KR20140089068A - Air conditioner - Google Patents

Abstract

An air conditioner of the present invention includes a main body which has an air inlet and a discharge guide; an inner guide which is arranged in the discharge guide to be able to move and forms a discharge path with the discharge guide; and a light module which is installed on the main body or the inner guide and illuminates the discharge guide. Accordingly, the present invention can prevent user′s eyes from being dazzled when the user looks at the air conditioner and provide a comfortable illumination for the user.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly to an air conditioner for illuminating an air discharging portion.

Generally, the air conditioner is a device that sucks indoor air, changes the temperature, humidity, and cleanliness, and then discharges it back into the room to air-condition the room.

The air conditioner can be classified into a cooler that cools the room, a radiator that heats the room, a dehumidifier that dehumidifies the room, a humidifier that humidifies the room, and a corrector that cleans the room.

The air conditioner has an air inlet and an air outlet formed in the main body, an air conditioning unit for changing the air in the main body, and an air blowing unit for sucking indoor air through the air inlet and discharging the air after passing through the air conditioning unit .

Patent Document 001 10-2010-0025329 (Mar. 3, 2010)

The air conditioner according to the related art has a structure in which the light irradiation direction of the lighting device installed inside the main body is the forward direction and the illumination color formed by the lighting device is transmitted in the forward direction through the light transmission portion formed on the front panel, There is a problem that glare may occur when viewing the base, and it is difficult to easily confirm the position of the discharge guide at a long distance.

According to an aspect of the present invention, there is provided an air conditioner comprising: a main body having an air inlet formed therein and formed with a discharge guide; An inner guide movably positioned inside the discharge guide and forming the discharge guide and the air discharge passage; And an optical module installed in the main body or the inner guide for illuminating the discharge guide.

The inner guide may include an illumination cover forming the discharge guide and the air discharge passage, and a front plate covering the front surface of the illumination cover, and the optical module may be disposed between the illumination cover and the front plate.

And an inner guide moving mechanism for moving the inner guide.

   The inner guide moving mechanism can move the inner guide from the inside of the discharge guide.

An illumination strip may be formed in an area inside the discharge guide excluding the inner guide.

The inner guide moving mechanism can move the inner guide so that the shape of the light guide band is variable.

The optical module may be installed in the discharge guide.

The optical module may emit light of a different color for each operation mode of the air conditioner.

The optical module can emit light of different colors for each season.

The inner guide moving mechanism may have a vertical movement mode in which the inner guide is moved up and down from the inside of the discharge guide.

The inner guide moving mechanism may have a moving mode for moving the inner guide in a curved trajectory along the inner peripheral surface of the discharge guide.

The inner guide moving mechanism can change the closed loop type illumination band into a crescent shaped illumination band.

 The inner guide moving mechanism can change the position of the inner guide so that the center axis of the inner guide is inconsistent with the center axis of the discharge guide.

And a light shielding plate disposed in front of the optical module.

The optical module may include a first PCB configured to be mounted on the illumination cover, a plurality of second PCB mounted on the first PCB, and a light emitting source protruded toward the perimeter on the second PCB.

 The air conditioner according to the present invention includes: a main body having an air inlet formed therein and formed with a discharge guide; An inner guide movably positioned inside the discharge guide to form the discharge guide and the air discharge passage; And an optical module installed in the main body or the inner guide to form an illumination with the discharge guide, wherein an illumination band is formed in an area inside the discharge guide except for the inner guide.

The shape of the illumination band can be varied.

Since the light irradiation direction of the optical module is an ejection guide, glare can be minimized when the air conditioner is viewed from the front of the air conditioner, and there is an advantage that a light with a comfortable feeling can be provided to the user.

 In addition, since the shape of the illumination formed between the discharge guide and the inner guide is variable, the position of the discharge guide can be easily confirmed even at a long distance, and the illumination effect can be enhanced by a simple control for varying the position of the inner guide.

In addition, there is an advantage that the light guide strip is prevented from spreading too widely by the discharge guide, and the presence or absence of the light strip and the color of the light strip can be easily confirmed even at a long distance.

In addition, there is an advantage that the appearance of the air conditioner can be enhanced by the illuminated strip whose shape is variable.

Further, the inner guide functions as an air guide for widely distributing the air while guiding the air discharged through the discharge guide, and is also capable of protecting the optical module, so that the number of components can be minimized.

1 is a perspective view of an embodiment of an air conditioner according to the present invention,
2 is a front view of an embodiment of an air conditioner according to the present invention,
3 is a sectional view of one embodiment of an air conditioner according to the present invention,
4 is an enlarged cross-sectional view of part A shown in Fig. 3,
5 is an exploded perspective view of an inner guide and a moving mechanism of an air conditioner according to an embodiment of the present invention,
Fig. 6 is a rear view showing the inside of the moving mechanism when the inner guide shown in Figs. 1 to 4 is moved,
FIG. 7 is a front view showing sequentially the process of moving the inner guide shown in FIG. 3 as time elapses.

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

  2 is a front view of one embodiment of an air conditioner according to the present invention, FIG. 3 is a sectional view of one embodiment of the air conditioner according to the present invention, and FIG. 4 Fig. 5 is an exploded perspective view of an inner guide and an inner guide moving mechanism of an air conditioner according to an embodiment of the present invention, Fig. 6 is an exploded perspective view of the inner guide shown in Figs. 1 to 4 FIG. 7 is a front view showing a process in which the inner guide shown in FIG. 3 is sequentially moved as time elapses; FIG.

The air conditioner may be provided with an air inlet (4) in the main body (2) and a discharge guide (6). The air conditioner includes an inner guide (8) which is movably disposed inside the discharge guide (6) and forms the discharge guide (6) and the air discharge passage; And an optical module 68 installed in the main body 2 or the inner guide 8 for illuminating the discharge guide 6. [ The optical module 68 can be installed in the ejection guide 6 to illuminate the ejection guide 6 and can be installed in the inner guide 8 to illuminate the ejection guide 6. [ When the optical module 68 is installed in the inner guide 8, the inner guide 8 and the optical module 68 irradiate light toward the ejection guide 6 to guide the inner guide 8 and the ejection guide 6, And a lighting device (LB) between them. The illumination band LB can be formed in an area inside the discharge guide 6 except for the inner guide 8 and the shape of the illumination band LB can be varied. When the inner guide 8 is fixed in position, the shape of the illumination band LB is constant, but the shape of the inner band 8 is varied depending on the position of the inner guide 8, do.

The main body 2 may include a case 12 forming an outer appearance of the air conditioner. The case 12 may have an air inlet 4 formed on the back surface thereof. The main body 2 may include a heat exchanger 16 arranged inside the case 12 to heat-exchange the air sucked into the air inlet 4 with the refrigerant. The main body 2 may include at least one blowing unit 18 (20).

  The case 12 may be provided with an air outlet 24 through which air is discharged into the room. The air discharge port 24 may be formed at a position spaced apart from the discharge guide 6. The air exchanged in the heat exchanger 16 is discharged through the discharge guide 6 and / . At least one air outlet 24 may be formed in the case 12. The air outlet 24 may be formed on the side surface of the case 12. [ The air discharge port 24 can discharge air in at least one side of the left and right sides of the case 12 in the side direction or the front side direction. The main body 2 may include a wind direction adjusting mechanism for adjusting the wind direction of the air discharged to the air outlet 24. The wind direction adjusting mechanism may be installed in the case 12. The wind direction adjusting mechanism may include a wind direction adjusting member 26 for guiding air and a wind direction adjusting motor (not shown) for generating a driving force for operating the wind direction adjusting member 26. The wind direction adjusting member 26 may be installed to close the air outlet 24 to the case 12. [ The wind direction adjusting motor may be installed in the case 12 to rotate the wind direction adjusting member 26.

The heat exchanger 16 can heat-exchange the air sucked into the air inlet 4 with the refrigerant. The heat exchanger 16 may be installed between the air inlet 4 and the blowers 18, 20 in the air flow direction.

The air blowing units 18 and 20 may be provided in the case 12 in a single or plural number. When a plurality of blowing units 18 and 20 are installed, two or three blowing units 18 and 20 may be installed. The air blowing units 18 and 20 suck indoor air through the air inlet 4 and pass through the heat exchanger 14 and then blow to the outlet unit 8 or blow out air to the outlet unit 8 and the air outlet 24 And an upper air blowing unit 18 for blowing air. The main body 2 may include an orifice 35 for guiding the air that has passed through the heat exchanger 14 to the upper air blowing unit 18 and the lower air blowing unit 20. The orifice (35) may be positioned in front of the heat exchanger (14). The orifice (35) may be provided with a first suction hole (35A) for guiding air sucked into the upper blower unit (18). The orifice (35) may be provided with a second suction hole (35B) for guiding air sucked into the lower air blowing unit (20). The upper air blowing unit 18 may include an upper blowing fan 36 positioned at the upper front of the heat exchanger 14 and an upper blowing motor 37 rotating the upper blowing fan 36. The air blowing units 18 and 20 may include a lower air blowing unit 20 that sucks indoor air into the air inlet 4 and passes through the heat exchanger 14 and then blows air to the air outlet 24. The lower air blowing unit 20 may include a lower air blowing fan 38 positioned at a lower front of the heat exchanger 14 and a lower air blowing motor 39 rotating the lower air blowing fan 38.

The case 12 may include a base 41, a suction panel 42, and a front panel 43. The suction panel 42 may be installed on the upper side of the base 41. The suction panel 42 may be provided with an air inlet 4. The suction panel 42 can be opened on the upper surface. The front panel 43 may be positioned in front of the suction panel 42. [ The front panel 43 may have an air outlet 24 formed in at least one of a left side plate and a right side plate. The upper surface of the front panel 43 can be opened.

The case 12 may include an ejection body 44 for guiding the air blown to the inside upper portion of the case 12. [ The discharge body 44 may be installed above the suction panel 42 and the front panel 43. The air blown to the upper side of at least one of the front panel 43 and the suction panel 42 can be introduced into the discharge body 44. The discharge body 44 may have an opening at the bottom so that air can be introduced. The discharge body 44 may be formed in a shape in which a left side, an upper side and a right side are clogged so as to surround a part of the outer circumferential surface of the discharge guide 6. [ The discharge body 44 may have a closed-back shape. The case 12 may include a front cover 45 and a side cover 46. The front cover 45 may cover the front surface of the front panel 43 and the front surface of the base 41 and a part of the discharge body 44 together. The front cover 45 may have an opening 47 larger than the front end of the discharge guide 6. The side cover 46 may be disposed so as to cover a part of the side surface of the base 41 and the side surface of the front panel 43 and the side surface of the discharge body 44. The side cover 46 may cover the side of the front panel 43 other than the air outlet 24.

 The discharge guide 6 is disposed inside the case 12 so that the air exchanged with the heat exchanger 16 can be guided to the outside of the case 12. [ The discharge guide 6 may be installed inside the discharge body 44. The discharge guide 6 can guide the air that has flowed to the discharge body 44 toward the front of the discharge guide 6. [ The discharge guide 6 may have a front opening. The discharge guide 6 may include a cylinder 52 in which air is guided, a space may be formed in the cylinder 52, and a space may be formed to extend toward the front. The discharge guide 6 may include a moving mechanism mounting portion 58 provided with an inner guide moving mechanism 10 to be described later. At least one of the cylinder 52 and the moving mechanism mounting portion 58 may be mounted on the case 12 with a fastening member such as a screw. A fastening portion through which a fastening member such as a screw passes may be formed on the outer circumference of the tubular body 52 and a fastening portion to fasten the fastening portion of the tubular body 52 with a fastening member such as a screw may be formed on the discharge body 44 .

The inner guide 8 may be provided so that the outer circumferential surface 9 of the front surface, the back surface and the outer circumferential surface is spaced apart from the inner circumferential surface 7 of the discharge guide 6. The space between the outer peripheral surface 9 of the inner guide 8 and the inner peripheral surface 7 of the discharge guide 6 becomes the illumination space LS when the optical module 68 is installed in the inner guide 8. [ . The outer circumferential surface 9 of the inner guide 8 may be a light transmitting surface through which light irradiating toward the illumination space LS is transmitted and the inner circumferential surface 7 of the discharge guide 6 may be an optical transmitting surface 68 may be irradiated with light, and the maximum size of the illumination space LS may be limited. When the optical module 68 is installed in the inner guide 8, the light transmitted through the inner guide 8 can be irradiated on the inner circumferential surface of the discharge guide 6, The illumination strip LB may be formed in an area other than the area where the inner guide 8 is located. When viewed from the outside, the illumination band (LB) may be formed with an outer frame line on the inner circumferential surface of the discharge guide (6), and an inner frame line may be formed on the outer circumferential surface of the inner guide (8).

 The air conditioner may include an inner guide moving mechanism (10) for moving the inner guide (8). The inner guide moving mechanism 10 can move the inner guide 8 from the inside of the discharge guide 6. [ The inner guide moving mechanism 10 can move the inner guide 8 so that the shape of the illumination band LB is varied. The inner guide moving mechanism 10 may be provided so that the outer circumferential surface 11 of the front surface, the back surface and the outer circumferential surface is spaced apart from the inner circumferential surface 7 of the discharge guide 6. [ The inner circumferential surface 11 of the inner guide moving mechanism 10 can form the inner circumferential surface 7 of the discharge guide 6 and the air discharge passage P. [ The air blown to the discharge guide 6 can be discharged to the front of the illumination space LS after sequentially passing through the air discharge passage P and the illumination space LS. The air introduced into the discharge guide 6 is first guided to the outer peripheral surface 11 of the inner guide moving mechanism 10 and then guided to the outer peripheral surface 9 of the inner guide 8, The outer circumferential surface 11 of the moving mechanism 10 and the outer circumferential surface 9 of the inner guide 8 can constitute the inner guide surface together. The inner circumferential surface 7 of the discharge guide 6 can constitute the outer guide surface.

 Hereinafter, the discharge guide 6 will be described in more detail as follows.

The cylindrical body 52 may have a front opening 53 formed in its front surface and a rear opening 54 formed in its rear surface. The tubular body 52 may be formed such that the front opening 53 is larger than the rear opening 54. [

The moving mechanism mounting portion 58 can be formed inside the cylindrical body 52 and can be positioned outside the cylindrical body 52. The moving mechanism mounting portion 58 may be formed on the rear portion of the cylindrical body 52. The moving mechanism mounting portion 58 may include a mounting portion 59 formed to be smaller in size than the space of the cylinder 52. The mounting portion 59 may be formed of a closed loop plate or a circular plate. The inner guide moving mechanism 10 can be mounted on the mounting portion 59. The moving mechanism mounting portion 58 may include at least one supporting leg 60 connecting the cylindrical body 52 and the mounting portion 59. The mounting portion 59 can be positioned behind the space of the cylinder 52 and at least one support leg 60 can connect the cylinder 52 and the mounting portion 59.

Hereinafter, the inner guide 8 will be described in more detail as follows.

 The inner guide 8 may have a front size larger than the size of the rear opening 54 of the cylindrical body 52.

The inner guide 8 may include an illumination cover 63 for forming the discharge guide 6 and the air discharge passage P and a front plate 66 for covering the front surface of the illumination cover 63, (68) may be disposed between the illumination cover (63) and the front plate (66).

The illumination cover 63 may include a peripheral portion 64 and a thick plate portion 65. The circumferential portion 64 of the illumination cover 63 can be opposed to the cylinder 52 of the discharge guide 6. The peripheral portion 64 of the illumination cover 63 can form the discharge guide 6 and the air discharge passage P. [ A light diffusing portion may be formed on the peripheral portion 64 of the illumination cover 63. The circumferential portion 64 of the illumination cover 63 is spaced apart from the cylinder 52 of the discharge guide 6 and between the circumferential portion 64 of the illumination cover 63 and the cylinder 52 of the discharge guide 6 An illumination space LS can be formed. The illumination cover 63 may be formed to be transparent or translucent so that light can be transmitted. The light diffusing portion may be formed on the outer surface or the inner surface of the peripheral portion 64 of the illumination cover 63. The peripheral portion 64 can function as a diffusion plate for diffusing the light irradiated from the optical module 68. The thick plate portion 65 of the illumination cover 63 can face the inner guide moving mechanism 10. [ The thick plate portion 65 of the illumination cover 63 can be connected to the inner guide moving mechanism 10. [

 The front plate 66 can be directed to the front of the air conditioner. The front plate 66 can form the front surface of the inner guide 8. The air conditioner may include a display module 67 for displaying information to the outside. The display module 67 may include an LCD panel or an LED panel. The display module 67 is installed between the front plate 66 and the rear plate 65 so as to irradiate light for displaying information forward and the light emitted from the display module 67 is reflected by the front plate 66 Can be seen from outside. The front plate 66 can function as a display window on which information of the display module 67 is displayed.

 The optical module 68 can be installed inside the inner guide 8 and can be protected by the inner guide 8. The optical module 68 can be installed inside the peripheral portion 64 of the illumination cover 63 and can irradiate the light toward the peripheral portion 64. [

The optical module 68 can radiate light radially and the light radially emitted from the optical module 68 can pass through the periphery 64 of the illumination cover 63. [ The light that has passed through the peripheral portion 64 of the illumination cover 63 can illuminate the illumination space LS while illuminating the inner peripheral surface 7 of the discharge guide 6. [

  The optical module 68 includes a first package 70 mounted on the illumination cover 63, a plurality of second package members 72 mounted on the first package 70, (Not shown). The light emitting source 74 may be an LED. The LED may be a multicolor LED that emits a specific color among a plurality of colors. At least two light sources 74 may be installed in one second package 72 of the optical module 68. The plurality of light emitting sources can be controlled together in the optical module 68. In the optical module 68, a plurality of light emitting sources may be divided into a plurality of light emitting groups. In the optical module 68, all of the plurality of light sources may emit light of the same color. In the optical module 68, a plurality of light emitting groups are emitted together, and each light emitting group may emit light of a different color from the other light emitting groups.

The optical module 68 can emit light of a different color for each mode of operation of the air conditioner. The air conditioner can be represented in the illumination space LS with a different color of illumination band for each operation mode of the air conditioner. For example, the color indicating the driving mode may be composed of blue, violet, yellowgreen, aquamarine, white, and the like, (66) can emit a blue color in a cooling mode, a violet light in a dehumidifying mode, a yellowgreen in a power saving mode, and an air purifying mode It is possible to emit light cyan color (aquamarine), and to emit white light in the rapid heating mode. When the operation mode is expressed by a different color, the plurality of light emitting sources 74 shown in FIG. 4 and FIG. 5 can be controlled to have the same color, and the light module LS has the same color An illuminated zone in a closed loop shape can be formed.

 The optical module 68 can emit light of a different color every season. The optical module 68 can display different colors for the four seasons such as spring, summer, autumn, and winter in the illumination space LS, and different colors for the two seasons, such as the dry season and the wet season, ). ≪ / RTI > The optical module 66 can form a closed loop shaped illumination band in the illumination space LS or can form a spot illumination only in a part of the illumination space LS when emitting different colors every season.

The optical module 66 can emit light of at least two colors by dispersing the light of at least two colors into the illumination space LS when the light is emitted to the illumination space LS, It is possible to emit light.

When light of at least two colors is emitted in the illumination space LS, the hue of light emitted in a part of the illumination space LS and the hue of light emitted in the other area of the illumination space LS may be different .

For example, when the light sources 74 are divided into four seasons such as spring, summer, autumn, and winter, the plurality of light sources 74 can be controlled to three light groups in some seasons of the four seasons. The plurality of light emitting sources 74 can dispersively illuminate the illumination space LS while forming a closed loop shaped illumination band in pink, olive green, and forgery in the first season. The plurality of light emitting sources 74 emit light in the illumination space LS while forming a closed-loop shaped light-emitting band in the second season with a blue color, a sky blue color, and a deep blue color, Can be dispersively illuminated. In addition, the plurality of light-emitting sources 74 can dispersively illuminate the illumination space LS while forming a closed-loop shaped illumination band in the third season in the colors of yellow maple leaves, maple leaves, and red maple leaves. On the other hand, the plurality of light emitting sources 74 can illuminate only a part of the illumination space LS while forming the spot illumination of the hue in the fourth season.

The air conditioner further includes a light shielding plate (69) disposed in front of the optical module (68). The light shielding plate 69 can block the light emitted from the optical module 68 toward the peripheral portion 64 without being directed to the front plate 66. [ The light shielding plate 69 may be disposed between the front plate 66 and the optical module 68 and may be formed larger than the optical module 68. The light shielding plate 69 may be provided with a light transmission hole 69 'through which the light emitted from the display module 67 is transmitted. The display module 67 may be installed on the light shielding plate 68, and a portion for irradiating light for displaying information may be disposed behind the light transmission hole 69 '.

The inner guide moving mechanism 10 can support the inner guide 8 so as to be spaced apart from the discharge guide 6 and the inner guide 8 is capable of moving the inner guide 8 The outer circumferential surface 9 may be spaced apart from the inner circumferential surface 7 of the discharge guide 6. In this case, The inner guide moving mechanism 10 can have a vertical movement mode in which the inner guide 8 is moved up and down from the inside of the discharge guide 6. [ The inner guide moving mechanism 10 can have a moving mode in which the inner guide 8 is moved along the inner circumferential surface 7 of the discharge guide 6 in a curved trajectory. Here, the curved trajectory may be a circular trajectory or an arc trajectory close to a circle. Between the inner guide 8 and the discharge guide 6, the illumination strips LB1 and LB2 can be formed. When the optical module 68 is turned on, the illumination band may be an illumination band LB1 having a closed loop cross-sectional shape with a constant radial width T1. The inner guide moving mechanism 10 can change the closed loop type illumination band LB1 into the crescent shaped illumination band LB2. The inner guide moving mechanism 10 is configured such that a portion 9 'of the outer circumferential surface 9 of the inner guide 8 comes close to the inner circumferential surface 7 of the discharge guide 6, The inner guide 8 can be moved away from the inner circumferential surface 7 of the discharge guide 6 while the opposite portion 9 "of the portion 9 ' The inner guide moving mechanism 10 can change the position of the inner guide 8 so that the illumination band has a region T2 having a small width in the radial direction and a region T3 having a large width in the radial direction. It is possible to change the illumination band LB1 of the closed loop shape to the light band LB2 of a shape having a sharp end at both ends and a thick central portion when the inner guide 8 is to be moved. The inner guide 8 can be moved so that the sectional shape of the space LS changes from the closed loop shape to the crescent shape and then changes to the closed loop shape C. The inner guide moving mechanism 10 can change the position of the inner guide 8 so that the center axis Y of the inner guide 8 is inconsistent with the center axis X of the discharge guide 6. [ When the center axis Y of the guide 8 coincides with the center axis X of the discharge guide 6, the illumination strip formed in the illumination space LS may be in the form of a closed loop having a constant width, 8 formed in the illumination space LS when the inner guide 8 is moved by the inner guide moving mechanism 10 and the center axis Y of the inner guide 8 does not coincide with the central axis X of the discharge guide 6. [ The inner guide moving mechanism 10 raises the inner guide 8 at the inner central position of the discharge guide 6 and then moves the inner peripheral surface 7 of the discharge guide 6 The inner guide moving mechanism 10 moves the inner guide 8 moved in a curved trajectory to the inner side of the discharge guide 6 It may be moving to the center.

The inner guide moving mechanism 10 can stop the inner guide 8 at the inner central position of the discharge guide 6 after moving the inner guide 8 at the start of operation of the air conditioner. The inner guide moving mechanism 10 can move the inner guide 8 at least once to express a specific operation mode. For example, in the cooling operation, the optical module 68 can form a blue light band in the illumination space LS. At this time, the inner guide moving mechanism 10 can move the inner guide 8 The closed-loop blue color illumination strip LB1 and the crescent-shaped blue color illumination strip LB2 can be alternately displayed. In the dehumidifying mode, the optical module 68 can form a violet light band in the illumination space LS. At this time, the inner guide moving mechanism 10 moves the inner guide 8 by moving the inner guide 8 The loop-shaped violet color illumination band LB1 and the crescent-shaped violet color illumination band LB2 can be alternately displayed. The inner guide moving mechanism 10 moves the inner guide 8 even in the power saving mode, the air cleaning mode, or the rapid heating mode, so that the closed loop type illuminated band and the crescent shaped illuminated band are alternately It can be seen.

The inner guide moving mechanism (10) includes a fixed case (100) fixed to the discharge guide (6); A motor 110 installed in the stationary case 100; An inner guide connector (120) connected to the inner guide (8); A power transmitting member 130 (132) for transmitting the driving force of the motor 110 to the inner guide connector 120; And a moving guide 140 installed in the fixed case 100 and guiding the inner guide connector 120 when the motor 110 is driven.

 The stationary case 100 may include a thick plate portion 102 and a circumferential portion 104. The rear plate portion 102 of the fixed case 100 can form the back surface of the inner guide moving mechanism 10. [ The thick plate portion 102 of the stationary case 100 can face the moving mechanism mounting portion 58 and can be installed in the moving mechanism mounting portion 58 and in particular the mounting portion 59, (59). The peripheral portion 104 of the fixed case 100 can form the peripheral surface of the inner guide moving mechanism 10. [ The thick plate portion 102 of the stationary case 100 may be provided with a thick plate fastening boss 103 to which the moving guide 140 can be fastened by a fastening member such as a screw.

The circumferential portion 104 of the fixed case 100 can be opposed to the cylindrical body 52 of the discharge guide 6 and can be spaced apart from the cylindrical body 52 of the discharge guide 6. [ A motor accommodating space in which the motor 110 can be accommodated can be formed inside the peripheral portion 104 of the fixed case 100. The peripheral portion 104 of the stationary case 100 may be provided with a circumferential portion fastening boss 105 which can be fastened by a fastening member such as a screw.

The stationary case 100 may be provided with a motor fastening boss 106 protruding from the fastening case 100 to fasten the motor 110 with a fastening member such as a screw.

 The motor 110 may be installed in the stationary case 100 such that the rotary shaft 112 protrudes forward. The motor 110 can constitute one driving set together with the inner guide connector 120 and the power transmitting members 130 and 132 and the inner guide moving mechanism 10 can be constituted by the motor 110 and the inner guide connector 120 and the power transmitting member 130 (132).

 The inner guide connector 120 can move the inner guide 8 while being guided by the moving guide 140 when the motor 110 is driven.

The inner guide connector 120 may have a connection portion 121 connected to the inner guide 8. The connection portion 121 may be formed to protrude forward from the front surface of the inner guide connector 120. The connection portion 121 may be located at the front center of the inner guide connector 120. The connection portion 121 can pass through a support shaft 65a formed on the thick plate portion 65 of the inner guide 8. [ The support shaft 65a may be formed in a hollow cylinder shape. The connection part 121 can be fastened to the connection part holder 122 without any removal from the support shaft 65a. The connection part 121 may have a connection part holder fixing hole 121a to which the connection part holder 122 is fixed. The connection part holder 122 is screwed to the connection part 121 from the inner side of the inner guide 8 so that the connection part 121 is not removed and the connection part 121 supports the support shaft 65a, 8). The position of the connection part 121 can be varied when the motor 110 is driven and the position of the inner guide 8 can be varied according to the position of the connection part 121. [

The inner guide connector 120 may have a protrusion 123 guided by the moving guide 140. The protrusion 123 may protrude forward from the front surface of the inner guide connector 120. The protrusion 123 may be located apart from the connection portion 121 and the protrusion 123 may be located outside the front center of the inner guide connector 120.

The inner guide connector 120 may be formed with a power transmitting member receiving portion 124 in which the power transmitting members 130 and 132 are located, as shown in FIG. The power transmitting member receiving portion 124 may be formed long in the longitudinal direction of the inner guide connector 120 and at least one of the power transmitting members 130 132 may be accommodated. The power transmitting member receiving portion 124 may be formed by a plate member that is open at the rear side and has four closed upper, lower, left, and right side surfaces. And all of the power transmitting member 130 (132) can be positioned inside the power transmitting member receiving portion 124. The power transmitting member receiving portion 124 has one of the upper, lower, left, The left and right sides of the power transmission member 130 (132) may be open and the three sides of the upper, lower, left, and right side surfaces may be clogged and any one of the power transmission members 130 (132) may be located inside the power transmission member accommodation portion 124, The other one of the members 130 (132) closes the open side of the power transmitting member receiving portion 124 This is possible.

The power transmitting members 130 and 132 may include a pinion 130 provided on the rotating shaft 112 of the motor 110 and a rack 132 coupled to the pinion 130 and provided in the inner guide connector 120 have.

 The pinion 130 can transmit the driving force of the motor 110 to the rack 132. [ The pinion 130 can be located in the space S formed by the power transmitting member receiving portion 124 and the rack 132. [

The rack 132 may be long in the longitudinal direction of the inner guide connector 120. The rack 132 can be integrally formed with the inner guide connector 120 and can be inserted into the inner guide connector 120 manufactured separately from the inner guide connector 120. The rack 132 can be raised and lowered when the pinion 130 is rotated. When the rack 132 reaches a position where the pinion 130 is not lifted further, the pinion 130 is rotated with the pinion 130 Can be rotated.

The moving guide 140 can form the front surface of the inner guide moving mechanism 10. [ The moving guide 140 may be provided so as to face the inner guide 8. The mating guide 140 may be installed to cover the front surface of the stationary case 100. The moving guide 140 can be fastened to the stationary case 100 with a fastening member such as a screw. The moving guide 140 may be formed with a connecting through hole 141 through which the connecting portion 121 passes. The connecting portion through hole 141 may be formed to be larger than the curved trajectory of the connecting portion 121.

 The moving guide 140 may be formed with a guide portion 142 through which the protrusion 123 formed in the inner guide connector 120 is guided. The guide portion 142 may be formed with a guide recess portion on the surface of the front surface and the rear surface facing the fixed case 100. [ The moving guide 140 may be formed in a plate shape as a whole, and the guide portion 142 may protrude forwardly.

 The guide portion 142 may include a straight portion 143 to which the protrusion 123 is guided and a curved portion 144 connected to the straight portion 143 and to which the protrusion 123 is guided. The protrusion 123 is linearly guided at the straight portion 143 and then enters the curved portion 144 and can be guided along the curved portion 144 and guided along the curved portion 144 and then guided to the straight portion 143 And can be guided to the rectilinear section 143.

The inner guide 8 can be linearly moved in a large width from the inside of the discharge guide 6 as the length of the straight portion 143 becomes longer.

 The curved portion 144 can be formed in a closed loop cross-sectional shape, and can be formed in a loop cross-sectional shape connected by a straight line portion 143. As the radius of the curved portion 144 is larger, the inner guide 8 can be moved in a larger curved trajectory.

The rectilinear section 143 may be elongated in the up-and-down direction or elongated in the left-right direction or elongated in the oblique direction between the up-down direction and the left-right direction.

The rectilinear section 143 may include a vertical section 145 for guiding the protrusion 123 up and down and a curved section 144 connected to the upper part. The linear portion 143 may further include an inclined portion 146 connecting the lower portion of the vertical portion 145 and the curved portion 144. The protrusion 123 may be guided along the vertical portion 145 and then enter the curved portion 144 and be guided in the curved portion 144 in a curved trajectory. The protruding portion 123 that has been accommodated in the curved trajectory enters the inclined portion 146 from the curved portion 144 and can be guided to the inclined portion 146. After being guided by the inclined portion 145, As shown in FIG.

  The guide portion 142 may include the straight portion 143 not including the inclined portion 146 and at least one of the vertical portion 145 and the horizontal portion (not shown) and the curved portion 144. The projecting portion 123 which is guided along the vertical portion 145 can be guided along the curved portion 144 in a circular path and then guided along the vertical portion 145 again. The projecting protrusion 123 which is guided along the horizontal portion can be guided in a circular path along the curved portion 144 and then horizontally moved in the opposite direction along the horizontal portion 145 again.

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

First, when a user or the like inputs an operation command to an input unit (not shown) such as a remote control unit or a control panel installed in the air conditioner, the air conditioner can be controlled according to the inputted operation command.

The air conditioner may have an operation mode such as a cooling mode, a dehumidifying mode, a power saving mode, an air cleaning mode, and a rapid cooling mode. When the user inputs one of these, the air conditioner operates .

The air conditioner can be operated with the inner guide 8 positioned at the center of the inner side of the discharge guide 10, as shown in Fig. 7 (A).

When the air conditioner is in operation, the driving of the air blowing units 18 and 20 can be driven, and the air in the room can be sucked into the air inlet 2 and pass through the heat exchanger 18. The air having passed through the heat exchanger 18 can be blown to at least one of the discharge guide 6 and the air discharge opening 24 by the air blowing units 18 and 20. The air discharged to the air discharge port 24 can be discharged in the lateral direction in the case 12 or in the front lateral direction of the case 12. [ The air blown to the discharge guide 6 first passes between the inner guide moving mechanism 10 and the discharge guide 6 and then flows between the inner guide 8 and the discharge guide 6. Then, And can be discharged in the forward direction of the illumination space LS while being guided by the outer peripheral surface 9 of the discharge guide 6 and the inner peripheral surface 7 of the discharge guide 6. [

The optical module 68 can illuminate the illumination space LS with a color and a control mode corresponding to the operation mode of the air conditioner, or illuminate the illumination space LS with a color and a control mode set according to the season .

The inner guide moving mechanism 10 can move the inner guide 8 so that the shape of the illumination formed by the optical module 68 is varied during operation of the air conditioner.

6 (A), when the pinion 130 is engaged with the upper portion of the rack 132, the inner guide 8, as shown in Fig. 7 (A) It is possible to maintain a constant interval (T1) with the inner peripheral surface of the discharge guide 6.

When the motor 110 is driven in a state in which the outer circumferential surface of the inner guide 8 maintains a certain distance T1 from the inner circumferential surface of the discharge guide 6, the pinion 130 can be rotated, and the protrusions 123 Can be guided by the vertical portion 145 and the rack 132 can be lifted together with the inner guide connector 120. [ The inner guide 8 can be raised by the inner guide connector 120 when the inner guide connector 120 is lifted and the inner guide 8 can be lifted up by the upper guide And the lower portion can be distant from the inner circumferential surface of the discharge guide 6, and the illumination band formed in the illumination space LS can be formed in the shape of a crescent moon Lt; / RTI >

As the motor 110 continues to rotate the pinion 130 the protrusion 123 may enter the curved portion 144 at the vertical portion 145 and be guided by the curved portion 144, And can be rotated together with the inner guide connector 120 at the center of rotation of the pinion 130. The inner guide guide 120 is rotated substantially horizontally around the pinion 130 as shown in Fig. 6C and the inner guide 8 is rotated about the pinion 130 as shown in Fig. The left side portion is close to the inner circumferential surface of the discharge guide 6 and the right side portion can be distant from the inner circumferential surface of the discharge guide 6. The illumination band formed in the illumination space LS is formed in a crescent shape The left side portion may be deformed into an open crescent shape.

The protrusion 123 can continue to be guided along the curved portion 144 as the motor 110 continues to rotate the pinion 130 and the rack 132 rotates the pinion 130 about the inner guide connector 120 ). ≪ / RTI > 6 (D), the inner guide 8 is rotatably supported by the pinion 130 as shown in FIG. 7 (D) The lower part can be close to the inner circumferential surface of the discharge guide 6 and the upper part can be distant from the inner circumferential surface of the discharge guide 6. The illumination band formed in the illumination space LS can be formed in the shape of a crescent moon And can be deformed into a crescent shape in which the bottom is opened.

The protrusion 123 can continue to be guided along the curved portion 144 as the motor 110 continues to rotate the pinion 130 and the rack 132 rotates the pinion 130 about the inner guide connector 120 ). ≪ / RTI > The inner guide guide 120 is rotated approximately horizontally about the pinion 130 as shown in Figure 6E and the inner guide 8 is rotated about the pinion 130 as shown in Figure 7E, The right side portion is close to the inner circumferential surface of the discharge guide 6 and the left side portion can be distant from the inner circumferential surface of the discharge guide 6 and the illumination band formed in the illumination space LS is formed in the crescent shape The right side portion can be deformed into an open crescent shape.

 When the motor 110 continues to rotate the pinion 130, the protrusion 123 can enter the inclined portion 146 from the curved portion 144 and the motor 110 can rotate the pinion 130 for a predetermined period of time . For example, if the rotation direction when the projection 123 is guided along the curved portion 144 is clockwise, the rotation direction when the projection 123 is guided along the slope portion 146 is a counterclockwise direction . The protrusion 123 can be guided obliquely along the inclined portion 146 so as to enter the lower portion of the vertical portion 145 when the pinion 130 rotates counterclockwise. 7, the inner guide 8 is moved toward the inner center of the discharge guide 6 while the protrusion 123 is guided obliquely along the inclined portion 146, The inner guide 8 can be positioned at the inner center of the discharge guide 6 as shown in Fig. 7 (A). The motor 110 can rotate the pinion 130 in the reverse direction of the reverse rotation after rotating the pinion 130 for a predetermined time. The rotation direction after the protrusion 123 reaches the lower portion of the vertical portion 145 when the rotation direction when the protrusion 123 is guided along the slope portion 146 is counterclockwise, Direction. When the pinion 130 is rotated as described above, the rack 132 can be rotated together with the inner guide connector 120 at the center of rotation of the pinion 130. The inner guide guide 120 is rotated substantially vertically with the pinion 130 as the center of rotation as shown in Figure 6 (A), and the inner guide 8, as shown in Figure 7 (A) It is possible to maintain a constant interval (T1) with the inner peripheral surface of the discharge guide 6.

While the inner guide moving mechanism 10 moves the inner guide 8, the shape of the illumination band is continuously changed, and the shape of the illuminated crescent shape is continuously changed, and the user can easily recognize the current operation mode even at a long distance .

The air conditioner can be continuously operated in a state in which the inner guide 8 is moved to the center of the inner side of the discharge guide 6 after the inner guide 8 is once moved only once, It is possible to continue the operation while repeating the movement of the inner guide 8 a plurality of times during the operation mode.

However, the present invention is not limited to the above-described embodiment, and the curved portion 144 may be connected to the upper portion of one vertical portion 145 so that the inner guide 8 is lifted and moved at least twice in a circular path It is also possible to descend at the end. It is also possible that the curved portion 144 is connected to the lower portion of the straight portion 143 so that the inner guide 8 can be lowered and then lifted after moving in a circular locus, It goes without saying that various implementations of the inner guide 8 are possible.

2: Main body 4: Air inlet
6: Discharge guide 8: Inner guide
10: Inner guide moving mechanism 63: Lighting cover
64: circumference 66: front plate
68: Optical module 69: Shield plate
70: first file cost 72: second file cost
74: light source 100: fixed case
110: motor 120: inner guide connector
130: rack 132: pinion
140: Moving guide LS: Lighting space

Claims (17)

A main body having an air inlet formed therein and formed with a discharge guide;
An inner guide movably positioned inside the discharge guide and forming the discharge guide and the air discharge passage;
And an optical module installed in the main body or the inner guide for illuminating the discharge guide. The method according to claim 1,
The inner guide
An illumination cover forming the discharge guide and the air discharge passage,
And a front plate that covers the front surface of the illumination cover,
Wherein the optical module is disposed between the lighting cover and the front panel. The method according to claim 1,
An air conditioner further comprising an inner guide moving mechanism for moving the inner guide, The method of claim 3,
Wherein the inner guide moving mechanism moves the inner guide from the inside of the discharge guide. 5. The method of claim 4,
And an illumination band is formed in an area inside the discharge guide excluding the inner guide. 6. The method of claim 5,
Wherein the inner guide moving mechanism moves the inner guide in such a manner that the shape of the light guide band is variable. The method according to claim 1,
Wherein the optical module is installed in the discharge guide. The method according to claim 1,
Wherein the optical module emits light of a different color for each operation mode of the air conditioner. The method according to claim 1,
Wherein the optical module emits light of different colors for different seasons. The method of claim 3,
Wherein the inner guide moving mechanism has a vertical movement mode in which the inner guide is moved up and down from the inside of the discharge guide. The method of claim 3,
Wherein the inner guide moving mechanism has a moving mode in which the inner guide is moved in a curved trajectory along the inner peripheral surface of the discharge guide. 6. The method of claim 5,
Wherein the inner guide moving mechanism changes the closed loop shaped illumination band into a crescent shaped lighted band. The method of claim 3,
Wherein the inner guide moving mechanism changes the position of the inner guide so that the center axis of the inner guide is inconsistent with the center axis of the discharge guide. The method according to claim 1,
And a light shielding plate disposed in front of the optical module. 3. The method of claim 2,
Wherein the optical module has a first file ratio installed on the illumination cover,
A plurality of second file units provided in the first file ratio,
And a light emission source provided so as to protrude toward the lighting cover at the second face ratio. A main body having an air inlet formed therein and formed with a discharge guide;
An inner guide movably positioned inside the discharge guide to form the discharge guide and the air discharge passage;
And an optical module installed in the main body or the inner guide and forming an illumination with the discharge guide,
And an illumination band is formed in an area inside the discharge guide excluding the inner guide. 17. The method of claim 16,
And the shape of the light strip is variable.

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