and facing the front plate portion and blowing air between the ejection guide and the front plate portion, The inner cover covering the strength reinforcement portion and guiding the air flowed by the second blower may be disposed on the other surface.

The first fan housing may include a vertical rib formed on the front surface of the front plate portion in the vertical direction and contacting the one side of the discharge guide and a side plate contacting the other side of the discharge guide, And can cover the rib and the side plate.

 Wherein the strength enhancing portion may include a radial rib formed radially in the front plate portion and a circular rib formed in the front plate portion so as to connect the radial ribs, wherein the outer cover has a semi-circular outer shape and the radial rib and the circular rib together Can be covered.

The first motor may have a protrusion formed on the front surface thereof. The front plate may have protruding portion receiving portions that receive the protruding portions protruding in the forward direction, and the inner cover has a protruding portion that avoids the protruding portion receiving portions .

The first fan housing may have a rear depression for forming the discharge guide and the air discharge passage facing the discharge guide.

In the first fan housing, a front discharge duct portion spaced apart in parallel to the discharge guide may protrude in a forward direction, and the first blower may include a first orifice for guiding air sucked by the first blower , And the first orifice may be formed with a rear discharge duct portion facing the front discharge duct portion.

The present invention is advantageous in that the rear cover not only covers the strength reinforcing portion but also guiding the air to minimize the occurrence of turbulence by the strength reinforcing portion, and the rear cover can help smooth discharge of air.

In addition, there is an advantage that each of the inner and outer surfaces of the first fan housing can be made compact while guiding the air.

1 is a perspective view of one embodiment of a blower according to the present invention,
2 is an exploded perspective view of a blower according to the present invention,
3 is a front view of one embodiment of a blower according to the present invention,
4 is a sectional view taken along the line AA shown in Fig. 3,
5 is a sectional view taken along line BB of Fig. 3,
FIG. 6 is a front view of an embodiment of an air conditioner having a blower according to the present invention. FIG.
FIG. 7 is a perspective view of the air conditioner having a blower according to an embodiment of the present invention,
8 is a sectional view taken along the line CC of Fig. 6,
9 is a sectional view taken along line DD of Fig.

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

FIG. 1 is a perspective view of one embodiment of a blower according to the present invention, FIG. 2 is an exploded perspective view of a blower according to the present invention, FIG. 3 is a front view of one embodiment of a blower according to the present invention, And FIG. 5 is a cross-sectional view taken along line BB of FIG. 3. As shown in FIG.

The blower F includes a first blowing section U and a second blowing section L. [

The first inflow section U has a first fan housing 3 in which the first motor 1 rotates the first blower 2 and surrounds the first blower 2. The first air-rich portion U may further include a first orifice 4 for guiding air sucked into the first blower 2. The first air-rich portion U may be a centrifugal fan.

The second blowing unit L has a second fan housing 7 in which the second motor 5 rotates the second blower 6 and surrounds the second blower 6. [ The second blowing unit L may further include a second orifice 8 for guiding air sucked into the second blower 6. [ And the second air-rich portion L may be a centrifugal fan. The second air-rich portion L protrudes from the discharge guide 9 facing the front plate portion 31 of the first fan housing 3 and can blow air between the discharge guide 9 and the front plate portion 31 .

The first motor 1 can be mounted to the first fan housing 3 by means of the first motor mounter 12. The first motor mount 12 may be mounted to the first fan housing 3 with a fastening member such as a screw. The first motor mount 12 can be mounted on the front plate portion 31 of the first fan housing 3.

The first motor (1) can project the rotary shaft (14) in the rear direction. The first motor 1 may have a protrusion 16 formed on its front surface.

The first blower 2 may be connected to the rotary shaft 14 of the first motor 1 and may be rotatably received between the first fan housing 3 and the first orifice 4.

The first fan housing 3 can be opened at the back. The first fan housing 3 may include a front plate portion 31 and a scroll wall 32 formed on the front plate portion 31 and surrounding the outer circumference of the first blower 2.

The front plate portion 31 of the first fan housing 3 may be formed with a protrusion receiving portion 33 that receives the protrusion 16 of the first motor 1 and protrudes in the forward direction. The protrusion receiving portion 33 may be opened at the back and at least a part of the protrusion 16 may be inserted.

The front plate portion 31 of the first fan housing 3 may be provided with an intensity reinforcing portion 34 for increasing the strength of the front plate portion 31. [ The strength reinforcing portion 34 may be formed in a structure to reduce the vibration transmitted from the first motor 1 and may be a combination of protrusions formed in the front surface of the front plate portion 31 and a groove portion. The strength reinforcing portion 34 may include a radial rib 35 formed radially in the front plate portion 31 and a circular rib 36 formed in the front plate portion 31 so as to be connected to the radial rib 35. The radial ribs 35 and the circular ribs 36 may form protrusions and the gap between the radial ribs 35 and the circular ribs 36 may be a groove. The strength reinforcing portion 34 may be formed on a part of the front plate portion 31. At least a part of the strength reinforcing portion (34) can face the discharge guide (9).

 The first fan housing 3 includes a vertical rib 37 formed in the front surface of the front plate 31 so as to be vertically elongated and in contact with one side 91 of the discharge guide 9, And a side plate 38 which is in contact with the side plate 38. The side plate 38 may be formed long on the side surface of the first fan housing 3 in the vertical direction. The side plate 38 can be parallel to the vertical rib 37 at its front portion.

The first fan housing 3 may be formed with a rear depression 39 forming the discharge guide 9 and the air discharge passage P1 facing the discharge guide 9. [ The rear depressed portion 39 may have a shape in which a front surface and an upper surface are opened. The rear depressed portion 39 may be bent in the backward direction in the front plate portion 31. [ The rear depression (39) can face a part of the discharge guide (9).

The first fan housing 3 may be provided with a front discharge duct portion 40 spaced apart in parallel with the discharge guide 9 in a forward direction. The front discharge duct portion 40 may have a shape in which a rear surface and an upper surface are opened. When the discharge guide 9 is located on the left side of the blower F, the front discharge duct portion 40 can be positioned on the right side of the blower F and conversely the discharge guide 9 is positioned on the right side of the blower F The front discharge duct portion 40 can be positioned on the left side of the blower F. [

The first orifice 4 may be coupled to the first fan housing 3 and disposed on the back surface of the first fan housing 3. The first orifice (4) may be formed with a first suction portion (42) through which air flows to the first blower (2). The first orifice (4) may include a thick plate (44) formed with a first suction portion (42).

The first orifice (4) may be formed with a rear discharge duct portion (46) facing the front discharge duct portion (40). The front and top surfaces of the rear discharge duct portion 46 can be opened. The rear discharge duct portion 46 may be formed on the rear plate 44 of the first orifice 4 so as to protrude forward. The rear discharge duct portion 46 can form the air discharge passage P2 together with the front discharge duct portion 40 when the first orifice 4 is coupled to the first fan housing 3. [ When the front discharge duct portion 40 and the rear discharge duct portion 46 are coupled to each other, at least a part thereof may be in the shape of a hollow cylinder. The front discharge duct portion 40 and the rear discharge duct portion 46 can function as the first discharge portion 48 in which the air blown by the first blower 2 is discharged to the outside of the first blowing portion U have.

The first orifice (4) may be formed with a first discharge guide portion (49) for guiding air discharged to the first discharge portion (48). The first discharge guide portion 49 may be formed to protrude forward in the rear plate 44 of the first orifice 4.

The second motor 5 can be mounted to the second fan housing 7 by the second motor mount 52. [ The second motor mount 52 may be mounted to the second fan housing 7 with a fastening member such as a screw. And the second motor mount 52 can be mounted on the lower front plate portion 72 of the second fan housing 7. [

The second motor 5 may be provided with a rotation shaft 54 protruding in the backward direction.

The second blower 6 may be connected to the rotary shaft 54 of the second motor 5 and may be rotatably received between the second fan housing 7 and the second orifice 8. [

And the second fan housing 7 can be opened at the rear side. The second fan housing 7 may include a lower front plate portion 71 and a lower scroll wall 72 formed on the lower front plate portion 72 and surrounding the outer circumference of the second blower 6. [

The whole front surface of the front plate portion 71 of the second fan housing 7 can be exposed to the outside. A flow path expanding portion 73 may be formed on the front plate portion 71 of the second fan housing 7 so that the flow path gradually extends in the air discharge direction and is connected to the discharge guide 9. [

The second orifice 8 may be coupled to the second fan housing 7 and disposed on the back of the second fan housing 7. The second orifice 8 may be formed with a second suction portion 82 through which the air flowing into the second blower 6 passes. The second orifice 8 may include a thick plate 84 on which the second suction portion 82 is formed. The second orifice 8 may further include a bottom plate 86 protruding forward from the bottom of the thick plate 84. The second orifice 8 may be provided with a second discharge guide 89 for guiding air blown between the front plate 31 of the first fan housing 3 and the discharge guide 9. The second discharge guide portion 89 may be formed to protrude forward from the rear plate 84 of the second orifice 8.

The second orifice 8 may be formed integrally with the first fan housing 3. The second orifice (8) can be connected to the lower part of the first fan housing (3).

The upper and lower surfaces of the discharge guide 9 can be opened and the lower part can communicate with the inside of the second fan housing 7. [ The discharge guide 9 may protrude upward from one side of the left and right sides of the fan housing 7. The discharge guide 9 may be formed in a semi-cylindrical shape. The discharge guide 9 can be disposed in front of a part of the front plate portion 31 and the air blowing through the air blown by the second blower 6 can be performed between the discharge guide 9 and the front plate portion 31 A passage P3 may be formed.

The first air-rich portion U can function as a second air-blown portion flow guide for guiding air blown by the second air-blown portion L. The first blowing-out section U can guide the air blown by the second blower 14 as well as guide the air blown by the first blower 4. The first blowing section U can guide the air blown by the first blower 3 on the inner surface and the air blown by the second blower 7 on the outer surface.

 At least one of the discharge guide 9 and the front plate 31 is provided with an inner cover 10 which covers the strength reinforcing portion 34 on one side and guides the air flowed by the second blower 6 on the other side. The inner cover 10 can prevent the air flowed by the second blower 6 from colliding with the strength reinforcing portion 34 and prevent the air passing between the discharge guide 9 and the front plate portion 9 The turbulence generation that may occur when flowing into the reinforcement portion 37 can be minimized.

The inner cover 10 may be an air guide surface 101 for guiding air on the front surface and may be an intensity reinforcing portion facing surface 102 that faces the strength reinforcing portion 34 and covers the strength reinforcing portion 34 have.

The inner cover 10 can be mounted so as to cover the space between the vertical rib 37 and the side plate 38 of the front plate portion 31. [ The maximum width in the left-right direction of the inner cover 10 may be shorter than the distance between the vertical ribs 37 and the side plate 38. [

The inner cover 10 may have a semicircular outer circumference 103 and cover the radial ribs 35 and the circular ribs 36 together.

 The inner cover 10 may be provided with a skin 104 which avoids the protrusion receiving portion 33. The skin 104 may be formed in a semi-circular shape on the inner cover 10.

The inner cover 10 can be fastened to the front plate portion 31 of the first fan housing 3 with a fastening member such as a screw and the fastening hole 105 through which the fastening member such as a screw passes, Can be formed.

The discharge guide 9 is provided in the front plate portion 31 of the first fan housing 3 with a portion facing the discharge guide 9 and a portion facing the discharge guide 9 together with the inner cover 10 and the rear depressed portion 39 98 and the second discharge portion 98 can guide air discharged by the second blower 6 to the outside of the second blowing portion L. [ The second discharge portion 98 can discharge air in a direction parallel to the discharge direction of the first discharge portion 48 at a position next to the first discharge portion 48. [

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

First, at the time of driving the first motor 1, the first blower 2 can be rotated between the first orifice 4 and the first housing 4.

The air behind the first orifice 4 can be sucked into the first blower 2 through the first suction portion 42 and can be sucked into the first fan housing 3 and the second blower 2 when the first blower 2 rotates. The air can be guided along the first orifice 4 and flowed into the space between the rear discharge duct portion 46 and the front discharge duct portion 40 and the air discharged between the rear discharge duct portion 46 and the front discharge duct portion 40 And can pass through the passage P2. The air can be blown upward between the rear discharge duct portion 46 passing between the rear discharge duct portion 46 and the front discharge duct portion 40 and the front discharge duct portion 40. When the first motor (1) is driven, the first blowing section (U) can blow air upward in the first blowing section (U).

On the other hand, when the second motor 5 is driven, the second blower 6 can be rotated between the second orifice 8 and the second housing 7.

The air behind the second orifice 8 can be sucked into the second blower 6 through the second suction portion 82 and the second blower 6 can be sucked into the second fan housing 7, Can be guided along the second orifice (7) and flowed between the discharge guide (9) and the front plate portion (31). The air introduced between the discharge guide 9 and the front plate portion 31 is blocked by the inner cover 10 and does not flow into the strength reinforcing portion 34 and passes between the discharge guide 9 and the inner cover 10, As shown in Fig. The air that has passed between the discharge guide 9 and the inner cover 10 can pass between the discharge guide 9 and the rear depressed portion 39 and can flow between the discharge guide 9 and the rear depressed portion 39 on the upper side . When the second motor 5 is driven, the second blowing unit L can blow air upward in the first blowing unit U.

6 is a front view of one embodiment of an air conditioner having a blower according to the present invention, FIG. 7 is a perspective view in which a blower is separated from a blowing unit of an air conditioner having a blower according to the present invention, And Fig. 9 is a cross-sectional view taken along line DD of Fig.

The air conditioner having the blower comprises a blower F; A first discharge unit (110); A second discharge unit (120); And a discharge unit holder 130 for supporting the first discharge unit 110 and the second discharge unit 120.

The blower F may have a first discharge portion 48 for blowing air to the first discharge unit 110 and a second discharge portion 98 for blowing air to the second discharge unit 120.

Each of the first discharge unit 110 and the second discharge unit 120 may have a cylindrical shape. The first discharge unit 110 and the second discharge unit 120 have the same structure and may have different positions.

Either one of the first ejection unit 110 and the second ejection unit 120 may be a right ejection unit located on the right side with respect to the center line E of the air conditioner, The other one of the second ejection units 120 may be a left ejection unit located on the left side with respect to the center line E of the air conditioner. The first discharge unit 110 and the second discharge unit 120 may be spaced apart in the horizontal direction.

The right discharge unit can discharge air from the right direction of the air conditioner to the front direction of the air conditioner and the left discharge unit can discharge air from the left direction of the air conditioner to the front direction of the air conditioner.

The right discharge unit and the left discharge unit can discharge air in mutually opposite directions. The right discharge unit can discharge air in the right direction of the air conditioner and the left discharge unit can discharge air in the left direction of the air conditioner.

The right discharge unit can discharge air in the first oblique direction on the right front side of the air conditioner and the left discharge unit can discharge the air in the second oblique direction on the left front side of the air conditioner.

Further, the right discharge unit can discharge air in the front direction of the air conditioner, and the left discharge unit can discharge air in the front direction of the air conditioner. In this case, the right discharge unit and the left discharge unit can discharge air in a parallel direction, and two forward airflows can be formed in front of the air conditioner.

The first and second discharging units 110 and 120 will be referred to as a discharging unit in the following description. The first discharging unit 110 and the second discharging unit 120 have the same structure, Quot;

The discharge unit includes a suction port 121 through which the air blown from the blower F flows, an internal flow path 122 through which the air having passed through the suction port 121 is guided, The air inlet 122 and the air outlet 123 can constitute the discharge passage 124 of the discharge unit.

The discharge unit may be provided with a wind direction adjusting vane 125 for adjusting the wind direction of the air passing through the discharge path 124. The wind direction adjusting vane 125 can be rotatably disposed inside the discharge unit. The wind direction adjusting vane 125 may be installed in the inner flow path 122 and may have a tip end facing the air outlet 123.

 The suction port 121 may be formed in the lower portion of the discharge unit so as to pass through the discharge port in the vertical direction. The inner flow path 122 may be formed long in the vertical direction inside the discharge unit. The air outlet 123 may be formed at the periphery of the discharge unit. The discharge unit may have a closed top surface, and the air discharge port 123 may be formed in the upper plate portion and the peripheral portion of the peripheral portion of the discharge unit. The air outlet 123 may be formed to pass through the periphery of the discharge unit in a horizontal direction. The air outlet 123 may be formed to be long in the vertical direction on the periphery of the discharge unit. The opening direction of the air inlet 121 and the opening direction of the air outlet 123 may be orthogonal. The air blown from the blower F is sucked into the discharge unit through the suction port 121 and then the flow direction is changed inside and discharged horizontally through the air discharge port 123. [

The discharging unit may be composed of a combination of a plurality of members. The discharging unit may include a discharging body 126 having a discharging flow path 124 formed therein. The discharge unit may further include a top body 127 provided on the discharge body 126 and a lower ring 128 coupled to a lower portion of the discharge body 126.

The discharge body 126 may be formed in a cylindrical shape with the upper surface closed, the lower surface opened, and the like. The air inlet 122 and the air outlet 123 may be formed in the discharge body 126 and the air outlet 123 may be formed in a part of the periphery of the discharge body 126 .

On the other hand, the wind direction adjusting vane 125 can be rotatably disposed on the discharge body 126. The discharge body 126 may be provided with a wind direction adjusting motor (not shown) for generating a driving force for rotating the wind direction adjusting vane 125. The wind direction adjusting motor may be directly connected to the wind direction adjusting vane 125 or may be connected to the wind direction adjusting vane 125 through a power transmitting member such as a link.

The discharging body 126 may be composed of a combination of a plurality of members and includes an outer body 126A forming an outer appearance of the discharging body 126 and an inner guide 126B disposed inside the outer body 126A . The discharge body 126 may protrude a rotation projection 126C constituting the rotation center axis of the discharge unit.

 The outer body 126A may be formed in a hollow cylindrical shape. The upper and lower surfaces of the outer body 126A can be opened, respectively, and a space in which the inner guide 126B is accommodated can be formed. The outer body 126A can be coupled with a plurality of outer bodies having a circular arc shape in a hollow cylindrical shape and the air outlet 123 can be formed in any one of the plurality of outer bodies. So that the discharge grille can be positioned.

The inner guide 126B may be formed in a hollow cylindrical shape with its lower surface opened and closed on its upper surface. A suction port 121 may be formed in a lower portion of the inner guide 126B, and an inner flow path 122 may be formed therein. The wind direction adjusting vane 125 may be rotatably connected to the inner guide 126B.

The top body 127 may be a wire guide for guiding a wire (not shown) connected to the wind direction adjusting motor, and a wire through hole 127A through which the wire passes may be formed.

The top body 127 may be mounted on the upper portion of the discharge body 126 and mounted thereon or may be mounted with a fastening member such as a screw.

The top body 127 may be formed with a boss 127B protruding upward to surround the rotation protrusion 126C. The boss portion 127B together with the rotation projection 126C can constitute the rotation center axis of the discharge unit. The boss portion 127B can be positioned between the support hole 136A formed in the top cover 136 described later and the rotation protrusion 126C and can be supported in the support hole 136A of the top cover 136 .

  The lower ring 128 can be coupled to the lower portion of the discharge body 126 and can be rotated together with the discharge body 126. The lower ring 128 may be coupled to the discharge body 126 by a fastening member such as a screw. The lower ring 128 may be formed with a fastening member through-hole through which a fastening member such as a screw passes.

The discharge unit may further include a gear member 129 having a driven gear. The gear member 129 may be formed with a fastening portion that is fastened to at least one of the discharge body 126 and the lower ring 128 by a fastening member such as a screw.

The gear member 129 may be formed with a driven gear on the outer periphery of the lower portion.

The discharge unit holder 130 can support the first discharge unit 110 and the second discharge unit 120 in parallel with each other.

The discharge unit holder 130 includes a ring-shaped first ring portion 131 into which the first discharge portion 48 is inserted and a ring-shaped second ring portion 132 into which the second discharge portion 98 is inserted .

The discharge unit holder 130 may be composed of a combination of a plurality of members.

The discharge unit holder 130 may include a lower body 133 on which the discharge unit is rotatably seated and a rear body 134 formed on the upper side of the lower body 133 and surrounding a part of the outer periphery of the discharge unit have. The discharge unit holder 130 may further include a lower cover 135 disposed below the lower body 133 and having a first ring portion 131 and a second ring portion 132 formed thereon. The discharge unit holder 130 may further include a top cover 136 coupled to an upper portion of the rear body 134 and positioned above the discharge unit. The discharge unit holder 130 may include blower fastening portions 137 and 138 fastened to the blower F. [ The blower fastening portions 137 and 138 include a first discharge portion fastening portion 137 fastened to the first discharge portion 48 and a second discharge portion fastening portion 138 fastened to the second discharge portion 98, . ≪ / RTI > Blower fastening portions 137 and 138 may be formed in the lower cover 135. The lower cover 135 can function as a discharge unit holder mount for mounting the discharge unit holder 130 to the blower F. [

The discharge unit holder 130 may be provided with a discharge unit rotating mechanism 140 for rotating the discharge unit. The discharge unit rotating mechanism 140 may include a drive gear 142 engaged with the driven gear of the gear member 129 and a rotary motor 144 for rotating the drive gear 142. [ The rotary motor 144 may be installed on either the lower body 133 or the lower cover 135. The discharging unit rotating mechanism 140 may be provided for each discharging unit.

The air conditioner having the blower may further include a casing 150 forming an appearance. The blower F may be installed inside the casing 150.

The casing 150 may include a base 151. The base 151 may have a three-dimensional shape with the front surface and the top surface opened. The base 151 may include a lower frame 152 and a thick plate 153 formed on the lower frame 152. The thick plate portion 153 may be formed perpendicular to the rear portion of the lower frame 152.

The casing 150 may further include a front cover 155. The front cover 155 may be provided so as to cover the front of the blower F. [ The lower end of the front cover 155 can be raised to the lower frame 152 of the base 151. [ The front cover 155 may be installed on the lower frame 152 to shield a part of the lower frame 152.

 The casing 150 may include a suction body 156 through which air is sucked into the air conditioner. The suction body 156 may be installed on the upper side of the base 151. The suction body 156 may be installed on the upper plate 153 of the base 151. The suction body 156 may be arranged vertically in the vertical direction on the upper plate 153 of the base 151. The suction body 156 may be formed with an air inlet 156A through which air outside the air conditioner is sucked into the air conditioner.

The suction body 156 may be provided with a purifier unit 157 for purifying the air sucked into the air conditioner. The purifying unit 157 may include a filter that filters foreign matter as air passes through it. The purifying unit 157 may include an electrostatic precipitator for charging and collecting dust in the air. The purifying unit 157 may include an ion generator that generates ions in the air.

The air conditioner may include a heat exchanger 158 installed inside the casing 150 for exchanging heat with the refrigerant. The heat exchanger 158 may be positioned between the suction body 156 and the blower F in the air flow direction.

Air outside the air conditioner can be sucked into the air conditioner through the suction body 156 and then passed through the heat exchanger 158. The air having passed through the heat exchanger 158 can be sucked into the blower F and can be dispersed and blown into the first and second discharging units 110 and 120 by the blower F. [

The air having passed through the heat exchanger 158 can be partially blown to either the first discharge unit 110 or the second discharge unit 120 and the rest can be blown out from the first discharge unit 110 and the second discharge unit 120 120 to the other. The air can be dispersed into the first discharge unit 110 and the second discharge unit 120 by the blower F and the air dispersed in the first discharge unit 110 and the second discharge unit 120 1 discharge unit 110 and the second discharge unit 120 so as to be dispersedly discharged into the room.

The blower F may be installed inside the casing 150. The blower F may be installed to face a part of the heat exchanger 158. The blower F may be installed in front of the heat exchanger 158. The blower F can blow air in the upward direction by sucking the rear air.

The first discharging portion 48 can guide air to the first discharging unit 110 positioned on the upper side thereof.

 And the second discharging portion 98 can discharge air toward the second discharging unit 120 positioned on the upper side.

The first discharging portion 48 and the second discharging portion 98 can discharge air in a parallel state like the first discharging unit 110 and the second discharging unit 120. [

Each of the first discharging unit 48 and the second discharging unit 98 can discharge air in the upward direction and the first discharging unit 110 and the second discharging unit 120 spaced horizontally Can be dispersedly ejected. Each of the first discharge portion 48 and the second discharge portion 98 may be opened on the upper surface.

The air having passed through the open upper surface of the first discharging portion 48 after being guided to the first discharging portion 48 is guided to the first discharging unit 110 through the inlet 121 formed in the lower portion of the first discharging unit 110 As shown in Fig.

The air that has been guided to the second discharge portion 98 and then passes through the opened upper surface of the second discharge portion 98 is discharged through the suction port 121 formed in the lower portion of the second discharge unit 120, As shown in FIG.

 The first discharge portion 48 and the second discharge portion 98 may be provided with coupling portions 49 and 99 to be coupled to the discharge unit holder 130, respectively. A first coupling portion 49 is formed on the outer surface of the first discharge portion 48 so that the first discharge portion coupling portion 137 of the discharge holder 130 is coupled with a coupling member such as a screw. A second coupling portion 99 is formed on the outer surface of the second discharge portion 98 so that the second discharge portion coupling portion 138 of the discharge holder 130 is coupled with a coupling member such as a screw.

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

During operation of the air conditioner, the blower F can be driven, and when the blower F is driven, the first motor 1 and the second motor 5 of the blower F can be driven together.

When the first motor 1 is driven, the first blower 2 can be rotated and the second blower 6 can be rotated when the second motor 5 is driven.

At the time of rotation of the first blower 2 and the second blower 6, the outside air of the air conditioner can flow toward the first blower 2 and the second blower 6. [ The outside air of the air conditioner can flow through the intake body 156 to the heat exchanger 158 and flow through the heat exchanger 158 after the first suction portion 42 of the blower F and the second And can be dispersed and sucked into the suction portion 82.

The air sucked into the first suction portion 42 can be blown upward by the first blower 2 and the air sucked into the second suction portion 82 can be blown upward by the first blower 2, And can be blown up to the upper side of the second discharge portion 98 by the blower 6.

The air blown to the upper side of the first discharging unit 48 can be guided to the outside of the first discharging unit 110 after being introduced into the first discharging unit 110, The air blown to the upper side of the second discharge unit 120 may be introduced into the second discharge unit 120 and then discharged to the outside of the second discharge unit 120.

The air conditioner can discharge air in a state in which the first discharge unit 110 and the second discharge unit 120 are spaced apart from each other and the air blown in the upper two directions from the blower F is discharged from the first discharge unit (110) and the second discharge unit (120) and can be discharged and guided to the room.

It should be understood that the present invention is not limited to the above-described embodiments, and various modifications are possible within the technical scope of the present invention.

1: first motor 2: first fan
3: first fan housing 4: first orifice
5: second motor 6: second fan
7: second fan housing 8: second orifice
9: Discharge guide 10: Inner cover
31: front plate portion 36:
33: protrusion receiving portion 34: strength reinforcing portion
35: Radial rib 36: Circular rib
37: vertical rib 38: side plate
39: rear depression part 40: front discharge duct part
46: rear discharge duct part 110: first discharge unit
120: second discharging unit 130: discharging unit holder

Claims (12)

A first motor having a first blowing portion having a strength reinforcing portion formed on a front plate portion of a first fan housing rotating the first blower and surrounding the first blower;
And the second motor includes a second blower portion having a second fan housing that rotates the second blower and surrounds the second blower,
The second air blowing portion is provided with a discharge guide protruding from the front plate portion facing the front plate portion and blowing air between the discharge guide and the front plate portion,
At least a portion of the strength reinforcing portion facing the discharge guide,
Wherein at least one of the discharge guide and the front plate portion has an inner cover disposed on one side thereof for covering the strength reinforcing portion and on the other side for guiding air flowed by the second blower. The method according to claim 1,
The first fan housing
A vertical rib formed on the front surface of the front plate portion in the vertical direction and contacting the one side of the discharge guide,
And a side plate that is in contact with the other side of the discharge guide,
And the inner cover covers between the vertical rib and the side plate of the front plate portion. The method according to claim 1,
Wherein the strength reinforcing portion includes a radial rib formed radially on the front plate portion and a circular rib formed on the front plate portion to connect the radial rib,
Wherein the inner cover has a semicircular outer periphery and covers the radial ribs and the circular ribs together. The method according to claim 1,
The first motor has a protrusion formed on its front surface,
Wherein the front plate portion is formed with a protruding portion accommodating portion which accommodates the protruding portion and protrudes in the forward direction,
Wherein the inner cover has a protruding portion for avoiding the protruding portion accommodating portion. The method according to claim 1,
Wherein the first fan housing has a rear depression for forming the discharge guide and the air discharge passage facing the discharge guide. The method according to claim 1,
Wherein the first fan housing has a front discharge duct portion spaced apart in parallel with the discharge guide in a forward direction,
Wherein the first blower includes a first orifice for guiding air sucked into the first blower,
Wherein the first orifice has a rear discharge duct portion facing the front discharge duct portion. A first discharge unit;
A second discharge unit;
A discharge unit holder for supporting the first discharge unit and the second discharge unit;
And a blower having a first blowing portion for blowing air to the first discharge unit and a second blowing portion for blowing air to the second discharge unit,
Wherein the first blower includes a first reinforcing portion formed on a front plate portion of a first fan housing that rotates the first blower and surrounds the first blower,
The second blower has a second fan that rotates the second blower and surrounds the second blower, a discharge guide protruding from the second fan housing faces the front plate, and blows air between the discharge guide and the front plate,
At least a portion of the strength reinforcing portion facing the discharge guide,
Wherein at least one of the discharge guide and the front plate portion has an air blower having an inner cover disposed on one side thereof for covering the strength reinforcing portion and for guiding air flowed on the other side by the second blower. 8. The method of claim 7,
The first fan housing
A vertical rib formed on the front surface of the front plate portion in the vertical direction and contacting the one side of the discharge guide,
And a side plate that is in contact with the other side of the discharge guide,
Wherein the inner cover has a blower which covers between the vertical rib and the side plate of the front plate portion. 8. The method of claim 7,
Wherein the strength reinforcing portion includes a radial rib formed radially on the front plate portion and a circular rib formed on the front plate portion to connect the radial rib,
Wherein the inner cover has a semicircular outer periphery and covers the radial rib and the circular rib together. 8. The method of claim 7,
The first motor has a protrusion formed on its front surface,
Wherein the front plate portion is formed with a protruding portion accommodating portion which accommodates the protruding portion and protrudes in the forward direction,
Wherein the inner cover has an air blower in which a protruding portion is formed to avoid the protruding portion accommodating portion. 8. The method of claim 7,
Wherein the first fan housing has a blower having a rear depression for forming the discharge guide and the air discharge passage facing the discharge guide. 8. The method of claim 7,
Wherein the first fan housing has a front discharge duct portion spaced apart in parallel with the discharge guide in a forward direction,
Wherein the first blower further comprises a first orifice having a rear discharge duct portion facing the front discharge duct portion.

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