KR20150041340A - Indoor unit for cassette type air conditoiner - Google Patents

Abstract

An indoor unit for a cassette type air conditioner according to an embodiment of the present invention is configured to improve the exterior by having a vane drive assembly for operating a vane to guide discharged air shielded by the vane, and to improve the flow of the discharged air as both ends of the vane are formed in a round shape, and an outer surface of the vane drive assembly for operating the vane is contacted to the vane.

Description

[0001] The present invention relates to an indoor unit for a cassette type air conditioner,

The present invention relates to an indoor unit of a cassette type air conditioner.

In general, an air conditioner is a cooling / heating system for cooling or heating a city by an operation of sucking indoor air and exchanging heat with coolant of low or high temperature and discharging it to the room, And a valve-evaporator.

Particularly, the air conditioner mainly comprises an outdoor unit (also referred to as an 'outdoor side' or a 'heat radiating side') installed in an outdoor space and an indoor unit (also referred to as an 'indoor side' or ' A condenser (outdoor heat exchanger) and a compressor are installed in the outdoor unit, and an evaporator is installed in the indoor unit (indoor heat exchanger).

As is well known, the air conditioner can be broadly divided into a separate type air conditioner in which an outdoor unit and an indoor unit are separated from each other, and an integral type air conditioner in which an outdoor unit and an indoor unit are integrally installed. In consideration of installation space and noise, Harmonics are preferred.

In the multi-type air conditioner of the separate type air conditioner, a plurality of indoor units are connected to one outdoor unit, and the indoor units are installed in the room for air conditioning, thereby providing a plurality of air conditioners.

Hereinafter, a configuration of an indoor unit of a cassette type air conditioner in a general multi-type air conditioner will be described with reference to the accompanying drawings.

1 is a bottom perspective view showing an appearance of an indoor unit of a cassette type air conditioner according to the related art.

As shown in the figure, the indoor unit 1 has a casing body 10 which is fixedly installed in a ceiling and is suspended, and a panel 200 and a suction grille 40, which form a bottom surface, So that the indoor air is sucked and then discharged to the room again.

Therefore, when the user views the ceiling of the indoor unit 1, the panel 20 and the suction grille 40 are visible only when the casing body 10 is positioned on the ceiling.

The panel 20 has a lower outer rim portion of the indoor unit 1. The panel 20 is formed with a suction port (not shown) which is drilled in a rectangular shape at the center to guide indoor air into the indoor unit 1, A plurality of air outlets 26 are formed on the outside of the air inlet (not shown) to guide the conditioned air inside the indoor unit 1 back into the room.

The panel 20 is composed of an outer frame panel 22 forming an outer side with respect to the jet port 26 and an inner frame panel 24 forming an inner side. Accordingly, the jet port 26 can be formed at a spaced position between the outer frame panel 22 and the inner frame panel 24. Between the inner frame panel 24 and the outer frame panel 22, a wind direction adjusting unit 30 for adjusting the flow direction of the air discharged from the air outlet 26 is rotatably provided.

The inner frame panel 24 is formed with an indented recessed space. The recessed space is formed in a lattice shape, and a suction grille 40 having a suction port 42 through which air is sucked is mounted. The suction grill 40 may be received in a seating space recessed in the lower surface of the inner frame panel 24 and may be in close contact with the circumference of the seating space to provide an integrated feel.

The wind direction adjuster 30 is disposed in a space between the inner frame panel 24 and the outer frame panel 22 and has both ends rounded. The wind direction adjusting unit 30 is disposed between the wind direction adjusting and driving units 32 provided at the right and left sides of the wind direction adjusting unit 30 and has both ends connected to the wind direction adjusting driving unit 32, And the wind direction adjusting unit 30 rotates according to the operation of the driving unit 32 to guide the discharged air.

However, the conventional indoor unit having the above-described configuration has the following problems.

In order to prevent interference with the wind direction adjustment driving unit 32 during rotation, the wind direction adjustment unit 30 should be positioned between the wind direction adjustment unit 32 and the wind direction adjustment unit 30, The size of the windshield 30 can not be shorter than the distance between the windshield adjustment driving parts 32. [

Therefore, the interval between the inner frame panel 24 and the outer frame panel 22 is increased to mount the wind direction adjusting and driving unit 32, none.

The distance between the inner frame panel 24 and the outer frame panel 22 and between the wind direction adjusting section 30 and the outer frame panel 22 is relatively large when the indoor unit 1 is viewed from below. There is a problem that the wind direction adjustment driving unit 32 is directly exposed and the appearance is poor.

In addition, since the wind direction adjusting unit 30 is positioned between the wind direction adjusting driving unit 32, the size of the wind direction adjusting unit 30 is limited and the size of the air outlet 26 is limited. Accordingly, since the size of the jet port 26 is small, the appearance is not good, and the air discharge efficiency is also poor.

It is an object of the present invention to provide an indoor unit of a cassette type air conditioner in which a vane drive assembly for driving a vane for guiding discharged air can be shielded by a vane to improve appearance.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an indoor unit of a cassette type air conditioner in which both ends of a vane are formed in a round shape and an outer surface of a vane driving assembly for driving the vane is in contact with a vane to improve the flow of discharged air have.

An indoor unit of a cassette type air conditioner according to an embodiment of the present invention includes a cabinet mounted with a heat exchanger and a blower and installed in a ceiling of an indoor space; A panel defining a lower surface of the cabinet; An inlet opening at the center of the panel for sucking indoor air; A discharge opening formed in a panel on the outer side of the suction port, the discharge ports being formed in such a shape that both ends of the discharge cells intersect with two rounded curves; A vane formed in a shape corresponding to the discharge port to open / close the discharge port and guide discharge air; A vane drive assembly disposed on an inner surface of the panel and coupled to both sides of the vane to rotate the vane; And a suction grille mounted on an outer surface of the panel and mounted to cover the suction port. The outer surface of the vane drive assembly is provided with an inclined or rounded portion for preventing interference with the end of the vane when the vane is rotated. And a stopper portion formed so as to be slidable is further formed.

And the vane drive assembly is located on both sides of the discharge port and is configured to be shielded by the vane when the vane is closed.

And at least a part of the vane drive assembly is disposed at a position overlapping the vane.

The stopper portion contacts the end line of the vane in a state where the vane is completely rotated, and the discharged air is directed to the discharge port along the vane and the stopper portion.

The vane drive assembly includes: a case forming an outer shape and fixedly mounted on the panel; And a driving motor which is accommodated in the case and is coupled with the rotating shaft of the vane and is rotated.

The vane drive assembly includes: a case forming an outer shape and fixedly mounted on the panel; And a support plate accommodated in the case and formed in a bent plate-like structure and elastically supporting the rotation axis of the vane.

Wherein the vane comprises: a plate formed in a plate shape corresponding to the discharge port; An extension extending downward from the bottom surface of the plate; And a rotation shaft projecting laterally of the extension portion and rotatably and axially coupled to the vane drive assembly.

And a plurality of vane grooves recessed in the longitudinal direction are formed on the lower surface of the plate.

The panel may further include a heat insulating member formed to be rounded toward the discharge port.

And an outer end of the suction grille is formed with a recessed portion extending to coincide with an inner line of the discharge port.

And protrusions extending between the plurality of discharge ports are further formed at corners of the suction grille.

And the outer end of the protrusion is formed to be connected to an outer line of the vane.

The panel is formed with a round groove shaped like a closed curve connecting an outer line of the discharge port, an outer line of the vane and an outer line of the protrusion.

According to the present invention having the above-described configuration, the suction grille is mounted so as to cover the panel, and in particular, the suction grille extends to the discharge port of the panel to form an inner line of the discharge port, .

In addition, the outer line of the discharge port and the protrusion of the suction grille form one closed curve by the round grooves, thereby minimizing the lines generated due to the connection parts between the parts, so that the appearance can be made more clean and orderly.

To this end, both ends of the discharge port and the vane are formed in such a shape that two rounded curves meet. A vane drive assembly is mounted on the inner surface of the panel so that the vane is shielded in a closed state and is not exposed to the outside.

A stopper portion formed in an oblique or round shape is formed on an upper surface of the vane drive assembly so as not to interfere with the end of the vane in a state where the vane is rotated.

Accordingly, it is possible to open and close the discharge port by the smooth rotation of the vane while preventing the vane drive assembly from being exposed to the outside.

In addition, when the vane is fully rotated, the end portion of the vane is in close contact with the stopper portion, so that the discharged air can be discharged toward the center along the outer surface of the vane and the stopper without leaking outwardly, So that it can be discharged into the indoor space.

Also, since the discharged air can be smoothly discharged along the vane and the stopper without being accumulated on the end of the discharge port, it is possible to prevent the occurrence of condensation on the end of the discharge port or the end of the vane, .

1 is a perspective view of an indoor unit of a cassette type air conditioner according to the prior art.
2 is a cutaway perspective view schematically showing the construction of an indoor unit of a cassette type air conditioner according to an embodiment of the present invention.
3 is a bottom view of the indoor unit of the cassette type air conditioner.
Fig. 4 is an exploded perspective view of the main structure of the indoor unit of the cassette type air conditioner.
FIG. 5 is a top view of a state in which the panel of the indoor unit of the cassette type air conditioner is coupled with the suction grille.
6 is a partial perspective view showing a state in which the vane of the indoor unit of the cassette type air conditioner is rotated.
7 is an exploded perspective view showing a coupling structure of the vane and the vane driving assembly.
8 is a rear view showing a coupling structure of the vane and the vane driving assembly.
9 is a perspective view of the suction grille viewed from above.
10 is a sectional view showing the sectional shape of the grill portion of the suction grill.
11 is a sectional view showing the structure of a connecting member of the indoor unit of the cassette type air conditioner.
Fig. 12 is a perspective view of the suction grill being completely opened. Fig.
13 is a sectional view of the vane being closed.
14 is a sectional view of the vane being opened.
15 is a perspective view schematically showing an air flow of the panel and the suction grille.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, it should be understood that the present invention is not limited to the embodiment shown in the drawings, and that other embodiments falling within the spirit and scope of the present invention may be easily devised by adding, .

2 is a cutaway perspective view schematically showing the construction of an indoor unit of a cassette type air conditioner according to an embodiment of the present invention.

As shown in the drawing, an indoor unit 100 (hereinafter referred to as "indoor unit") of a cassette type air conditioner according to an embodiment of the present invention includes a cabinet 110 which is inserted into a ceiling of an indoor space as a whole, A panel 200 and a suction grille 300, which are provided at a lower end of the ceiling 110 to form an appearance of a lower surface and are exposed to the lower side of the ceiling when the indoor unit is installed.

The cabinet 110 includes a heat exchanger 110 for exchanging heat with air to be sucked, a blowing fan 120 for forced suction and discharge of indoor air, and air sucked toward the blowing fan 120 A bell mouth air guide 130 may be provided.

The panel 200 may be mounted on the lower end of the cabinet 110 and may have a substantially rectangular shape when viewed from below. The panel 200 may be configured to protrude further outward than the lower end of the cabinet 110 so that the periphery of the cabinet 110 contacts the lower surface of the ceiling.

A discharge port 210, which is an outlet of air discharged through the cabinet 110, may be formed in the panel 200. The discharge port 210 may be formed at a position corresponding to each side of the panel 200. The discharge port 210 may be formed to be long along the longitudinal direction of each side of the panel 200 and may be configured to be opened or closed by a vane 220 mounted on the panel 200.

A suction grille 300 is mounted at a central portion of the panel 200. The suction grill 300 forms a bottom surface of the indoor unit 100 and forms a passage for air flowing into the indoor unit 100. At least a part of the suction grille 300 may be formed in a grill or lattice shape so that indoor air can flow smoothly.

Hereinafter, the structure of the panel 200 and the suction grill 300 will be described in more detail.

3 is a bottom view of the indoor unit of the cassette type air conditioner. 4 is an exploded perspective view of the main structure of the indoor unit of the cassette type air conditioner. 5 is a top view of a state where the panel of the indoor unit of the cassette type air conditioner is coupled with the suction grill.

As shown in the drawing, the panel 200 is formed in a substantially rectangular plate shape, and a suction port 230 is formed at the center of the panel 200. The suction port 230 may be formed to have a rectangular shape in which room air is sucked, and may be formed to be somewhat smaller than the suction grill 300.

The discharge port (210) is formed outside the suction port (230). The ejection openings 210 may be four, four, five, or more. At this time, both end portions of the discharge port 210 are formed in a curved shape that becomes narrower toward the outer side.

A grill seating part 232 is formed outside the suction port 230. The grill seating part 232 is formed to be stepped so that the suction grille 300 can be supported. The grill seating part 232 is formed with a panel side mounting part 260 to which a connection member 400 to be described later will be mounted.

The perimeter of the grill seating part 232 is formed in the shape of a closed curve connecting the outer line of the discharge port 210 as a whole. In the state where the suction grill 300 is mounted, the circumference of the grill seating part 232 forms a round groove 234. The round groove 234 may be formed in a rectangular shape having four corners rounded. The corner of the round groove 234 forms a line corresponding to the end of the protrusion 320 of the suction grill 300 so that the vane 220 of the discharge port 210 and the suction grille 300, The panel 200 is formed so as to have a sense of unity as a whole.

The round groove 234 is formed such that the discharged air does not flow along the panel 200 and has a predetermined round or slope in a cross section so as to face the indoor space. The air is discharged from the discharge port 210 by the air Ensure that the ceiling is not wet or contaminated.

The inspection hole 240 may be formed at four corners of the panel 200. The inspection port 240 provides a space for fixing and installing the panel 200 and a service for electric parts mounted on the back of the panel 200 or an operation of the indoor unit 100, 242, respectively. At this time, the inspection port 240 and the corner cover 242 may be formed at all four corners of the panel 200 and may be formed at at least one position as required.

The end of the corner cover 242 is disposed to face the end of the protrusion 320 of the suction grille 300 with the round groove 234 as a boundary. At this time, both the corner cover 242 and the protrusion 320 are formed to have a line corresponding to the round groove 234, so that an overall appearance can be formed.

A separate panel bracket 236 may be mounted on the grill seating part 232 of the panel 200 if necessary. The panel bracket 236 may reinforce the grill seating part 232, And the structure for mounting and opening the suction grill 300 mounted on the seating part 232 can be stably supported. Of course, if necessary, the panel bracket 236 is not provided, and the grill seating part 232 and the panel bracket 236 are integrally formed so that the grill seating part 232 functions as the panel bracket 236 You can do it.

The panel bracket 236 may have a rectangular frame shape and may have a central portion corresponding to the shape of the suction port 230. The panel bracket 236 is attached to the panel 200 so that the opening and closing member 340 and the fixing member 330 are engaged with each other so that the suction grill 300 can be maintained in a closed state So that it can be fixed.

Therefore, the panel bracket 236 may be formed of a material having a high strength so as not to be deformed or damaged by a load, and may be formed of a material different from that of the panel 200. For example, the panel bracket 236 may be formed of a metal material and mounted on the inner surface of the panel 200.

A fastening part 237 is formed on both left and right sides of the panel bracket 236 so that the grill restraint member 390 can be fastened. When the opening and closing member 340 and the fixing member 330 are configured to be constrained to the front and rear ends of the panel 200, the coupling portion 237 and the grill restraint member 390 may be fixed to the panel bracket 236 So that the suction grill 300 can be fixed in all four directions by the opening and closing member 340, the fixing member 330 and the grill restraint member 390. [

The grill restricting member 390 is located at an intermediate position in the forward and backward directions of the suction grill 300. When the grill restricting member 390 is fastened to the panel bracket 236, So that the left and right ends of the left and right sides can be fixed without falling down. That is, the front and rear ends of the suction grille 300 are fixed by the opening and closing member 340 and the fixing member 330, and both right and left ends of the suction grille 300 are connected to the grill restraining member 390, As shown in Fig.

When the panel bracket 236 is integrally formed when the panel 200 is formed, the opening and closing member 340 and the fixing member 330 and the grill restricting member 390 May have a structure that is coupled to a corresponding position of the panel 200.

Of course, if necessary, at least one of the opening / closing member 340, the fixing member 330 and the grill restraint member 390 is constrained to the panel bracket 236 and the rest is constrained to the panel 200 .

The suction grill 300 is attached to the grill seating part 232 and the lower surface of the panel 200 and the lower surface of the suction grill 300 are placed on the same plane And can be formed so as to have a sense of unity.

The inlet grill 310 is formed on each side of the suction grill 300. The recessed portion 310 may be formed at the same position as the line on the inner side of each of the discharge ports 210. The inner line of the discharge port 210 and the recessed portion 310 are formed in the same shape with the suction grille 300 mounted. That is, the concave portions 310 are formed at both sides in a round shape, and the curvature at this time may be formed to correspond to the shapes of the discharge ports 210 and the vanes 220.

Accordingly, when the suction grill 300 is closed, the inner line of the vane 220 and the end of the suction grill 300 are adjacent to each other at equal intervals, and the suction grille 300 and the panel 200 It becomes possible to have a sense of unity.

At the four corners of the suction grille 300, protrusions 320 are formed. The protrusions 320 may form an area between the respective recesses 310 and may be formed to protrude more than the recesses 310. At this time, the protrusion 320 is positioned between the discharge ports 210 when the suction grille 300 is mounted, and the end of the protrusion 320 has a curvature equal to the curvature of the round groove 234, . Therefore, in the state where the suction grill 300 is mounted, the shape of the circumference formed by the suction grille 300 and the vane 220 and the shape of the round groove 234 may be the same.

The width of the protrusion 320 may be the same as the width of the corner cover 242 and the side groove 238 formed along the protrusion 320 may be formed on both sides of the corner cover 242 So that it can be formed up to the end of the panel 200. The side groove 238 may be connected to the inlet 310 of the suction grill 300 and the inner line of the vane 220.

Therefore, when the lower surface of the indoor unit 100 is viewed while the indoor unit 100 is installed, the round groove 234 is positioned at the center and each side groove 238 is displayed in four directions. The shape of the suction grill 300, the discharge port 210 and the vane 220 can be defined by the round groove 234 and the side groove 238.

6 is a partial perspective view showing a state in which the vane of the indoor unit of the cassette type air conditioner is rotated. 7 is an exploded perspective view showing a coupling structure of the vane and the vane drive assembly. 8 is a rear view showing a coupling structure of the vane and the vane driving assembly.

As shown in the figure, the discharge port 210 may be opened and closed by a vane 220, and a drive motor 277 may be installed at one end of the vane 220, 277 so as to adjust the direction of the air to be opened or closed.

The shape of the vane 220 may be formed to correspond to the shape of the discharge port 210 to shield the discharge port 210. In addition, the vanes 220 may be formed so that the width of the vanes 220 becomes narrower toward the outer side, as in the case of the discharge ports 210. Accordingly, the vane 220 can shield the discharge port 210 when the vane 220 is closed, and can form the same line as the outer line of the discharge port 210, that is, the round groove 234.

The outer end of the vane 220 may extend along the round groove 234 to contact the panel 200 and the inner end of the vane 220 may be in contact with the inhalation And may be formed to be in contact with the recessed portion 310 of the grill 360.

The vane 220 includes a plate 221 corresponding to the shape of the discharge port 210 and a vane drive assembly 270 disposed below the plate 221 to be described later. And a coupling portion 223 for coupling.

The plate 221 may be formed to have a curved surface for smooth guidance of the discharge air and may have a curved surface to form the same surface as the outer surface of the panel 200 and the suction grill 300 . At this time, the plate 221 may have the same curvature as a whole, and the curvatures of the upper surface and the lower surface of the plate 221 may be different from each other.

A plurality of vane grooves 222 extending in the transverse direction are formed on the lower surface of the plate 221. The vane groove 222 can form a water droplet when condensation occurs on the surface of the vane 220 that discharges air, thereby preventing water droplets from falling into the room.

The coupling part 223 is provided on both sides of the lower surface of the vane 220 so that the vane 220 can be rotatably coupled to the vane driving assembly 270 described below. The coupling portion 223 includes an extension portion 224 vertically downwardly extending from the lower surface of the vane 220 and a rotation axis 225 protruding outwardly from the extension portion 224 .

The extension portion 224 is engaged with the vane drive assembly 270 while the rotation axis 225 is spaced apart from the plate 221 by a predetermined distance. Therefore, interference between the plate 221 and the vane driving assembly 270 can be prevented when the vane 220 is rotated.

A reinforcing support portion 226 is formed between the inner surface of the extension portion 224 and the plate 221. The reinforcing support portion 226 is formed at an edge portion where the extension portion 224 and the plate 221 are adjacent to each other so that the extension portion 224 is not damaged when the vane 220 is mounted.

The rotation shaft 225 extends outwardly to a predetermined length and is rotatably coupled to the left and right vane drive assemblies 270, respectively. Further, a plurality of reinforcing protrusions 227 may be formed along the circumference of the rotation shaft 225 of the rotation shaft 225.

On the other hand, vane drive assemblies 270 are mounted on both sides of the discharge port 210. The vane driving assembly 270 supports the vane 220 on both left and right sides, and is fixedly mounted on the upper surface of the panel 200.

The vane drive assembly 270 is formed in an outer shape by a case 271 and a space for accommodating the drive motor 277 or the support plate 278 is formed in the case 271.

The vane drive assembly 270 is provided on both left and right sides of the vane 220 and a vane drive assembly 270 provided at one side of the vane drive assembly 270 includes a drive motor 277, And the vane drive assembly 270 provided at the other side is provided with a support plate 278 therein so that the vane 220 can be easily assembled.

The case 271 forming the outer shape of the vane drive assembly 270 provided in the right and left chambers of the vane 220 is the same in shape and structure but the drive motor 277 is installed in the case 271 on one side, And a support plate 278 is provided in the case 271 on the other side.

The case 271 is formed in a shape having an open bottom and mounted on the upper surface of the panel 200 so that the opened side faces downward. At one end of the case 271, a case fixing portion 272 protruding outward is formed. A coupling member such as a screw is fastened to the case fixing portion 272 so that the case 271 can be fixedly mounted on the upper surface of the panel 200.

A stopper portion 273 is formed on the upper surface of the case 271. The stopper portion 273 is formed such that a part of the upper surface of the case 271 is inclined or rounded so that the stopper portion 273 is lowered toward the end portion so as not to interfere with rotation of the vane 220. That is, the left side (as viewed in FIG. 6) of the upper surface of the case 271 is formed lower than the right side so as not to interfere with the end of the vane 220 during the rotation of the vane 220.

The stopper portion 273 is in contact with an end portion of the vane 220 when the vane 220 is completely rotated, thereby restricting the vane 220 from rotating further. Therefore, the inclined or curved surface of the stopper portion 273 is not rotated until the stopper portion 273 completely rotates (approximately 70 ° to 90 ° in the counterclockwise direction in FIG. 6) until the discharge port 210 is opened And may be formed to have a downward slope or curvature so as not to interfere with the plate 221 of the vane 220.

When the vane 220 is fully opened, the end of the plate 221 comes in contact with the stopper 273 and the air is discharged from the plate 221 and the stopper 273, So that it can be discharged toward the interior space along the curved surface of the heat insulating member 280 forming the curved surface inside the discharge port 210 without leaking. That is, the discharge port 210 is divided into the front and rear sides of the vane 220 by the vane 220, and air can be discharged along the front and rear surfaces of the vane 220 in this state .

A through hole 274 is formed in the side surface of the case 271. The through hole 274 is a hole into which the rotation shaft 225 of the vane 220 is inserted and the rotation shaft 225 is inserted when the vane 220 is mounted or connected to the rotation shaft 225 A link or a bushing or the like may be passed.

A mounting portion for mounting the driving motor 277 or the support plate 278 may be provided inside the case 271.

A motor mounting portion 275 is formed inside the case 271 on which the drive motor 277 is mounted. The motor mounting portion 275 is formed to be coupled to the motor bracket 277a on both sides of the drive motor 277 by a screw. The motor mounting portion 275 extends from the side where the through hole 274 is formed and has a pair of left and right sides to fix the motor bracket 277a.

A plate mounting portion 276 is formed in the case 271 in which the support plate 278 is mounted. The plate mounting portion 276 extends downward from the upper surface of the case 271 and is provided with a pair of left and right support plates 278 to support the support plate 278 from the rear.

The plate mounting portion 276 is configured to support the support plate 278 without a separate coupling member and the support plate 278 is disposed in a space between the plate mounting portion 276 and the side surface of the case 271 Can be inserted and mounted.

The support plate 278 is for mounting the vane 220 and supports the rotation axis 225 of the vane 220. At this time, the support plate 278 is formed to have a predetermined elasticity so that the support plate 278 and the rotation shaft 225 on one side are first engaged among the rotation axes 225 on both sides when the vane 220 is mounted The support plate 278 may be pushed so that the drive motor 277 and the rotation shaft 225 on the other side are coupled to each other.

To this end, the support plate 278 is formed of a plate-shaped material having elasticity, and may be formed of a metal or synthetic resin material capable of being elastically deformed. The support plate 278 is composed of a bent portion 278a bent on both sides and a connection portion 278b between the bent portion 278a and the connection portion 278b is formed with a through hole 274 And a connection boss 278c extending through the through hole 278c.

The bent portion 278a contacts the plate mounting portion 276 and supports both ends of the support plate 278. The connection boss 278c penetrates the through hole 274 and is exposed to the outside of the case 271. The rotation axis 225 of the vane 220 is inserted into the connection boss 278c, So that it can be mounted as much as possible. Of course, the support plate 278 is not provided with the connection boss 278c, and the rotation axis 225 of the vane 220 penetrates the through hole 274 and contacts the connection portion 278b .

In such a structure, when the vane 220 is pushed in the direction of the rotation shaft 225 in a state where the rotation shaft 225 is mounted, the support plate 278 is elastically deformed, And the rotation shaft 225 formed on the other side of the vane 220 can be mounted on the driving motor 277. [

9 is a perspective view of the suction grille viewed from above.

As shown in the drawing, a grill-side mounting portion 370 on which the connecting member 400 to be described later is mounted is formed on both left and right sides of the upper surface of the suction grill 300. The grill side attachment portion 370 is formed outside the suction portion 350 to be described below, and a pair of ribs are formed to extend upward to allow the connection member 400 to be rotatably fixed.

The front and rear ends of the upper surface of the suction grill 300 are respectively provided with a fixing member 330 for fixing the suction grill 300 and an opening and closing member 340 for selectively restraining the suction grill 300. [ Can be mounted.

The fixing member 330 may be formed as a separate member on the rear side of the suction grill 300 and may include a pair of protruding fixing pieces (not shown) to be fixed to the panel 200 or the panel bracket 236 And a coupling plate 334 connecting the fixing grates 332 and 334 to the suction grill 300.

When the suction grill 300 is pushed backward, the fixing piece 332 is inserted into one side of the panel 200, so that the suction grill 300 The rear end of the suction grille 300 can be fixed to the panel 200 and the rear end of the suction grille 300 can be separated from the panel 200 when the suction grille 300 is pulled forward.

The fixing member 330 may be provided on both sides of the suction grille 300, and the fixing member 330 may be integrally formed on the suction grille 300 if necessary. In addition, a fixing member insertion portion for inserting the fixing member 330 may be formed on the panel 200 or the panel bracket 236 corresponding to the fixing member 330.

The opening and closing member 340 is fixed to the panel 200 or the panel bracket 236 so that the front end of the suction grill 300 can be fixed in a state where the fixing member 330 is inserted into the panel 200 or the panel bracket 236. [ And is configured to be selectively restrained and restrained according to the operation of the user by being constrained to the bracket 236.

In detail, the opening and closing member 340 is located in the front half of the suction grille 300 and may have a pair of left and right spacers corresponding to the fixing member 330. The panel 200 and the suction grill 300 can be selectively restrained by the elasticity of the operation member 340 when the suction grill 300 is removed or installed. So that it can be operated. The suction grille 300 may be exposed to the bottom for the operation of the operating portion 341 of the opening and closing member 340.

A pair of insertion pieces 343 protrude from the opening and closing member 340 so that the insertion piece 343 is moved toward the outside of the suction grille 300 according to the operation of the opening and closing member 340. [ So that the insertion piece 343 is engaged with one side of the suction grill 300 when the user operates it, so that the suction grill 300 can be restrained.

Meanwhile, an air filter (not shown) for purifying the air may be provided above the suction grille 300, and the air filter may be detachably attached to the filter case 250.

The filter case 250 is provided with the air filter for purifying foreign substances and physically and chemically absorbing the air. The air filter may be configured to be detached from the filter case 250 and to be replaced after a lapse of a set time or use time.

The suction grille 300 is formed at the center thereof with a suction unit 350 formed in a lattice shape. The suction unit 350 is located in an inner area of the suction port 230 of the panel 200 so that the air sucked can be completely flowed into the cabinet 110 through the panel 200.

A specific shape of the suction unit 350 will be described with reference to the drawings.

10 is a sectional view showing the sectional shape of the grill portion of the suction grill. 9 is a cross-sectional view taken along line 10-10 'of FIG.

As shown in the drawing, the suction unit 350 of the suction grill 300 forms a lattice shape by a plurality of grilles 360 arranged to cross each other in the horizontal and vertical directions. A suction hole 352 through which the air is sucked is formed continuously between the intersecting grilles 360.

As shown in the figure, the grill 360 has a shape that narrows downward as it goes downward, so that the air sucked through each suction hole 352 flows through the grill 360 So that they can be smoothly moved upward without colliding with each other.

In addition, the grill 360 is formed to be depressed downward, and the upper surface thereof is opened, and a predetermined space is formed therein. Therefore, dust, foreign matter, or the like generated above the suction grille 300 can fall and collect in the space.

In detail, the grill 360 includes an inclined portion 361 inclined downward and a vertical portion 362 vertically extending upward from the upper end of the inclined portion 361 Lt; / RTI > The inclined portion 361 is inclined at both sides so that the inclined portion 361 becomes sharp as it goes downward. Accordingly, the lower end of the suction port 230 is the widest, and the width of the suction port 230 becomes gradually narrower toward the upper side.

The vertical portion 362 extends upward from the upper end of the inclined portion 361 in a direction perpendicular to the bottom surface of the suction grill 300 and is perpendicular to the vertical length D1 of the inclined portion 361, The portion 362 may be formed to have a shorter length D2. The angle of the inclined portion 361 is set such that the horizontal distance D3 between the upper end of the inclined portion 361 and the upper end of the vertical portion 362 and the vertical length D2 of the vertical portion 362 The distance D3 at the upper end of the vertical portion 362 is at least twice the length D2 of the vertical portion so that the air passing through the suction hole 352 flows through the suction hole 352 So that it can be sucked into a separate state at the upper end. Therefore, when the air sucked through the suction hole 352 passes through the suction hole 352, no noise due to the collision is generated.

The suction grill 300 is configured to open and close the panel 200 according to a user's operation and connects the suction grill 300 and the panel 200 when the suction grill 300 is opened or closed. The suction grille 300 is connected to the panel 200 by the connecting member 400 that is connected to the suction port. When the suction grill 300 is opened and closed by the connecting member 400, the suction grill 300 is configured to be slidable and rotatable.

Hereinafter, a configuration for mounting the connecting member 400 and the connecting member 400 will be described in more detail.

11 is a sectional view showing the structure of a connecting member of the indoor unit of the cassette type air conditioner. Fig. 12 is a perspective view of the suction grille being completely opened.

As shown in the figure, the connecting member 400 has both ends mounted on the panel 200 and the suction grill 300, and a pair of left and right sides of the connecting member 400 are connected to the suction grill 300 and the panel 200 . To this end, a grill-side mounting portion 370 is formed on both right and left sides of the suction grill 300, and a panel-side mounting portion 260 is formed on the panel 200.

The grill side attachment portion 370 is coupled with a rotation coupling portion 422 formed at a lower end of the coupling member 400 and is formed into a pair of protruded plate- . In other words, the rotary coupling portion 422 is inserted between the grill-side mounting portions 370, and both sides of the rotary coupling portion 422 can be coupled to the grill-side mounting portion 370 in a rotatable manner .

The panel-side mounting portion 260 is formed on both left and right sides of the panel 200 so that the upper end of the connecting member 400 can be mounted. The panel-side mounting portion 260 is provided with a plurality of the suction grilles 300 so that they can be mounted regardless of the mounting direction of the suction grille 300. That is, the panel-side mounting portions 260 may be formed on the left and right sides of the panel 200, respectively, and may be formed at four positions in the front-rear direction.

Accordingly, the installation direction of the suction grille 300 can be selected, and the opening direction of the suction grille 300 can be determined through this. That is, when the connecting member 400 is mounted on the panel side mounting portion 260 located at the front side of the panel 200, the suction grille 300 is rotated about the front half of the panel 200 Can be opened. In contrast, when the connecting member 400 is mounted on the panel side mounting portion 260 positioned at the rear half of the panel 200, the suction grille can be opened and rotated about the rear half of the panel 200 have.

Meanwhile, the panel-side mounting portion 260 formed on the panel 200 has only the same structure and shape as those of the panel-side mounting portion 260 except that the direction and the position are different.

The panel side mounting portion 260 includes a frame 261 forming a space for accommodating the connection member 400 and a slot 262 formed in the front side of the frame 261, And restricting portions 265 and 266 protruding from both the left and right sides of the connecting member 400 to restrict the sliding movement of the connecting member 400 selectively.

The rim 261 receives the end of the connecting member 400 and extends upward to form a space that can be slid. The rim 261 may have a rectangular shape elongated in the anteroposterior direction and may extend from one side of the grill seating part 232.

The slot 262 is formed in the space formed by the rim 261 and is formed to be open from one end to the other end of the slot 262. The width of the slot 262 is smaller than the width of the upper end of the connecting member so that the upper end of the connecting member 400 is inserted into the slot 262 while the connecting member 400 is inserted through the slot 262. [ And is projected to both sides of the frame.

The lower end of the slot 262 may correspond to a width of the upper end of the connection member 400 or may be larger than the width of the upper end of the connection member 400 to allow the connection member 400 to be inserted. When the connecting member 400 is mounted, the upper end of the connecting member 400 is inserted through the lower end of the slot 262. When the connecting member 400 is inserted into the slot 262, So that it can move along the slot 262.

A bottom surface 263 is formed on both left and right sides of the slot 262 to be in contact with the contact portions 412 formed on the left and right sides of the upper end of the connecting member 400. The contact portion 412 is formed to be movable along the bottom surface when the connection member 400 is moved. At this time, the bottom surface 263 is formed to have a downward inclination so that the contact portion 412 can be slidingly moved in a state where it is naturally contacted with the bottom surface 263.

A first restricting portion 265 is formed at an end of the slot 262. The first restricting portion 265 protrudes upward to prevent the connection member 400 moving along the slot 262 from falling to the end of the slot 262, (412) toward the lower end of the slot (262).

A second restricting portion 266 may be further formed on one side of the bottom surface 263. The second restricting portion 266 protrudes upward from the bottom surface 263 corresponding to the position where the abutting portion 412 is positioned in a state where the suction grille 300 is closed. Therefore, in a state in which the suction grille 300 is closed, the contact portion 412 is restricted from moving in the direction in which the suction grille 300 is opened.

The second restricting portion 266 has an inclined surface 267 which is gradually increased toward a position away from the first restricting portion 265. The second restricting portion 266 has an inclined surface 267 at the highest end of the inclined surface 267, And a vertical plane 268 perpendicular to the plane 263 is formed.

Therefore, in the process of closing the suction grill 300, the contact portion 412 of the connection member 400 moves in a direction away from the first restricting portion 265, and at this time, the second restricting portion 266 to be slidable beyond the inclined plane 267 of the base plate 266. When the suction grill 300 is completely closed, the contact portion 412 of the connection member 400 comes into contact with the vertical surface 268 of the second restricting portion 266, The movement is restricted. At this time, the inclined surface 267 and the vertical surface 268 are disposed to have mutually orthogonal surfaces, so that the sliding movement and the restraint of the contact portion 412 can be made more effective, respectively.

The connecting member 400 may be formed in a bar shape having a predetermined length and the connecting member 400 may be formed such that the end of the suction grill 300 when the suction grill 300 is completely opened is connected to the panel 200 So as not to interfere with each other.

In detail, the upper bending part 410, the lower bending part 420 and the intermediate connecting part 430 may be formed as a whole. The upper bent portion 410 is bent upward (with reference to FIG. 10) with respect to the intermediate connecting portion 430, the lower bent portion 420 is bent downward to face the upper bent portion 410, And is formed so as to connect the bent portions 410 and the ends of the lower bent portions 420. At this time, the upper bending portion 410 and the lower bending portion 420 may be inclined and the inclination of the upper bending portion 410 may be larger than the inclination of the lower bending portion 420.

A contact portion 412 may be formed on the upper end of the upper bent portion 410. The contact portion 412 may be provided on both left and right sides of the upper end of the upper bending portion 410 so as to be in contact with the bottom surface 263 of the panel side mounting portion 260. The contact portion 412 may be formed in a roller shape to facilitate sliding movement, and may be rotatably mounted on the upper bent portion 410.

The contact portion 412 may be mounted to protrude from both sides of the upper bending portion 410 and may be wider than the width of the upper bending portion 410, the intermediate connecting portion 430, and the lower bending portion 420 . The contact portion 412 can be brought into contact with the bottom surface 263 on both sides of the slot 262 when the connecting member 400 is slidably moved along the slot 262. [

The lower bending portion 420 extends from the lower end of the intermediate connection portion 430 and has a pair of left and right sides extending from the lower connecting portion 430, A rotation coupling part 422 is formed on both sides of the lower end of the lower bending part 420. The rotatable coupling portion 422 is rotatably and axially coupled to the grill-side mounting portion 370 formed in the suction grill 300. Accordingly, the suction grill 300 is rotatable about the rotation engaging portion 422 when the suction grille 300 is opened.

Hereinafter, the suction and discharge of air in the indoor unit of the cassette type air conditioner according to the embodiment of the present invention will be described.

13 is a sectional view of the vane being closed. 14 is a sectional view of the vane being opened. 15 is a perspective view schematically showing an air flow of the panel and the suction grill.

As shown in the drawing, when the indoor unit 100 is not driven, the vane 220 is in a state in which the discharge port 210 is closed as shown in FIG. In this state, the indoor air is not sucked and discharged, and the discharge port 210 can be shielded by the vane 220 formed in a shape corresponding to the discharge port 210. At this time, the suction grille 300 A circular groove 234 formed by the vane 220 and the panel 200 is formed and the suction grill 300, the vane 220 and the panel 200 are formed in a state where no other gap is formed .

When the indoor unit 100 is driven in such a state, the vane 220 is rotated in the state shown in FIG. 14 by the rotation of the driving motor 277 of the vane driving assembly 270. At this time, both side ends of the vane 220 are rotated in the space above the stopper portion 273 of the case 271, and smooth rotation is possible without interference by the case 271.

FIG. 14 shows that the vane is rotated at a maximum angle, and the angle of the vane may be adjusted to an angle between the state of FIG. 13 and the state of FIG.

In the state where the vane 220 is opened, both side ends of the vane 220 are moved in a space above the stopper portion 273. When the vane 220 is completely rotated, Both end portions of the vane 220 abut against the first end portion 273 and stop.

When the vane 220 is completely opened, the both ends of the vane 220 are brought into contact with the stopper portion 273. Accordingly, the air discharged through the discharge port 210 flows into the vane 220 220 and may be discharged toward the inside of the vane 220 without leaking to the outside of the case 271. [ The cool air discharged through the discharge port 210 can be discharged separately by the vane 220 and can be discharged toward the room from a direction contacting the upper surface and the lower surface of the vane 220.

A part of the cool air discharged through the discharge port 210 does not flow along the outer surface of the panel 200 by the round groove 234 but is guided by the round groove 234, As shown in Fig. Accordingly, the discharged air can be supplied to the indoor side without contaminating the panel 200 or the ceiling scene outside the discharge port 210.

Referring to FIG. 15, when the indoor unit 100 is driven, air in the room can be sucked into the indoor unit 100 through the suction grille 300. After being heat-exchanged inside the indoor unit 100, the air is discharged to the outside through the plurality of discharge ports 210.

The direction of the air discharged along the direction of the vane 220 can be determined when the vane 220 provided at the discharge port 210 is rotated and the air is discharged outward from the respective discharge ports 210.

On the other hand, both side ends of the discharge port 210 of the panel 200 are rounded as well as narrowed toward the outside, so that the shape of the end portion can be sharpened. The stopper portion 273 of the case 271 and the vane 272 are formed on the inner side of both ends of the discharge port 210, So that the discharged air is directed toward the inside of the vane 220 without facing outward. In order to guide the air to be discharged, the heat insulating member 280 corresponding to both ends of the discharge port 210 is also rounded to guide the direction of the discharged air to the center side.

Accordingly, the air to be discharged can collect the airflow of the air discharged from both side ends of the discharge port 210 toward the center side, and therefore, both ends of the discharge port 210 and the end of the vane 220 are dewaxed .

Claims (13)

A cabinet equipped with a heat exchanger and a blower and installed in a ceiling of an indoor space;
A panel defining a lower surface of the cabinet;
An inlet opening at the center of the panel for sucking indoor air;
A discharge opening formed in a panel on the outer side of the suction port, the discharge ports being formed in such a shape that both ends of the discharge cells intersect with two rounded curves;
A vane formed in a shape corresponding to the discharge port to open / close the discharge port and guide discharge air;
A vane drive assembly disposed on an inner surface of the panel and coupled to both sides of the vane to rotate the vane; And
And a suction grille mounted on an outer surface of the panel and mounted to cover the suction port,
On the outer surface of the vane drive assembly,
Further comprising a stopper portion formed to be inclined or rounded to prevent interference with the end of the vane when the vane is rotated.
The method according to claim 1,
Wherein the vane drive assembly is located on both sides of the discharge port,
Wherein the vane is configured to be shielded by the vane when the vane is closed.
The method according to claim 1,
Wherein at least a part of the vane drive assembly is disposed at a position overlapping with the vane.
The method according to claim 1,
The stopper portion abuts the end line of the vane in a state where the vane is completely rotated,
And the air to be discharged is directed to the discharge port along the vane and the stopper portion.
The method according to claim 1,
The vane drive assembly includes:
A case which forms an outer shape and is fixedly mounted on the panel;
And a driving motor which is accommodated in the case and rotates in conjunction with a rotation axis of the vane. The indoor unit of the cassette type air conditioner according to claim 1,
6. The method of claim 5,
The vane drive assembly includes:
A case which forms an outer shape and is fixedly mounted on the panel;
And a support plate accommodated in the case and formed in a bent plate-like structure and elastically supporting a rotation axis of the vane.
The method according to claim 1,
The vane
A plate formed in a plate shape corresponding to the discharge port;
An extension extending downward from the lower surface of the plate,
And a rotation shaft projecting laterally of the extension portion and rotatably coupled to the vane drive assembly. [5] The indoor unit of the cassette type air conditioner according to claim 1,
8. The method of claim 7,
And a plurality of vane grooves recessed in the longitudinal direction are formed on the lower surface of the plate.
The method according to claim 1,
Wherein the panel further comprises a heat insulating member formed to be rounded toward the discharge port.
The method according to claim 1,
And an outer end of the suction grille is formed with a recessed portion extending to coincide with an inner line of the discharge port.
11. The method of claim 10,
Wherein the suction grille is further provided with protrusions extending between the plurality of discharge ports. ≪ RTI ID = 0.0 > 11. < / RTI >
12. The method of claim 11,
And an outer end of the protrusion is formed to be connected to an outer line of the vane.
11. The method of claim 10,
Wherein the panel is formed with a round groove in the form of a closed curve connecting an outer line of the discharge port to an outer line of the vane and an outer line of the projection.

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